コード例 #1
0
ファイル: run_ftf.py プロジェクト: reynsys/Virgo
    def __init__(self, bandwidth=2e6, bb_gain=20, channels=1024, dev_args='', duration=60, frequency=1420e6, if_gain=20, obs_file='observation.dat', rf_gain=30, t_sample=1):
        gr.top_block.__init__(self, "Run Observation")

        ##################################################
        # Parameters
        ##################################################
        self.bandwidth = bandwidth
        self.bb_gain = bb_gain
        self.channels = channels
        self.dev_args = dev_args
        self.duration = duration
        self.frequency = frequency
        self.if_gain = if_gain
        self.obs_file = obs_file
        self.rf_gain = rf_gain
        self.t_sample = t_sample

        ##################################################
        # Variables
        ##################################################
        self.sinc_sample_locations = sinc_sample_locations = np.arange(-np.pi*4/2.0, np.pi*4/2.0, np.pi/channels)
        self.sinc = sinc = np.sinc(sinc_sample_locations/np.pi)
        self.custom_window = custom_window = sinc*np.hamming(4*channels)

        ##################################################
        # Blocks
        ##################################################
        self.osmosdr_source_0 = osmosdr.source( args="numchan=" + str(1) + " " + dev_args )
        self.osmosdr_source_0.set_sample_rate(bandwidth)
        self.osmosdr_source_0.set_center_freq(frequency, 0)
        self.osmosdr_source_0.set_freq_corr(0, 0)
        self.osmosdr_source_0.set_dc_offset_mode(0, 0)
        self.osmosdr_source_0.set_iq_balance_mode(0, 0)
        self.osmosdr_source_0.set_gain_mode(False, 0)
        self.osmosdr_source_0.set_gain(rf_gain, 0)
        self.osmosdr_source_0.set_if_gain(if_gain, 0)
        self.osmosdr_source_0.set_bb_gain(bb_gain, 0)
        self.osmosdr_source_0.set_antenna('', 0)
        self.osmosdr_source_0.set_bandwidth(0, 0)

        self.fft_vxx_0 = fft.fft_vcc(channels, True, (window.blackmanharris(channels)), True, 1)
        self.blocks_stream_to_vector_0 = blocks.stream_to_vector(gr.sizeof_gr_complex*1, channels)
        self.blocks_integrate_xx_0 = blocks.integrate_ff(int(t_sample*bandwidth/channels), channels)
        self.blocks_head_0 = blocks.head(gr.sizeof_gr_complex*1, int(duration*bandwidth))
        self.blocks_file_sink_0 = blocks.file_sink(gr.sizeof_float*channels, obs_file, True)
        self.blocks_file_sink_0.set_unbuffered(False)
        self.blocks_complex_to_mag_squared_0 = blocks.complex_to_mag_squared(channels)



        ##################################################
        # Connections
        ##################################################
        self.connect((self.blocks_complex_to_mag_squared_0, 0), (self.blocks_integrate_xx_0, 0))
        self.connect((self.blocks_head_0, 0), (self.blocks_stream_to_vector_0, 0))
        self.connect((self.blocks_integrate_xx_0, 0), (self.blocks_file_sink_0, 0))
        self.connect((self.blocks_stream_to_vector_0, 0), (self.fft_vxx_0, 0))
        self.connect((self.fft_vxx_0, 0), (self.blocks_complex_to_mag_squared_0, 0))
        self.connect((self.osmosdr_source_0, 0), (self.blocks_head_0, 0))
コード例 #2
0
    def test_002_ff(self):
	src_data = [1.0, 2.0, 3.0, 4.0, 5.0, 6.0]
	dst_data = [6.0, 15.0]
	src = blocks.vector_source_f(src_data)
	itg = blocks.integrate_ff(3)
	dst = blocks.vector_sink_f()
	self.tb.connect(src, itg, dst)
	self.tb.run()
	self.assertFloatTuplesAlmostEqual(dst_data, dst.data(), 6)
コード例 #3
0
 def test_002_ff(self):
     src_data = [1.0, 2.0, 3.0, 4.0, 5.0, 6.0]
     dst_data = [6.0, 15.0]
     src = blocks.vector_source_f(src_data)
     itg = blocks.integrate_ff(3)
     dst = blocks.vector_sink_f()
     self.tb.connect(src, itg, dst)
     self.tb.run()
     self.assertFloatTuplesAlmostEqual(dst_data, dst.data(), 6)
コード例 #4
0
ファイル: bitErrorRate.py プロジェクト: NoelM1920/lpo
    def __init__(self):
        gr.hier_block2.__init__(
            self,
            "Bit Error Rate",
            gr.io_signaturev(2, 2, [gr.sizeof_char * 1, gr.sizeof_char * 1]),
            gr.io_signature(1, 1, gr.sizeof_float * 1),
        )

        ##################################################
        # Variables
        ##################################################
        self._msgLength_config = ConfigParser.ConfigParser()
        self._msgLength_config.read("./configs/sdrConfig.txt")
        try:
            msgLength = self._msgLength_config.getint("main", "key")
        except:
            msgLength = 10000
        self.msgLength = msgLength
        self._bits_per_byte_config = ConfigParser.ConfigParser()
        self._bits_per_byte_config.read("./configs/sdrConfig.txt")
        try:
            bits_per_byte = self._bits_per_byte_config.getint("main", "key")
        except:
            bits_per_byte = 8
        self.bits_per_byte = bits_per_byte

        intdecim = 100000
        if msgLength < intdecim:
            intdecim = msgLength

        ##################################################
        # Blocks
        ##################################################
        self.blocks_xor_xx_0 = blocks.xor_bb()
        self.blocks_unpack_k_bits_bb_0 = blocks.unpack_k_bits_bb(bits_per_byte)
        self.blocks_uchar_to_float_0 = blocks.uchar_to_float()
        self.blocks_multiply_const_vxx_0 = blocks.multiply_const_vff(
            (1.0 / msgLength, ))
        self.blocks_integrate_xx_0 = blocks.integrate_ff(intdecim)

        ##################################################
        # Connections
        ##################################################
        self.connect((self.blocks_integrate_xx_0, 0),
                     (self.blocks_multiply_const_vxx_0, 0))
        self.connect((self, 1), (self.blocks_xor_xx_0, 1))
        self.connect((self, 0), (self.blocks_xor_xx_0, 0))
        self.connect((self.blocks_multiply_const_vxx_0, 0), (self, 0))
        self.connect((self.blocks_xor_xx_0, 0),
                     (self.blocks_unpack_k_bits_bb_0, 0))
        self.connect((self.blocks_unpack_k_bits_bb_0, 0),
                     (self.blocks_uchar_to_float_0, 0))
        self.connect((self.blocks_uchar_to_float_0, 0),
                     (self.blocks_integrate_xx_0, 0))
コード例 #5
0
    def __init__(self):
        gr.hier_block2.__init__(self, "BitErrors",
                                gr.io_signature(1, 1, gr.sizeof_char),
                                gr.io_signature(1, 1, gr.sizeof_int))

        intdump_decim = min(int(N_BITS / 10), 100000)
        self.connect(self, blocks.skiphead(gr.sizeof_char, SKIP),
                     blocks.not_bb(), blocks.and_const_bb(1),
                     blocks.uchar_to_float(),
                     blocks.integrate_ff(intdump_decim),
                     blocks.multiply_const_ff(1.0 / intdump_decim), self)
コード例 #6
0
    def __init__(self, c_freq=1420000000, nbin=1000, nchan=1024, obs_time=60, samp_rate=2400000):
        gr.top_block.__init__(self, "Top Block")

        ##################################################
        # Parameters
        ##################################################
        self.c_freq = c_freq
        self.nbin = nbin
        self.nchan = nchan
        self.obs_time = obs_time
        self.samp_rate = samp_rate

        ##################################################
        # Variables
        ##################################################
        self.gain = gain = 10000

        ##################################################
        # Blocks
        ##################################################
        self.fft_vxx_0 = fft.fft_vcc(nchan, True, (window.blackmanharris(nchan)), True, 1)
        self.blocks_stream_to_vector_0 = blocks.stream_to_vector(gr.sizeof_gr_complex*1, nchan)
        self.blocks_integrate_xx_0 = blocks.integrate_ff(nbin, nchan)
        self.blocks_head_0 = blocks.head(gr.sizeof_gr_complex*1, int(obs_time*samp_rate))
        self.blocks_file_sink_0 = blocks.file_sink(gr.sizeof_float*nchan, '/home/pictor/Desktop/pictortelescope/observation.dat', True)
        self.blocks_file_sink_0.set_unbuffered(False)
        self.blocks_complex_to_mag_squared_0 = blocks.complex_to_mag_squared(nchan)
        self.RTL820T = osmosdr.source( args="numchan=" + str(1) + " " + '' )
        self.RTL820T.set_sample_rate(samp_rate)
        self.RTL820T.set_center_freq(c_freq, 0)
        self.RTL820T.set_freq_corr(0, 0)
        self.RTL820T.set_dc_offset_mode(0, 0)
        self.RTL820T.set_iq_balance_mode(0, 0)
        self.RTL820T.set_gain_mode(False, 0)
        self.RTL820T.set_gain(30, 0)
        self.RTL820T.set_if_gain(30, 0)
        self.RTL820T.set_bb_gain(30, 0)
        self.RTL820T.set_antenna('', 0)
        self.RTL820T.set_bandwidth(0, 0)


        ##################################################
        # Connections
        ##################################################
        self.connect((self.RTL820T, 0), (self.blocks_head_0, 0))
        self.connect((self.blocks_complex_to_mag_squared_0, 0), (self.blocks_integrate_xx_0, 0))
        self.connect((self.blocks_head_0, 0), (self.blocks_stream_to_vector_0, 0))
        self.connect((self.blocks_integrate_xx_0, 0), (self.blocks_file_sink_0, 0))
        self.connect((self.blocks_stream_to_vector_0, 0), (self.fft_vxx_0, 0))
        self.connect((self.fft_vxx_0, 0), (self.blocks_complex_to_mag_squared_0, 0))
コード例 #7
0
 def __init__(self, bits_per_byte):
     gr.hier_block2.__init__(self, "BitErrors",
                             gr.io_signature(2, 2, gr.sizeof_char),
                             gr.io_signature(1, 1, gr.sizeof_int))
     # Bit comparison
     comp = blocks.xor_bb()
     intdump_decim = 100000
     if N_BITS < intdump_decim:
         intdump_decim = int(N_BITS)
     self.connect(self, comp, blocks.unpack_k_bits_bb(bits_per_byte),
                  blocks.uchar_to_float(),
                  blocks.integrate_ff(intdump_decim),
                  blocks.multiply_const_ff(1.0 / N_BITS), self)
     self.connect((self, 1), (comp, 1))
コード例 #8
0
ファイル: berawgn.py プロジェクト: danbar/gnuradio
    def __init__(self, bits_per_byte):
        gr.hier_block2.__init__(self, "BitErrors",
                gr.io_signature(2, 2, gr.sizeof_char),
                gr.io_signature(1, 1, gr.sizeof_int))

        # Bit comparison
        comp = blocks.xor_bb()
        intdump_decim = 100000
        if N_BITS < intdump_decim:
            intdump_decim = int(N_BITS)
        self.connect(self,
                     comp,
                     blocks.unpack_k_bits_bb(bits_per_byte),
                     blocks.uchar_to_float(),
                     blocks.integrate_ff(intdump_decim),
                     blocks.multiply_const_ff(1.0 / N_BITS),
                     self)
        self.connect((self, 1), (comp, 1))
コード例 #9
0
ファイル: bitErrorRate.py プロジェクト: franchenstein/tcc
    def __init__(self):
        gr.hier_block2.__init__(
            self, "Bit Error Rate",
            gr.io_signaturev(2, 2, [gr.sizeof_char*1, gr.sizeof_char*1]),
            gr.io_signature(1, 1, gr.sizeof_float*1),
        )

        ##################################################
        # Variables
        ##################################################
        self._msgLength_config = ConfigParser.ConfigParser()
        self._msgLength_config.read("./configs/sdrConfig.txt")
        try: msgLength = self._msgLength_config.getint("main", "key")
        except: msgLength = 10000
        self.msgLength = msgLength
        self._bits_per_byte_config = ConfigParser.ConfigParser()
        self._bits_per_byte_config.read("./configs/sdrConfig.txt")
        try: bits_per_byte = self._bits_per_byte_config.getint("main", "key")
        except: bits_per_byte = 8
        self.bits_per_byte = bits_per_byte

        intdecim = 100000
        if msgLength < intdecim:
            intdecim = msgLength
        
        ##################################################
        # Blocks
        ##################################################
        self.blocks_xor_xx_0 = blocks.xor_bb()
        self.blocks_unpack_k_bits_bb_0 = blocks.unpack_k_bits_bb(bits_per_byte)
        self.blocks_uchar_to_float_0 = blocks.uchar_to_float()
        self.blocks_multiply_const_vxx_0 = blocks.multiply_const_vff((1.0/msgLength, ))
        self.blocks_integrate_xx_0 = blocks.integrate_ff(intdecim)

        ##################################################
        # Connections
        ##################################################
        self.connect((self.blocks_integrate_xx_0, 0), (self.blocks_multiply_const_vxx_0, 0))
        self.connect((self, 1), (self.blocks_xor_xx_0, 1))
        self.connect((self, 0), (self.blocks_xor_xx_0, 0))
        self.connect((self.blocks_multiply_const_vxx_0, 0), (self, 0))
        self.connect((self.blocks_xor_xx_0, 0), (self.blocks_unpack_k_bits_bb_0, 0))
        self.connect((self.blocks_unpack_k_bits_bb_0, 0), (self.blocks_uchar_to_float_0, 0))
        self.connect((self.blocks_uchar_to_float_0, 0), (self.blocks_integrate_xx_0, 0))
コード例 #10
0
 def test_001_t (self):
     expected_result = (250.0, 250.0)
     rng = c4fm.bernoulli_source_b(0.25, 0)
     head = blocks.head(gr.sizeof_char, 2000)
     convert = blocks.uchar_to_float()
     integrate = blocks.integrate_ff(1000)
     dst = blocks.vector_sink_f()
     self.tb.connect(rng, head)
     self.tb.connect(head, convert)
     self.tb.connect(convert, integrate)
     self.tb.connect(integrate, dst)
     self.tb.run ()
     # check data
     # The result is a random variable of mean 0.25*1000 = 250
     # This test is statistical: there is a small probablity that it will fail
     self.assertLess(dst.data()[0], 350.0) 
     self.assertGreater(dst.data()[0], 150.0)
     self.assertLess(dst.data()[1], 350.0) 
     self.assertGreater(dst.data()[1], 150.0)
コード例 #11
0
    def __init__(self, samp_rate, decimation, signal_taps, max_overlap=0.25,
            threshold=4., fft_size=2048, center_freq=0):
        gr.hier_block2.__init__(
            self, "Channel Detector",
            gr.io_signature(1, 1, gr.sizeof_gr_complex),
            gr.io_signature(0, 0, 0),
        )

        ##################################################
        # Parameters
        ##################################################
        self.samp_rate = samp_rate
        self.decimation = decimation
        self.fft_size = fft_size
        self.center_freq = center_freq
        self.signals_detected_handler = None

        ##################################################
        # Blocks
        ##################################################
        self.fft = fft.fft_vcc(fft_size, True, (fft.window.blackmanharris(fft_size)), True, 1)
        self.stream_to_vect = blocks.stream_to_vector(gr.sizeof_gr_complex*1, fft_size)
        self.log10 = blocks.nlog10_ff(10, fft_size, -10*math.log10(decimation))
        self.integrate = blocks.integrate_ff(decimation, fft_size)
        self.complex_to_mag_squared = blocks.complex_to_mag_squared(fft_size)
        self.sig_det = signal_detector_base(samp_rate, fft_size, signal_taps,
                threshold, max_overlap, center_freq=center_freq)

        ##################################################
        # Connections
        ##################################################
        self.connect((self, 0), (self.stream_to_vect, 0))
        self.connect((self.stream_to_vect, 0), (self.fft, 0))
        self.connect((self.fft, 0), (self.complex_to_mag_squared, 0))
        self.connect((self.complex_to_mag_squared, 0), (self.integrate, 0))
        self.connect((self.integrate, 0), (self.log10, 0))
        self.connect((self.log10, 0), (self.sig_det, 0))
コード例 #12
0
    def __init__(self):
        grc_wxgui.top_block_gui.__init__(self, title="Top Block")
        _icon_path = "/usr/share/icons/hicolor/32x32/apps/gnuradio-grc.png"
        self.SetIcon(wx.Icon(_icon_path, wx.BITMAP_TYPE_ANY))

        ##################################################
        # Variables
        ##################################################
        self.samp_rate = samp_rate = 44100

        ##################################################
        # Blocks
        ##################################################
        self.wxgui_waterfallsink2_0 = waterfallsink2.waterfall_sink_f(
        	self.GetWin(),
        	baseband_freq=0,
        	dynamic_range=100,
        	ref_level=0,
        	ref_scale=2.0,
        	sample_rate=samp_rate/4,
        	fft_size=2048,
        	fft_rate=15,
        	average=False,
        	avg_alpha=None,
        	title='Waterfall Plot',
        )
        self.Add(self.wxgui_waterfallsink2_0.win)
        self.blocks_wavfile_source_0 = blocks.wavfile_source('/home/sdr/Dropbox/Work/Documents/2020/FYS-2006/book/code/signal_processing/010_audio_compression/compressed_signal.wav', True)
        self.blocks_integrate_xx_0 = blocks.integrate_ff(4, 1)
        self.audio_sink_0 = audio.sink(samp_rate, '', True)

        ##################################################
        # Connections
        ##################################################
        self.connect((self.blocks_integrate_xx_0, 0), (self.wxgui_waterfallsink2_0, 0))
        self.connect((self.blocks_wavfile_source_0, 0), (self.audio_sink_0, 0))
        self.connect((self.blocks_wavfile_source_0, 0), (self.blocks_integrate_xx_0, 0))
コード例 #13
0
    def __init__(self,
                 fast_integration=0.0005,
                 freq=1.4205e9,
                 samp_rate=25e6,
                 vec_length=256):
        gr.top_block.__init__(self, "Headless Usrp Filterbank")

        ##################################################
        # Parameters
        ##################################################
        self.fast_integration = fast_integration
        self.freq = freq
        self.samp_rate = samp_rate
        self.vec_length = vec_length

        ##################################################
        # Variables
        ##################################################
        self.integration_time = integration_time = 10

        ##################################################
        # Blocks
        ##################################################
        self.uhd_usrp_source_1 = uhd.usrp_source(
            ",".join(("", "")),
            uhd.stream_args(
                cpu_format="fc32",
                otw_format="sc8",
                args='',
                channels=list(range(0, 1)),
            ),
        )
        self.uhd_usrp_source_1.set_samp_rate(samp_rate)
        self.uhd_usrp_source_1.set_time_now(uhd.time_spec(time.time()),
                                            uhd.ALL_MBOARDS)

        self.uhd_usrp_source_1.set_center_freq(freq, 0)
        self.uhd_usrp_source_1.set_antenna('TX/RX', 0)
        self.uhd_usrp_source_1.set_gain(35, 0)
        self.uhd_usrp_source_1.set_auto_dc_offset(True, 0)
        self.uhd_usrp_source_1.set_auto_iq_balance(True, 0)
        self.uhd_usrp_source_1.set_min_output_buffer(8192)
        self.uhd_usrp_source_1.set_max_output_buffer(16384)
        self.fft_vxx_0 = fft.fft_vcc(vec_length, True,
                                     window.rectangular(vec_length), True, 4)
        self.blocks_stream_to_vector_0 = blocks.stream_to_vector(
            gr.sizeof_gr_complex * 1, vec_length)
        self.blocks_multiply_conjugate_cc_0 = blocks.multiply_conjugate_cc(
            vec_length)
        self.blocks_integrate_xx_0_0 = blocks.integrate_ff(
            int(fast_integration * samp_rate / vec_length), vec_length)
        self.blocks_file_sink_0 = blocks.file_sink(
            gr.sizeof_float * vec_length, 'test.bin', False)
        self.blocks_file_sink_0.set_unbuffered(False)
        self.blocks_complex_to_real_0_0 = blocks.complex_to_real(vec_length)

        ##################################################
        # Connections
        ##################################################
        self.connect((self.blocks_complex_to_real_0_0, 0),
                     (self.blocks_integrate_xx_0_0, 0))
        self.connect((self.blocks_integrate_xx_0_0, 0),
                     (self.blocks_file_sink_0, 0))
        self.connect((self.blocks_multiply_conjugate_cc_0, 0),
                     (self.blocks_complex_to_real_0_0, 0))
        self.connect((self.blocks_stream_to_vector_0, 0), (self.fft_vxx_0, 0))
        self.connect((self.fft_vxx_0, 0),
                     (self.blocks_multiply_conjugate_cc_0, 1))
        self.connect((self.fft_vxx_0, 0),
                     (self.blocks_multiply_conjugate_cc_0, 0))
        self.connect((self.uhd_usrp_source_1, 0),
                     (self.blocks_stream_to_vector_0, 0))
コード例 #14
0
    def __init__(self):
        grc_wxgui.top_block_gui.__init__(self, title="Vor Receive Realtime Clean")
        _icon_path = "/usr/share/icons/hicolor/32x32/apps/gnuradio-grc.png"
        self.SetIcon(wx.Icon(_icon_path, wx.BITMAP_TYPE_ANY))

        ##################################################
        # Variables
        ##################################################
        self.morse_vol = morse_vol = 10
        self.samp_rate = samp_rate = 32000
        self.rtl_gain = rtl_gain = 42
        self.rtl_freq = rtl_freq = 115.5e6+64
        self.morse_gain = morse_gain = pow(10,morse_vol/10)
        self.morse_amp_level = morse_amp_level = 0

        ##################################################
        # Blocks
        ##################################################
        self.wxgui_scopesink2_1_0_0 = scopesink2.scope_sink_f(
        	self.GetWin(),
        	title='Morse',
        	sample_rate=samp_rate/(1600),
        	v_scale=0,
        	v_offset=0,
        	t_scale=0,
        	ac_couple=False,
        	xy_mode=False,
        	num_inputs=1,
        	trig_mode=wxgui.TRIG_MODE_STRIPCHART,
        	y_axis_label='Amp',
        )
        self.Add(self.wxgui_scopesink2_1_0_0.win)
        self.wxgui_scopesink2_0 = scopesink2.scope_sink_f(
        	self.GetWin(),
        	title='Scope Plot',
        	sample_rate=samp_rate,
        	v_scale=0,
        	v_offset=0,
        	t_scale=0.02,
        	ac_couple=False,
        	xy_mode=False,
        	num_inputs=2,
        	trig_mode=wxgui.TRIG_MODE_AUTO,
        	y_axis_label='Counts',
        )
        self.Add(self.wxgui_scopesink2_0.win)
        self.wxgui_numbersink2_1 = numbersink2.number_sink_f(
        	self.GetWin(),
        	unit='Units',
        	minval=0,
        	maxval=360,
        	factor=1.0,
        	decimal_places=10,
        	ref_level=0,
        	sample_rate=1,
        	number_rate=15,
        	average=False,
        	avg_alpha=None,
        	label='Number Plot',
        	peak_hold=False,
        	show_gauge=False,
        )
        self.Add(self.wxgui_numbersink2_1.win)
        _morse_vol_sizer = wx.BoxSizer(wx.VERTICAL)
        self._morse_vol_text_box = forms.text_box(
        	parent=self.GetWin(),
        	sizer=_morse_vol_sizer,
        	value=self.morse_vol,
        	callback=self.set_morse_vol,
        	label='Morse Volume (dB):',
        	converter=forms.float_converter(),
        	proportion=0,
        )
        self._morse_vol_slider = forms.slider(
        	parent=self.GetWin(),
        	sizer=_morse_vol_sizer,
        	value=self.morse_vol,
        	callback=self.set_morse_vol,
        	minimum=-25,
        	maximum=25,
        	num_steps=1000,
        	style=wx.SL_HORIZONTAL,
        	cast=float,
        	proportion=1,
        )
        self.Add(_morse_vol_sizer)

        def _morse_amp_level_probe():
            while True:
                val = self.morse_amp.level()
                try:
                    self.set_morse_amp_level(val)
                except AttributeError:
                    pass
                time.sleep(1.0 / (25))
        _morse_amp_level_thread = threading.Thread(target=_morse_amp_level_probe)
        _morse_amp_level_thread.daemon = True
        _morse_amp_level_thread.start()

        self.low_pass_filter_0_1_0 = filter.fir_filter_fff(1, firdes.low_pass(
        	1, samp_rate, 1000, 500, firdes.WIN_HAMMING, 6.76))
        self.low_pass_filter_0_1 = filter.fir_filter_ccf(1, firdes.low_pass(
        	1, samp_rate, 1000, 500, firdes.WIN_HAMMING, 6.76))
        self.iio_modulo_const_ff_0 = iio.modulo_const_ff(360, 1)
        self.goertzel_fc_0_0 = fft.goertzel_fc(samp_rate, 3200, 30)
        self.goertzel_fc_0 = fft.goertzel_fc(samp_rate, 3200, 30)
        self.fir_filter_xxx_0_0 = filter.fir_filter_fff(1, (filter.optfir.low_pass(1, samp_rate, 100, 200, 0.1,  60)))
        self.fir_filter_xxx_0_0.declare_sample_delay(0)
        self.blocks_throttle_0 = blocks.throttle(gr.sizeof_gr_complex*1, samp_rate,True)
        self.blocks_multiply_xx_0 = blocks.multiply_vcc(1)
        self.blocks_multiply_const_vxx_1 = blocks.multiply_const_vff((-180/pi, ))
        self.blocks_multiply_const_vxx_0 = blocks.multiply_const_vff((morse_gain, ))
        self.blocks_multiply_conjugate_cc_0 = blocks.multiply_conjugate_cc(1)
        self.blocks_integrate_xx_1 = blocks.integrate_ff(1600, 1)
        self.blocks_float_to_complex_0 = blocks.float_to_complex(1)
        self.blocks_file_source_0_0_0 = blocks.file_source(gr.sizeof_gr_complex*1, '/tmp/vor_simulation.cfile', False)
        self.blocks_complex_to_mag_squared_0 = blocks.complex_to_mag_squared(1)
        self.blocks_complex_to_arg_0 = blocks.complex_to_arg(1)
        self.blocks_add_const_vxx_1 = blocks.add_const_vff((360, ))
        self.band_pass_filter_0 = filter.fir_filter_fcc(1, firdes.complex_band_pass(
        	1, samp_rate, 1010, 1030, 100, firdes.WIN_HAMMING, 6.76))
        self.audio_sink_0_0 = audio.sink(samp_rate, '', True)
        self.analog_sig_source_x_0 = analog.sig_source_c(samp_rate, analog.GR_COS_WAVE, -9960, 1, 0)
        self.analog_fm_demod_cf_0 = analog.fm_demod_cf(
        	channel_rate=samp_rate,
        	audio_decim=1,
        	deviation=1000,
        	audio_pass=100,
        	audio_stop=200,
        	gain=1.0,
        	tau=75e-6,
        )
        self.analog_am_demod_cf_0 = analog.am_demod_cf(
        	channel_rate=samp_rate,
        	audio_decim=1,
        	audio_pass=12000,
        	audio_stop=13000,
        )

        ##################################################
        # Connections
        ##################################################
        self.connect((self.analog_am_demod_cf_0, 0), (self.band_pass_filter_0, 0))
        self.connect((self.analog_am_demod_cf_0, 0), (self.blocks_float_to_complex_0, 0))
        self.connect((self.analog_am_demod_cf_0, 0), (self.low_pass_filter_0_1_0, 0))
        self.connect((self.analog_fm_demod_cf_0, 0), (self.goertzel_fc_0_0, 0))
        self.connect((self.analog_fm_demod_cf_0, 0), (self.wxgui_scopesink2_0, 1))
        self.connect((self.analog_sig_source_x_0, 0), (self.blocks_multiply_xx_0, 1))
        self.connect((self.band_pass_filter_0, 0), (self.blocks_complex_to_mag_squared_0, 0))
        self.connect((self.blocks_add_const_vxx_1, 0), (self.iio_modulo_const_ff_0, 0))
        self.connect((self.blocks_complex_to_arg_0, 0), (self.blocks_multiply_const_vxx_1, 0))
        self.connect((self.blocks_complex_to_mag_squared_0, 0), (self.blocks_integrate_xx_1, 0))
        self.connect((self.blocks_complex_to_mag_squared_0, 0), (self.blocks_multiply_const_vxx_0, 0))
        self.connect((self.blocks_file_source_0_0_0, 0), (self.blocks_throttle_0, 0))
        self.connect((self.blocks_float_to_complex_0, 0), (self.blocks_multiply_xx_0, 0))
        self.connect((self.blocks_integrate_xx_1, 0), (self.wxgui_scopesink2_1_0_0, 0))
        self.connect((self.blocks_multiply_conjugate_cc_0, 0), (self.blocks_complex_to_arg_0, 0))
        self.connect((self.blocks_multiply_const_vxx_0, 0), (self.audio_sink_0_0, 0))
        self.connect((self.blocks_multiply_const_vxx_1, 0), (self.blocks_add_const_vxx_1, 0))
        self.connect((self.blocks_multiply_xx_0, 0), (self.low_pass_filter_0_1, 0))
        self.connect((self.blocks_throttle_0, 0), (self.analog_am_demod_cf_0, 0))
        self.connect((self.fir_filter_xxx_0_0, 0), (self.goertzel_fc_0, 0))
        self.connect((self.fir_filter_xxx_0_0, 0), (self.wxgui_scopesink2_0, 0))
        self.connect((self.goertzel_fc_0, 0), (self.blocks_multiply_conjugate_cc_0, 0))
        self.connect((self.goertzel_fc_0_0, 0), (self.blocks_multiply_conjugate_cc_0, 1))
        self.connect((self.iio_modulo_const_ff_0, 0), (self.wxgui_numbersink2_1, 0))
        self.connect((self.low_pass_filter_0_1, 0), (self.analog_fm_demod_cf_0, 0))
        self.connect((self.low_pass_filter_0_1_0, 0), (self.fir_filter_xxx_0_0, 0))
コード例 #15
0
    def __init__(self):
        gr.top_block.__init__(self, "Ham2Mon Receiver Flow Example")
        Qt.QWidget.__init__(self)
        self.setWindowTitle("Ham2Mon Receiver Flow Example")
        try:
            self.setWindowIcon(Qt.QIcon.fromTheme('gnuradio-grc'))
        except:
            pass
        self.top_scroll_layout = Qt.QVBoxLayout()
        self.setLayout(self.top_scroll_layout)
        self.top_scroll = Qt.QScrollArea()
        self.top_scroll.setFrameStyle(Qt.QFrame.NoFrame)
        self.top_scroll_layout.addWidget(self.top_scroll)
        self.top_scroll.setWidgetResizable(True)
        self.top_widget = Qt.QWidget()
        self.top_scroll.setWidget(self.top_widget)
        self.top_layout = Qt.QVBoxLayout(self.top_widget)
        self.top_grid_layout = Qt.QGridLayout()
        self.top_layout.addLayout(self.top_grid_layout)

        self.settings = Qt.QSettings("GNU Radio", "flow_example")
        self.restoreGeometry(self.settings.value("geometry").toByteArray())

        ##################################################
        # Variables
        ##################################################
        self.samp_rate = samp_rate = 1E6
        self.initial_decim = initial_decim = 5
        self.samp_ratio = samp_ratio = samp_rate / 1E6
        self.final_rate = final_rate = samp_rate / initial_decim**2 / int(
            samp_rate / 1E6)

        self.variable_low_pass_filter_taps_2 = variable_low_pass_filter_taps_2 = firdes.low_pass(
            1.0, final_rate, 3500, 500, firdes.WIN_HAMMING, 6.76)

        self.variable_low_pass_filter_taps_1 = variable_low_pass_filter_taps_1 = firdes.low_pass(
            1.0, samp_rate / 25, 12.5E3, 1E3, firdes.WIN_HAMMING, 6.76)

        self.variable_low_pass_filter_taps_0 = variable_low_pass_filter_taps_0 = firdes.low_pass(
            1.0, 1, 0.090, 0.010, firdes.WIN_HAMMING, 6.76)

        self.squelch_dB = squelch_dB = -70
        self.gain_db = gain_db = 30
        self.final_decim = final_decim = int(samp_rate / 1E6)
        self.file_name = file_name = "test.wav"
        self.fft_length = fft_length = 256 * int(
            pow(2, np.ceil(np.log(samp_ratio) / np.log(2))))
        self.demod_bb_freq = demod_bb_freq = 390E3
        self.center_freq = center_freq = 144E6

        ##################################################
        # Blocks
        ##################################################
        self._squelch_dB_range = Range(-100, 0, 5, -70, 200)
        self._squelch_dB_win = RangeWidget(self._squelch_dB_range,
                                           self.set_squelch_dB, "Squelch (dB)",
                                           "counter_slider", float)
        self.top_grid_layout.addWidget(self._squelch_dB_win, 5, 1, 1, 3)
        self._gain_db_range = Range(0, 70, 1, 30, 200)
        self._gain_db_win = RangeWidget(self._gain_db_range, self.set_gain_db,
                                        "HW Gain (dB)", "counter_slider",
                                        float)
        self.top_grid_layout.addWidget(self._gain_db_win, 4, 1, 1, 3)
        self._demod_bb_freq_range = Range(-samp_rate / 2, samp_rate / 2, 5E3,
                                          390E3, 200)
        self._demod_bb_freq_win = RangeWidget(self._demod_bb_freq_range,
                                              self.set_demod_bb_freq,
                                              "Demod BB Freq (Hz)",
                                              "counter_slider", float)
        self.top_grid_layout.addWidget(self._demod_bb_freq_win, 3, 1, 1, 3)
        self.qtgui_time_sink_x_0 = qtgui.time_sink_f(
            fft_length,  #size
            samp_rate,  #samp_rate
            "Averaged Spectrum",  #name
            1  #number of inputs
        )
        self.qtgui_time_sink_x_0.set_update_time(0.10)
        self.qtgui_time_sink_x_0.set_y_axis(-60, 40)

        self.qtgui_time_sink_x_0.set_y_label("Power", "")

        self.qtgui_time_sink_x_0.enable_tags(-1, True)
        self.qtgui_time_sink_x_0.set_trigger_mode(qtgui.TRIG_MODE_FREE,
                                                  qtgui.TRIG_SLOPE_POS, 0.0, 0,
                                                  0, "")
        self.qtgui_time_sink_x_0.enable_autoscale(False)
        self.qtgui_time_sink_x_0.enable_grid(False)
        self.qtgui_time_sink_x_0.enable_control_panel(False)

        if not True:
            self.qtgui_time_sink_x_0.disable_legend()

        labels = ["", "", "", "", "", "", "", "", "", ""]
        widths = [1, 1, 1, 1, 1, 1, 1, 1, 1, 1]
        colors = [
            "blue", "red", "green", "black", "cyan", "magenta", "yellow",
            "dark red", "dark green", "blue"
        ]
        styles = [1, 1, 1, 1, 1, 1, 1, 1, 1, 1]
        markers = [-1, -1, -1, -1, -1, -1, -1, -1, -1, -1]
        alphas = [1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0]

        for i in xrange(1):
            if len(labels[i]) == 0:
                self.qtgui_time_sink_x_0.set_line_label(
                    i, "Data {0}".format(i))
            else:
                self.qtgui_time_sink_x_0.set_line_label(i, labels[i])
            self.qtgui_time_sink_x_0.set_line_width(i, widths[i])
            self.qtgui_time_sink_x_0.set_line_color(i, colors[i])
            self.qtgui_time_sink_x_0.set_line_style(i, styles[i])
            self.qtgui_time_sink_x_0.set_line_marker(i, markers[i])
            self.qtgui_time_sink_x_0.set_line_alpha(i, alphas[i])

        self._qtgui_time_sink_x_0_win = sip.wrapinstance(
            self.qtgui_time_sink_x_0.pyqwidget(), Qt.QWidget)
        self.top_grid_layout.addWidget(self._qtgui_time_sink_x_0_win, 0, 1, 3,
                                       1)
        self.qtgui_freq_sink_x_0_0 = qtgui.freq_sink_c(
            1024,  #size
            firdes.WIN_BLACKMAN_hARRIS,  #wintype
            0,  #fc
            final_rate,  #bw
            "Decimated Channel",  #name
            1  #number of inputs
        )
        self.qtgui_freq_sink_x_0_0.set_update_time(0.10)
        self.qtgui_freq_sink_x_0_0.set_y_axis(-200, -60)
        self.qtgui_freq_sink_x_0_0.set_trigger_mode(qtgui.TRIG_MODE_FREE, 0.0,
                                                    0, "")
        self.qtgui_freq_sink_x_0_0.enable_autoscale(False)
        self.qtgui_freq_sink_x_0_0.enable_grid(False)
        self.qtgui_freq_sink_x_0_0.set_fft_average(1.0)
        self.qtgui_freq_sink_x_0_0.enable_control_panel(False)

        if not True:
            self.qtgui_freq_sink_x_0_0.disable_legend()

        if complex == type(float()):
            self.qtgui_freq_sink_x_0_0.set_plot_pos_half(not True)

        labels = ["", "", "", "", "", "", "", "", "", ""]
        widths = [1, 1, 1, 1, 1, 1, 1, 1, 1, 1]
        colors = [
            "blue", "red", "green", "black", "cyan", "magenta", "yellow",
            "dark red", "dark green", "dark blue"
        ]
        alphas = [1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0]
        for i in xrange(1):
            if len(labels[i]) == 0:
                self.qtgui_freq_sink_x_0_0.set_line_label(
                    i, "Data {0}".format(i))
            else:
                self.qtgui_freq_sink_x_0_0.set_line_label(i, labels[i])
            self.qtgui_freq_sink_x_0_0.set_line_width(i, widths[i])
            self.qtgui_freq_sink_x_0_0.set_line_color(i, colors[i])
            self.qtgui_freq_sink_x_0_0.set_line_alpha(i, alphas[i])

        self._qtgui_freq_sink_x_0_0_win = sip.wrapinstance(
            self.qtgui_freq_sink_x_0_0.pyqwidget(), Qt.QWidget)
        self.top_grid_layout.addWidget(self._qtgui_freq_sink_x_0_0_win, 3, 0,
                                       3, 1)
        self.qtgui_freq_sink_x_0 = qtgui.freq_sink_c(
            fft_length,  #size
            firdes.WIN_BLACKMAN_hARRIS,  #wintype
            144E6,  #fc
            samp_rate,  #bw
            "Spectrum",  #name
            1  #number of inputs
        )
        self.qtgui_freq_sink_x_0.set_update_time(0.10)
        self.qtgui_freq_sink_x_0.set_y_axis(-120, -20)
        self.qtgui_freq_sink_x_0.set_trigger_mode(qtgui.TRIG_MODE_FREE, 0.0, 0,
                                                  "")
        self.qtgui_freq_sink_x_0.enable_autoscale(False)
        self.qtgui_freq_sink_x_0.enable_grid(False)
        self.qtgui_freq_sink_x_0.set_fft_average(1.0)
        self.qtgui_freq_sink_x_0.enable_control_panel(False)

        if not True:
            self.qtgui_freq_sink_x_0.disable_legend()

        if complex == type(float()):
            self.qtgui_freq_sink_x_0.set_plot_pos_half(not True)

        labels = ["", "", "", "", "", "", "", "", "", ""]
        widths = [1, 1, 1, 1, 1, 1, 1, 1, 1, 1]
        colors = [
            "blue", "red", "green", "black", "cyan", "magenta", "yellow",
            "dark red", "dark green", "dark blue"
        ]
        alphas = [1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0]
        for i in xrange(1):
            if len(labels[i]) == 0:
                self.qtgui_freq_sink_x_0.set_line_label(
                    i, "Data {0}".format(i))
            else:
                self.qtgui_freq_sink_x_0.set_line_label(i, labels[i])
            self.qtgui_freq_sink_x_0.set_line_width(i, widths[i])
            self.qtgui_freq_sink_x_0.set_line_color(i, colors[i])
            self.qtgui_freq_sink_x_0.set_line_alpha(i, alphas[i])

        self._qtgui_freq_sink_x_0_win = sip.wrapinstance(
            self.qtgui_freq_sink_x_0.pyqwidget(), Qt.QWidget)
        self.top_grid_layout.addWidget(self._qtgui_freq_sink_x_0_win, 0, 0, 3,
                                       1)
        self.pfb_arb_resampler_xxx_0 = pfb.arb_resampler_fff(
            16E3 / float(final_rate / 5), taps=None, flt_size=32)
        self.pfb_arb_resampler_xxx_0.declare_sample_delay(0)

        self.osmosdr_source_0 = osmosdr.source(args="numchan=" + str(1) + " " +
                                               "uhd")
        self.osmosdr_source_0.set_sample_rate(samp_rate)
        self.osmosdr_source_0.set_center_freq(center_freq, 0)
        self.osmosdr_source_0.set_freq_corr(0, 0)
        self.osmosdr_source_0.set_dc_offset_mode(0, 0)
        self.osmosdr_source_0.set_iq_balance_mode(0, 0)
        self.osmosdr_source_0.set_gain_mode(False, 0)
        self.osmosdr_source_0.set_gain(gain_db, 0)
        self.osmosdr_source_0.set_if_gain(20, 0)
        self.osmosdr_source_0.set_bb_gain(20, 0)
        self.osmosdr_source_0.set_antenna("", 0)
        self.osmosdr_source_0.set_bandwidth(samp_rate * 0.8, 0)

        self.freq_xlating_fir_filter_xxx_0 = filter.freq_xlating_fir_filter_ccc(
            initial_decim, (variable_low_pass_filter_taps_0), demod_bb_freq,
            samp_rate)
        self.fir_filter_xxx_0_1 = filter.fir_filter_fff(
            initial_decim, (variable_low_pass_filter_taps_0))
        self.fir_filter_xxx_0_1.declare_sample_delay(0)
        self.fir_filter_xxx_0_0 = filter.fir_filter_ccc(
            int(samp_rate / 1E6), (variable_low_pass_filter_taps_0))
        self.fir_filter_xxx_0_0.declare_sample_delay(0)
        self.fir_filter_xxx_0 = filter.fir_filter_ccc(
            initial_decim, (variable_low_pass_filter_taps_0))
        self.fir_filter_xxx_0.declare_sample_delay(0)
        self.fft_vxx_0 = fft.fft_vcc(fft_length, True,
                                     (window.blackmanharris(fft_length)), True,
                                     1)
        self.blocks_wavfile_sink_0 = blocks.wavfile_sink(
            file_name, 1, 16000, 8)
        self.blocks_vector_to_stream_0 = blocks.vector_to_stream(
            gr.sizeof_float * 1, fft_length)
        self.blocks_stream_to_vector_0 = blocks.stream_to_vector(
            gr.sizeof_gr_complex * 1, fft_length)
        self.blocks_probe_signal_vx_0 = blocks.probe_signal_vf(fft_length)
        self.blocks_nlog10_ff_0 = blocks.nlog10_ff(10, fft_length, 0)
        self.blocks_keep_one_in_n_0 = blocks.keep_one_in_n(
            gr.sizeof_gr_complex * fft_length,
            int(round(samp_rate / fft_length / 1000)))
        self.blocks_integrate_xx_0 = blocks.integrate_ff(100, fft_length)
        self.blocks_complex_to_mag_squared_0 = blocks.complex_to_mag_squared(
            fft_length)
        self.audio_sink_0 = audio.sink(16000, "", True)
        self.analog_quadrature_demod_cf_0 = analog.quadrature_demod_cf(0.050)
        self.analog_pwr_squelch_xx_0_0 = analog.pwr_squelch_ff(
            -200, 0.1, 0, True)
        self.analog_pwr_squelch_xx_0 = analog.pwr_squelch_cc(
            squelch_dB, 0.1, 0, False)

        ##################################################
        # Connections
        ##################################################
        self.connect((self.analog_pwr_squelch_xx_0, 0),
                     (self.analog_quadrature_demod_cf_0, 0))
        self.connect((self.analog_pwr_squelch_xx_0_0, 0),
                     (self.blocks_wavfile_sink_0, 0))
        self.connect((self.analog_quadrature_demod_cf_0, 0),
                     (self.fir_filter_xxx_0_1, 0))
        self.connect((self.blocks_complex_to_mag_squared_0, 0),
                     (self.blocks_integrate_xx_0, 0))
        self.connect((self.blocks_integrate_xx_0, 0),
                     (self.blocks_nlog10_ff_0, 0))
        self.connect((self.blocks_keep_one_in_n_0, 0), (self.fft_vxx_0, 0))
        self.connect((self.blocks_nlog10_ff_0, 0),
                     (self.blocks_probe_signal_vx_0, 0))
        self.connect((self.blocks_nlog10_ff_0, 0),
                     (self.blocks_vector_to_stream_0, 0))
        self.connect((self.blocks_stream_to_vector_0, 0),
                     (self.blocks_keep_one_in_n_0, 0))
        self.connect((self.blocks_vector_to_stream_0, 0),
                     (self.qtgui_time_sink_x_0, 0))
        self.connect((self.fft_vxx_0, 0),
                     (self.blocks_complex_to_mag_squared_0, 0))
        self.connect((self.fir_filter_xxx_0, 0), (self.fir_filter_xxx_0_0, 0))
        self.connect((self.fir_filter_xxx_0_0, 0),
                     (self.analog_pwr_squelch_xx_0, 0))
        self.connect((self.fir_filter_xxx_0_0, 0),
                     (self.qtgui_freq_sink_x_0_0, 0))
        self.connect((self.fir_filter_xxx_0_1, 0),
                     (self.pfb_arb_resampler_xxx_0, 0))
        self.connect((self.freq_xlating_fir_filter_xxx_0, 0),
                     (self.fir_filter_xxx_0, 0))
        self.connect((self.osmosdr_source_0, 0),
                     (self.blocks_stream_to_vector_0, 0))
        self.connect((self.osmosdr_source_0, 0),
                     (self.freq_xlating_fir_filter_xxx_0, 0))
        self.connect((self.osmosdr_source_0, 0), (self.qtgui_freq_sink_x_0, 0))
        self.connect((self.pfb_arb_resampler_xxx_0, 0),
                     (self.analog_pwr_squelch_xx_0_0, 0))
        self.connect((self.pfb_arb_resampler_xxx_0, 0), (self.audio_sink_0, 0))
コード例 #16
0
    def __init__(self,
                 c_freq=1420000000,
                 nbin=1000,
                 nchan=1024,
                 obs_time=60,
                 samp_rate=2400000):
        gr.top_block.__init__(self, "Top Block")

        ##################################################
        # Parameters
        ##################################################
        self.c_freq = c_freq
        self.nbin = nbin
        self.nchan = nchan
        self.obs_time = obs_time
        self.samp_rate = samp_rate

        ##################################################
        # Variables
        ##################################################
        self.sinc_sample_locations = sinc_sample_locations = np.arange(
            -np.pi * 4 / 2.0, np.pi * 4 / 2.0, np.pi / nchan)
        self.sinc = sinc = np.sinc(sinc_sample_locations / np.pi)
        self.custom_window = custom_window = sinc * np.hamming(4 * nchan)

        ##################################################
        # Blocks
        ##################################################
        self.osmosdr_source_0 = osmosdr.source(args="numchan=" + str(1) + " " +
                                               'rtl=0')
        self.osmosdr_source_0.set_sample_rate(samp_rate)
        self.osmosdr_source_0.set_center_freq(c_freq, 0)
        self.osmosdr_source_0.set_freq_corr(0, 0)
        self.osmosdr_source_0.set_dc_offset_mode(0, 0)
        self.osmosdr_source_0.set_iq_balance_mode(0, 0)
        self.osmosdr_source_0.set_gain_mode(False, 0)
        self.osmosdr_source_0.set_gain(rtlgain, 0)
        self.osmosdr_source_0.set_if_gain(rtlgain, 0)
        self.osmosdr_source_0.set_bb_gain(rtlgain, 0)
        self.osmosdr_source_0.set_antenna('', 0)
        self.osmosdr_source_0.set_bandwidth(0, 0)

        self.fft_vxx_0 = fft.fft_vcc(nchan, True,
                                     (window.blackmanharris(nchan)), True, 1)
        self.blocks_stream_to_vector_0_2 = blocks.stream_to_vector(
            gr.sizeof_gr_complex * 1, nchan)
        self.blocks_stream_to_vector_0_1 = blocks.stream_to_vector(
            gr.sizeof_gr_complex * 1, nchan)
        self.blocks_stream_to_vector_0_0 = blocks.stream_to_vector(
            gr.sizeof_gr_complex * 1, nchan)
        self.blocks_stream_to_vector_0 = blocks.stream_to_vector(
            gr.sizeof_gr_complex * 1, nchan)
        self.blocks_multiply_const_vxx_0_0_0_0 = blocks.multiply_const_vcc(
            (custom_window[0:nchan]))
        self.blocks_multiply_const_vxx_0_0_0 = blocks.multiply_const_vcc(
            (custom_window[nchan:2 * nchan]))
        self.blocks_multiply_const_vxx_0_0 = blocks.multiply_const_vcc(
            (custom_window[2 * nchan:3 * nchan]))
        self.blocks_multiply_const_vxx_0 = blocks.multiply_const_vcc(
            (custom_window[-nchan:]))
        self.blocks_integrate_xx_0 = blocks.integrate_ff(nbin, nchan)
        self.blocks_head_0 = blocks.head(gr.sizeof_gr_complex * 1,
                                         int(obs_time * samp_rate))
        self.blocks_file_sink_0 = blocks.file_sink(gr.sizeof_float * nchan,
                                                   'observation.dat', True)
        self.blocks_file_sink_0.set_unbuffered(False)
        self.blocks_delay_0_1 = blocks.delay(gr.sizeof_gr_complex * 1, nchan)
        self.blocks_delay_0_0 = blocks.delay(gr.sizeof_gr_complex * 1,
                                             nchan * 2)
        self.blocks_delay_0 = blocks.delay(gr.sizeof_gr_complex * 1, nchan * 3)
        self.blocks_complex_to_mag_squared_0 = blocks.complex_to_mag_squared(
            nchan)
        self.blocks_add_xx_0 = blocks.add_vcc(nchan)

        ##################################################
        # Connections
        ##################################################
        self.connect((self.blocks_add_xx_0, 0), (self.fft_vxx_0, 0))
        self.connect((self.blocks_complex_to_mag_squared_0, 0),
                     (self.blocks_integrate_xx_0, 0))
        self.connect((self.blocks_delay_0, 0),
                     (self.blocks_stream_to_vector_0_2, 0))
        self.connect((self.blocks_delay_0_0, 0),
                     (self.blocks_stream_to_vector_0_0, 0))
        self.connect((self.blocks_delay_0_1, 0),
                     (self.blocks_stream_to_vector_0_1, 0))
        self.connect((self.blocks_head_0, 0), (self.blocks_delay_0, 0))
        self.connect((self.blocks_head_0, 0), (self.blocks_delay_0_0, 0))
        self.connect((self.blocks_head_0, 0), (self.blocks_delay_0_1, 0))
        self.connect((self.blocks_head_0, 0),
                     (self.blocks_stream_to_vector_0, 0))
        self.connect((self.blocks_integrate_xx_0, 0),
                     (self.blocks_file_sink_0, 0))
        self.connect((self.blocks_multiply_const_vxx_0, 0),
                     (self.blocks_add_xx_0, 0))
        self.connect((self.blocks_multiply_const_vxx_0_0, 0),
                     (self.blocks_add_xx_0, 1))
        self.connect((self.blocks_multiply_const_vxx_0_0_0, 0),
                     (self.blocks_add_xx_0, 2))
        self.connect((self.blocks_multiply_const_vxx_0_0_0_0, 0),
                     (self.blocks_add_xx_0, 3))
        self.connect((self.blocks_stream_to_vector_0, 0),
                     (self.blocks_multiply_const_vxx_0, 0))
        self.connect((self.blocks_stream_to_vector_0_0, 0),
                     (self.blocks_multiply_const_vxx_0_0_0, 0))
        self.connect((self.blocks_stream_to_vector_0_1, 0),
                     (self.blocks_multiply_const_vxx_0_0, 0))
        self.connect((self.blocks_stream_to_vector_0_2, 0),
                     (self.blocks_multiply_const_vxx_0_0_0_0, 0))
        self.connect((self.fft_vxx_0, 0),
                     (self.blocks_complex_to_mag_squared_0, 0))
        self.connect((self.osmosdr_source_0, 0), (self.blocks_head_0, 0))
コード例 #17
0
ファイル: demod.py プロジェクト: bibib86/tetrapol-kit
  def __init__(self):
    gr.top_block.__init__(self)

    options = get_options()

    self.ifreq = options.frequency
    self.rfgain = options.gain

    self.src = osmosdr.source(options.args)
    self.src.set_center_freq(self.ifreq)
    self.src.set_sample_rate(int(options.sample_rate))

    if self.rfgain is None:
        self.src.set_gain_mode(1)
        self.iagc = 1
        self.rfgain = 0
    else:
        self.iagc = 0
        self.src.set_gain_mode(0)
        self.src.set_gain(self.rfgain)

    # may differ from the requested rate
    sample_rate = self.src.get_sample_rate()
    sys.stderr.write("sample rate: %d\n" % (sample_rate))

    bitrate = 8000

    first_decim=125

    out_sample_rate=sample_rate/first_decim
    sys.stderr.write("output sample rate: %d\n" % (out_sample_rate))
   
    sps=out_sample_rate/bitrate
    sys.stderr.write("samples per symbol: %d\n" % (sps))

    self.offset = options.offset
    sys.stderr.write("offset is: %dHz\n" % self.offset)

    taps = filter.firdes.low_pass(1.0, sample_rate, options.low_pass, options.low_pass * 0.2, filter.firdes.WIN_HANN)
    self.tuner = filter.freq_xlating_fir_filter_ccf(first_decim, taps, self.offset, sample_rate)

    self.demod = digital.gmsk_demod(samples_per_symbol=sps)

    self.output = blocks.file_sink(gr.sizeof_char, options.output_file)

    self.connect((self.src, 0), (self.tuner, 0))
    self.connect((self.tuner, 0), (self.demod, 0))
    self.connect((self.demod, 0), (self.output, 0))

    self.fm_demod = analog.fm_demod_cf(sample_rate/first_decim, 1, 5000, 3000, 4000)
    self.integrate = blocks.integrate_ff(32000)
    self.probe = blocks.probe_signal_f()

    self.connect((self.tuner, 0), (self.fm_demod,0))
    self.connect((self.fm_demod, 0), (self.integrate,0))
    self.connect((self.integrate, 0), (self.probe, 0))

    def _variable_function_probe_0_probe():
        while True:
            freq = self.tuner.center_freq()
            freq2 = freq + 0.2*self.probe.level()
            print "Autotune: fix=%f old=%i new=%i"%(self.probe.level(), self.ifreq+freq, self.ifreq+freq2)
            self.tuner.set_center_freq(freq2)
            time.sleep(5.0)
    _variable_function_probe_0_thread = threading.Thread(target=_variable_function_probe_0_probe)
    _variable_function_probe_0_thread.daemon = True
    _variable_function_probe_0_thread.start()
コード例 #18
0
    def __init__(self):
        gr.top_block.__init__(self, "Spectrometer")
        Qt.QWidget.__init__(self)
        self.setWindowTitle("Spectrometer")
        try:
            self.setWindowIcon(Qt.QIcon.fromTheme('gnuradio-grc'))
        except:
            pass
        self.top_scroll_layout = Qt.QVBoxLayout()
        self.setLayout(self.top_scroll_layout)
        self.top_scroll = Qt.QScrollArea()
        self.top_scroll.setFrameStyle(Qt.QFrame.NoFrame)
        self.top_scroll_layout.addWidget(self.top_scroll)
        self.top_scroll.setWidgetResizable(True)
        self.top_widget = Qt.QWidget()
        self.top_scroll.setWidget(self.top_widget)
        self.top_layout = Qt.QVBoxLayout(self.top_widget)
        self.top_grid_layout = Qt.QGridLayout()
        self.top_layout.addLayout(self.top_grid_layout)

        self.settings = Qt.QSettings("GNU Radio", "spectrometer")
        self.restoreGeometry(self.settings.value("geometry").toByteArray())

        ##################################################
        # Variables
        ##################################################
        self.vec_length = vec_length = 4096
        self.sinc_sample_locations = sinc_sample_locations = np.arange(
            -np.pi * 4 / 2.0, np.pi * 4 / 2.0, np.pi / vec_length)
        self.timenow = timenow = datetime.now().strftime("%Y-%m-%d_%H.%M.%S")
        self.sinc = sinc = np.sinc(sinc_sample_locations / np.pi)
        self.prefix = prefix = "/home/dspradio/grc_data/"
        self.samp_rate = samp_rate = 10e6
        self.recfile = recfile = prefix + timenow + ".h5"
        self.integration_time = integration_time = 2
        self.freq = freq = 1.419e9
        self.display_integration = display_integration = 0.5
        self.custom_window = custom_window = sinc * np.hamming(4 * vec_length)

        ##################################################
        # Blocks
        ##################################################
        self.radio_astro_hdf5_sink_0 = radio_astro.hdf5_sink(
            vec_length, recfile, 'AZ: 180, EL: 30', freq - samp_rate / 2,
            samp_rate / vec_length, 'testing az el etc')
        self.qtgui_vector_sink_f_0 = qtgui.vector_sink_f(
            vec_length,
            freq - samp_rate / 2,
            samp_rate / vec_length,
            "Frequency",
            "PSD",
            "Spectrum",
            1  # Number of inputs
        )
        self.qtgui_vector_sink_f_0.set_update_time(0.10)
        self.qtgui_vector_sink_f_0.set_y_axis(0, 3000)
        self.qtgui_vector_sink_f_0.enable_autoscale(True)
        self.qtgui_vector_sink_f_0.enable_grid(True)
        self.qtgui_vector_sink_f_0.set_x_axis_units("Hz")
        self.qtgui_vector_sink_f_0.set_y_axis_units("arb")
        self.qtgui_vector_sink_f_0.set_ref_level(0)

        labels = ['', '', '', '', '', '', '', '', '', '']
        widths = [1, 1, 1, 1, 1, 1, 1, 1, 1, 1]
        colors = [
            "blue", "red", "green", "black", "cyan", "magenta", "yellow",
            "dark red", "dark green", "dark blue"
        ]
        alphas = [1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0]
        for i in xrange(1):
            if len(labels[i]) == 0:
                self.qtgui_vector_sink_f_0.set_line_label(
                    i, "Data {0}".format(i))
            else:
                self.qtgui_vector_sink_f_0.set_line_label(i, labels[i])
            self.qtgui_vector_sink_f_0.set_line_width(i, widths[i])
            self.qtgui_vector_sink_f_0.set_line_color(i, colors[i])
            self.qtgui_vector_sink_f_0.set_line_alpha(i, alphas[i])

        self._qtgui_vector_sink_f_0_win = sip.wrapinstance(
            self.qtgui_vector_sink_f_0.pyqwidget(), Qt.QWidget)
        self.top_layout.addWidget(self._qtgui_vector_sink_f_0_win)
        self.qtgui_time_sink_x_0 = qtgui.time_sink_f(
            vec_length,  #size
            samp_rate,  #samp_rate
            "",  #name
            1  #number of inputs
        )
        self.qtgui_time_sink_x_0.set_update_time(0.10)
        self.qtgui_time_sink_x_0.set_y_axis(-1, 1)

        self.qtgui_time_sink_x_0.set_y_label('Amplitude', "")

        self.qtgui_time_sink_x_0.enable_tags(-1, True)
        self.qtgui_time_sink_x_0.set_trigger_mode(qtgui.TRIG_MODE_FREE,
                                                  qtgui.TRIG_SLOPE_POS, 0.0, 0,
                                                  0, "")
        self.qtgui_time_sink_x_0.enable_autoscale(True)
        self.qtgui_time_sink_x_0.enable_grid(False)
        self.qtgui_time_sink_x_0.enable_axis_labels(False)
        self.qtgui_time_sink_x_0.enable_control_panel(True)

        if not True:
            self.qtgui_time_sink_x_0.disable_legend()

        labels = ['', '', '', '', '', '', '', '', '', '']
        widths = [1, 1, 1, 1, 1, 1, 1, 1, 1, 1]
        colors = [
            "blue", "red", "green", "black", "cyan", "magenta", "yellow",
            "dark red", "dark green", "blue"
        ]
        styles = [1, 1, 1, 1, 1, 1, 1, 1, 1, 1]
        markers = [-1, -1, -1, -1, -1, -1, -1, -1, -1, -1]
        alphas = [1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0]

        for i in xrange(1):
            if len(labels[i]) == 0:
                self.qtgui_time_sink_x_0.set_line_label(
                    i, "Data {0}".format(i))
            else:
                self.qtgui_time_sink_x_0.set_line_label(i, labels[i])
            self.qtgui_time_sink_x_0.set_line_width(i, widths[i])
            self.qtgui_time_sink_x_0.set_line_color(i, colors[i])
            self.qtgui_time_sink_x_0.set_line_style(i, styles[i])
            self.qtgui_time_sink_x_0.set_line_marker(i, markers[i])
            self.qtgui_time_sink_x_0.set_line_alpha(i, alphas[i])

        self._qtgui_time_sink_x_0_win = sip.wrapinstance(
            self.qtgui_time_sink_x_0.pyqwidget(), Qt.QWidget)
        self.top_layout.addWidget(self._qtgui_time_sink_x_0_win)
        self.osmosdr_source_0 = osmosdr.source(args="numchan=" + str(1) + " " +
                                               'airspy=0,bias=0,pack=0')
        self.osmosdr_source_0.set_sample_rate(samp_rate)
        self.osmosdr_source_0.set_center_freq(freq, 0)
        self.osmosdr_source_0.set_freq_corr(0, 0)
        self.osmosdr_source_0.set_dc_offset_mode(0, 0)
        self.osmosdr_source_0.set_iq_balance_mode(0, 0)
        self.osmosdr_source_0.set_gain_mode(False, 0)
        self.osmosdr_source_0.set_gain(20, 0)
        self.osmosdr_source_0.set_if_gain(20, 0)
        self.osmosdr_source_0.set_bb_gain(20, 0)
        self.osmosdr_source_0.set_antenna('', 0)
        self.osmosdr_source_0.set_bandwidth(0, 0)

        self.fft_vxx_0 = fft.fft_vcc(vec_length, True,
                                     (window.rectangular(vec_length)), True, 1)
        self.blocks_vector_to_stream_0 = blocks.vector_to_stream(
            gr.sizeof_float * 1, vec_length)
        self.blocks_stream_to_vector_0_2 = blocks.stream_to_vector(
            gr.sizeof_gr_complex * 1, vec_length)
        self.blocks_stream_to_vector_0_1 = blocks.stream_to_vector(
            gr.sizeof_gr_complex * 1, vec_length)
        self.blocks_stream_to_vector_0_0 = blocks.stream_to_vector(
            gr.sizeof_gr_complex * 1, vec_length)
        self.blocks_stream_to_vector_0 = blocks.stream_to_vector(
            gr.sizeof_gr_complex * 1, vec_length)
        self.blocks_nlog10_ff_0_0 = blocks.nlog10_ff(10, vec_length, 0)
        self.blocks_nlog10_ff_0 = blocks.nlog10_ff(10, 1, 0)
        self.blocks_multiply_const_vxx_0_2 = blocks.multiply_const_vcc(
            (custom_window[-vec_length:]))
        self.blocks_multiply_const_vxx_0_1 = blocks.multiply_const_vcc(
            (custom_window[2 * vec_length:3 * vec_length]))
        self.blocks_multiply_const_vxx_0_0 = blocks.multiply_const_vcc(
            (custom_window[vec_length:2 * vec_length]))
        self.blocks_multiply_const_vxx_0 = blocks.multiply_const_vcc(
            (custom_window[0:vec_length]))
        self.blocks_multiply_conjugate_cc_0 = blocks.multiply_conjugate_cc(
            vec_length)
        self.blocks_message_debug_0 = blocks.message_debug()
        self.blocks_integrate_xx_0_0 = blocks.integrate_ff(
            int(display_integration * samp_rate / vec_length), vec_length)
        self.blocks_integrate_xx_0 = blocks.integrate_ff(
            int((integration_time) * samp_rate / vec_length) /
            int(display_integration * samp_rate / vec_length), vec_length)
        self.blocks_delay_0_0_0_0 = blocks.delay(gr.sizeof_gr_complex * 1,
                                                 3 * vec_length)
        self.blocks_delay_0_0_0 = blocks.delay(gr.sizeof_gr_complex * 1,
                                               2 * vec_length)
        self.blocks_delay_0_0 = blocks.delay(gr.sizeof_gr_complex * 1,
                                             vec_length)
        self.blocks_complex_to_real_0_0 = blocks.complex_to_real(vec_length)
        self.blocks_add_xx_0 = blocks.add_vcc(vec_length)

        ##################################################
        # Connections
        ##################################################
        self.msg_connect((self.qtgui_vector_sink_f_0, 'xval'),
                         (self.blocks_message_debug_0, 'print'))
        self.connect((self.blocks_add_xx_0, 0), (self.fft_vxx_0, 0))
        self.connect((self.blocks_complex_to_real_0_0, 0),
                     (self.blocks_integrate_xx_0_0, 0))
        self.connect((self.blocks_delay_0_0, 0),
                     (self.blocks_stream_to_vector_0_0, 0))
        self.connect((self.blocks_delay_0_0_0, 0),
                     (self.blocks_stream_to_vector_0_2, 0))
        self.connect((self.blocks_delay_0_0_0_0, 0),
                     (self.blocks_stream_to_vector_0_1, 0))
        self.connect((self.blocks_integrate_xx_0, 0),
                     (self.blocks_vector_to_stream_0, 0))
        self.connect((self.blocks_integrate_xx_0, 0),
                     (self.radio_astro_hdf5_sink_0, 0))
        self.connect((self.blocks_integrate_xx_0_0, 0),
                     (self.blocks_integrate_xx_0, 0))
        self.connect((self.blocks_integrate_xx_0_0, 0),
                     (self.blocks_nlog10_ff_0_0, 0))
        self.connect((self.blocks_multiply_conjugate_cc_0, 0),
                     (self.blocks_complex_to_real_0_0, 0))
        self.connect((self.blocks_multiply_const_vxx_0, 0),
                     (self.blocks_add_xx_0, 3))
        self.connect((self.blocks_multiply_const_vxx_0_0, 0),
                     (self.blocks_add_xx_0, 2))
        self.connect((self.blocks_multiply_const_vxx_0_1, 0),
                     (self.blocks_add_xx_0, 1))
        self.connect((self.blocks_multiply_const_vxx_0_2, 0),
                     (self.blocks_add_xx_0, 0))
        self.connect((self.blocks_nlog10_ff_0, 0),
                     (self.qtgui_time_sink_x_0, 0))
        self.connect((self.blocks_nlog10_ff_0_0, 0),
                     (self.qtgui_vector_sink_f_0, 0))
        self.connect((self.blocks_stream_to_vector_0, 0),
                     (self.blocks_multiply_const_vxx_0_2, 0))
        self.connect((self.blocks_stream_to_vector_0_0, 0),
                     (self.blocks_multiply_const_vxx_0_1, 0))
        self.connect((self.blocks_stream_to_vector_0_1, 0),
                     (self.blocks_multiply_const_vxx_0, 0))
        self.connect((self.blocks_stream_to_vector_0_2, 0),
                     (self.blocks_multiply_const_vxx_0_0, 0))
        self.connect((self.blocks_vector_to_stream_0, 0),
                     (self.blocks_nlog10_ff_0, 0))
        self.connect((self.fft_vxx_0, 0),
                     (self.blocks_multiply_conjugate_cc_0, 0))
        self.connect((self.fft_vxx_0, 0),
                     (self.blocks_multiply_conjugate_cc_0, 1))
        self.connect((self.osmosdr_source_0, 0), (self.blocks_delay_0_0, 0))
        self.connect((self.osmosdr_source_0, 0), (self.blocks_delay_0_0_0, 0))
        self.connect((self.osmosdr_source_0, 0),
                     (self.blocks_delay_0_0_0_0, 0))
        self.connect((self.osmosdr_source_0, 0),
                     (self.blocks_stream_to_vector_0, 0))
    def __init__(
        self,
        EbN0=0,
        esprit_decimation=128,
        fc=436e6,
        mx=4,
        my=4,
        n=1,
        phi=50,
        rs_decimation=8,
        theta=30,
    ):
        gr.top_block.__init__(self, "BER Simulation")

        ##################################################
        # Parameters
        ##################################################
        self.EbN0 = EbN0
        self.esprit_decimation = esprit_decimation
        self.fc = fc
        self.mx = mx
        self.my = my
        self.n = n
        self.phi = phi
        self.rs_decimation = rs_decimation
        self.theta = theta

        ##################################################
        # Variables
        ##################################################
        self.sps = sps = 5
        self.N_BITS = N_BITS = 1e5
        self.samp_rate = samp_rate = 32000
        self.noise_voltage = noise_voltage = 1.0 / math.sqrt(
            1 / float(sps) * 10**(float(EbN0) / 10))
        self.intdump_decim = intdump_decim = min(int(N_BITS / 10), 100000)
        self.const = const = digital.constellation_bpsk().base()
        self.alpha = alpha = 0.35
        self.SKIP = SKIP = 1000
        self.RAND_SEED = RAND_SEED = 42

        ##################################################
        # Blocks
        ##################################################
        self.lilacsat1_ber_bpsk_0 = lilacsat1_ber_bpsk(
            bfo=12000,
            callsign="",
            ip="::",
            latitude=0,
            longitude=0,
            port=7355,
            recstart="",
        )
        self.digital_scrambler_bb_0 = digital.scrambler_bb(0x21, 0x0, 16)
        self.digital_diff_encoder_bb_0 = digital.diff_encoder_bb(2)
        self.digital_diff_decoder_bb_0 = digital.diff_decoder_bb(2)
        self.digital_descrambler_bb_0 = digital.descrambler_bb(0x21, 0x00, 16)
        self.digital_constellation_modulator_0 = digital.generic_mod(
            constellation=const,
            differential=False,
            samples_per_symbol=sps,
            pre_diff_code=True,
            excess_bw=alpha,
            verbose=False,
            log=False,
        )
        self.channels_channel_model_0 = channels.channel_model(
            noise_voltage=noise_voltage,
            frequency_offset=0.0,
            epsilon=1.0,
            taps=(
                0,
                0,
                (1 + 1j) / numpy.sqrt(2),
            ),
            noise_seed=RAND_SEED,
            block_tags=False,
        )
        self.blocks_vector_to_stream_0 = blocks.vector_to_stream(
            gr.sizeof_gr_complex * 1, mx * my)
        self.blocks_vector_source_x_0 = blocks.vector_source_b([1], True, 1,
                                                               [])
        self.blocks_vector_sink_x_0_0_0 = blocks.vector_sink_f(1, 1024)
        self.blocks_vector_sink_x_0_0 = blocks.vector_sink_f(1, 1024)
        self.blocks_vector_sink_x_0 = blocks.vector_sink_f(1, 1024)
        self.blocks_uchar_to_float_0 = blocks.uchar_to_float()
        self.blocks_stream_to_vector_0 = blocks.stream_to_vector(
            gr.sizeof_gr_complex * 1, mx * my)
        self.blocks_skiphead_0 = blocks.skiphead(gr.sizeof_char * 1, SKIP)
        self.blocks_pack_k_bits_bb_0 = blocks.pack_k_bits_bb(8)
        self.blocks_not_xx_0 = blocks.not_bb()
        self.blocks_multiply_const_vxx_1 = blocks.multiply_const_cc(0.1)
        self.blocks_multiply_const_vxx_0 = blocks.multiply_const_ff(
            1.0 / intdump_decim)
        self.blocks_integrate_xx_0 = blocks.integrate_ff(intdump_decim, 1)
        self.blocks_head_0 = blocks.head(gr.sizeof_char * 1, int(N_BITS))
        self.blocks_and_const_xx_0 = blocks.and_const_bb(1)
        self.beamforming_randomsampler_py_cc_0_0 = beamforming.randomsampler_py_cc(
            mx * my, rs_decimation)
        self.beamforming_phasedarray_py_cc_0 = beamforming.phasedarray_py_cc(
            mx, my, theta, phi, fc, 0)
        self.beamforming_doaesprit_py_cf_0 = beamforming.doaesprit_py_cf(
            128, mx, my, fc, n)
        self.beamforming_beamformer_py_cc_0 = beamforming.beamformer_py_cc(
            mx, my, fc, 0, 0, 8 * 128)

        ##################################################
        # Connections
        ##################################################
        self.connect(
            (self.beamforming_beamformer_py_cc_0, 0),
            (self.blocks_multiply_const_vxx_1, 0),
        )
        self.connect(
            (self.beamforming_doaesprit_py_cf_0, 0),
            (self.beamforming_beamformer_py_cc_0, 1),
        )
        self.connect(
            (self.beamforming_doaesprit_py_cf_0, 1),
            (self.beamforming_beamformer_py_cc_0, 2),
        )
        self.connect((self.beamforming_doaesprit_py_cf_0, 0),
                     (self.blocks_vector_sink_x_0_0, 0))
        self.connect(
            (self.beamforming_doaesprit_py_cf_0, 1),
            (self.blocks_vector_sink_x_0_0_0, 0),
        )
        self.connect(
            (self.beamforming_phasedarray_py_cc_0, 0),
            (self.blocks_vector_to_stream_0, 0),
        )
        self.connect(
            (self.beamforming_randomsampler_py_cc_0_0, 0),
            (self.beamforming_doaesprit_py_cf_0, 0),
        )
        self.connect((self.blocks_and_const_xx_0, 0),
                     (self.blocks_uchar_to_float_0, 0))
        self.connect((self.blocks_head_0, 0), (self.digital_scrambler_bb_0, 0))
        self.connect((self.blocks_integrate_xx_0, 0),
                     (self.blocks_multiply_const_vxx_0, 0))
        self.connect((self.blocks_multiply_const_vxx_0, 0),
                     (self.blocks_vector_sink_x_0, 0))
        self.connect((self.blocks_multiply_const_vxx_1, 0),
                     (self.lilacsat1_ber_bpsk_0, 0))
        self.connect((self.blocks_not_xx_0, 0),
                     (self.blocks_and_const_xx_0, 0))
        self.connect(
            (self.blocks_pack_k_bits_bb_0, 0),
            (self.digital_constellation_modulator_0, 0),
        )
        self.connect((self.blocks_skiphead_0, 0), (self.blocks_not_xx_0, 0))
        self.connect(
            (self.blocks_stream_to_vector_0, 0),
            (self.beamforming_beamformer_py_cc_0, 0),
        )
        self.connect(
            (self.blocks_stream_to_vector_0, 0),
            (self.beamforming_randomsampler_py_cc_0_0, 0),
        )
        self.connect((self.blocks_uchar_to_float_0, 0),
                     (self.blocks_integrate_xx_0, 0))
        self.connect((self.blocks_vector_source_x_0, 0),
                     (self.blocks_head_0, 0))
        self.connect((self.blocks_vector_to_stream_0, 0),
                     (self.channels_channel_model_0, 0))
        self.connect((self.channels_channel_model_0, 0),
                     (self.blocks_stream_to_vector_0, 0))
        self.connect(
            (self.digital_constellation_modulator_0, 0),
            (self.beamforming_phasedarray_py_cc_0, 0),
        )
        self.connect((self.digital_descrambler_bb_0, 0),
                     (self.blocks_skiphead_0, 0))
        self.connect((self.digital_diff_decoder_bb_0, 0),
                     (self.digital_descrambler_bb_0, 0))
        self.connect((self.digital_diff_encoder_bb_0, 0),
                     (self.blocks_pack_k_bits_bb_0, 0))
        self.connect((self.digital_scrambler_bb_0, 0),
                     (self.digital_diff_encoder_bb_0, 0))
        self.connect((self.lilacsat1_ber_bpsk_0, 0),
                     (self.digital_diff_decoder_bb_0, 0))
コード例 #20
0
    def __init__(self,
                 directory="/mnt/buf0",
                 gaindB=35,
                 samp_rate=30.72e6,
                 src_name='unknown_source',
                 lo_freq=-1):
        gr.top_block.__init__(self, "Polarimetric Interferometry")
        self.directory = directory
        self.src_name = src_name
        self.samp_rate = samp_rate
        self.lo_freq = lo_freq

        self.nfft = nfft = 256
        nthreads = 1
        fc = 512e6
        output_rate = 0.1
        parallel_ffts = 2
        self.decim = decim = int(output_rate * samp_rate / nfft)
        interleave_block = decim
        self.nchans = nchans = 4
        self.npairs = npairs = nchans * (nchans - 1) // 2

        self.uhd_usrp_source_0 = uhd.usrp_source(
            ",".join(("addr0=10.11.1.50, addr1=10.11.1.52", "")),
            uhd.stream_args(
                cpu_format="sc16",
                otw_format="sc16",
                args='',
                channels=list(range(nchans)),
            ),
        )
        for mb in range(2):
            self.uhd_usrp_source_0.set_time_source('external', mb)
            self.uhd_usrp_source_0.set_clock_source('external', mb)
        for chan in range(nchans):
            self.uhd_usrp_source_0.set_center_freq(fc, chan)
            self.uhd_usrp_source_0.set_gain(gaindB, chan)
            self.uhd_usrp_source_0.set_antenna('RX2', chan)
        self.uhd_usrp_source_0.set_samp_rate(samp_rate)
        self.uhd_usrp_source_0.set_time_unknown_pps(uhd.time_spec())
        self.uhd_usrp_source_0.set_time_next_pps(
            uhd.time_spec(int(time.time()) + 1))
        self.uhd_usrp_source_0.set_lo_export_enabled(True, "lo1", 0)
        self.uhd_usrp_source_0.set_rx_lo_dist(True, "LO_OUT_0")
        self.uhd_usrp_source_0.set_rx_lo_dist(True, "LO_OUT_1")
        for chan in range(nchans):
            self.uhd_usrp_source_0.set_lo_source("external", "lo1", chan)
        time.sleep(1)

        self.deinterleaves = [
            blocks.deinterleave(gr.sizeof_short * 2, nfft * interleave_block)
            for _ in range(nchans)
        ]
        self.ishort_to_complexs = [[
            blocks.interleaved_short_to_complex(True, False)
            for _ in range(parallel_ffts)
        ] for _ in range(nchans)]
        self.stream_to_vectors = [[
            blocks.stream_to_vector(gr.sizeof_gr_complex, nfft)
            for _ in range(parallel_ffts)
        ] for _ in range(nchans)]
        self.ffts = [[
            fft.fft_vcc(nfft, True, window.rectangular(nfft), True, nthreads)
            for _ in range(parallel_ffts)
        ] for _ in range(nchans)]

        self.powers = [[
            blocks.complex_to_mag_squared(nfft) for _ in range(parallel_ffts)
        ] for _ in range(nchans)]
        self.power_avgs = [[
            blocks.integrate_ff(decim, nfft) for _ in range(parallel_ffts)
        ] for _ in range(nchans)]
        self.interleave_powers = [
            blocks.interleave(gr.sizeof_float * nfft,
                              interleave_block // decim) for _ in range(nchans)
        ]

        self.crossprods = [[
            blocks.multiply_conjugate_cc(nfft) for _ in range(parallel_ffts)
        ] for _ in range(npairs)]
        self.crossprods_avgs = [[
            blocks.integrate_cc(decim, nfft) for _ in range(parallel_ffts)
        ] for _ in range(npairs)]
        self.interleave_crossprods = [
            blocks.interleave(gr.sizeof_gr_complex * nfft,
                              interleave_block // decim) for _ in range(npairs)
        ]

        for chan in range(nchans):
            self.connect((self.uhd_usrp_source_0, chan),
                         self.deinterleaves[chan])
            for j in range(parallel_ffts):
                self.connect((self.deinterleaves[chan], j),
                             self.ishort_to_complexs[chan][j],
                             self.stream_to_vectors[chan][j],
                             self.ffts[chan][j], self.powers[chan][j],
                             self.power_avgs[chan][j],
                             (self.interleave_powers[chan], j))

        pairs = [(j, k) for j in range(nchans) for k in range(j + 1, nchans)]
        for j, p in enumerate(pairs):
            for k in range(parallel_ffts):
                for t in range(2):
                    self.connect(self.ffts[p[t]][k],
                                 (self.crossprods[j][k], t))
                self.connect(self.crossprods[j][k], self.crossprods_avgs[j][k],
                             (self.interleave_crossprods[j], k))
コード例 #21
0
ファイル: top_block.py プロジェクト: CRL-Purdue/vip-sdr
    def __init__(self):
        gr.top_block.__init__(self, "Top Block")
        Qt.QWidget.__init__(self)
        self.setWindowTitle("Top Block")
        try:
             self.setWindowIcon(Qt.QIcon.fromTheme('gnuradio-grc'))
        except:
             pass
        self.top_scroll_layout = Qt.QVBoxLayout()
        self.setLayout(self.top_scroll_layout)
        self.top_scroll = Qt.QScrollArea()
        self.top_scroll.setFrameStyle(Qt.QFrame.NoFrame)
        self.top_scroll_layout.addWidget(self.top_scroll)
        self.top_scroll.setWidgetResizable(True)
        self.top_widget = Qt.QWidget()
        self.top_scroll.setWidget(self.top_widget)
        self.top_layout = Qt.QVBoxLayout(self.top_widget)
        self.top_grid_layout = Qt.QGridLayout()
        self.top_layout.addLayout(self.top_grid_layout)

        self.settings = Qt.QSettings("GNU Radio", "top_block")
        self.restoreGeometry(self.settings.value("geometry").toByteArray())

        ##################################################
        # Variables
        ##################################################
        self.samp_rate = samp_rate = 16000

        ##################################################
        # Blocks
        ##################################################
        self.qtgui_time_sink_x_0 = qtgui.time_sink_f(
        	1024, #size
        	samp_rate, #samp_rate
        	"", #name
        	1 #number of inputs
        )
        self.qtgui_time_sink_x_0.set_update_time(0.10)
        self.qtgui_time_sink_x_0.set_y_axis(-1, 1)
        
        self.qtgui_time_sink_x_0.set_y_label("Amplitude", "")
        
        self.qtgui_time_sink_x_0.enable_tags(-1, True)
        self.qtgui_time_sink_x_0.set_trigger_mode(qtgui.TRIG_MODE_FREE, qtgui.TRIG_SLOPE_POS, 0.0, 0, 0, "")
        self.qtgui_time_sink_x_0.enable_autoscale(False)
        self.qtgui_time_sink_x_0.enable_grid(False)
        self.qtgui_time_sink_x_0.enable_control_panel(False)
        
        if not True:
          self.qtgui_time_sink_x_0.disable_legend()
        
        labels = ["", "", "", "", "",
                  "", "", "", "", ""]
        widths = [1, 1, 1, 1, 1,
                  1, 1, 1, 1, 1]
        colors = ["blue", "red", "green", "black", "cyan",
                  "magenta", "yellow", "dark red", "dark green", "blue"]
        styles = [1, 1, 1, 1, 1,
                  1, 1, 1, 1, 1]
        markers = [-1, -1, -1, -1, -1,
                   -1, -1, -1, -1, -1]
        alphas = [1.0, 1.0, 1.0, 1.0, 1.0,
                  1.0, 1.0, 1.0, 1.0, 1.0]
        
        for i in xrange(1):
            if len(labels[i]) == 0:
                self.qtgui_time_sink_x_0.set_line_label(i, "Data {0}".format(i))
            else:
                self.qtgui_time_sink_x_0.set_line_label(i, labels[i])
            self.qtgui_time_sink_x_0.set_line_width(i, widths[i])
            self.qtgui_time_sink_x_0.set_line_color(i, colors[i])
            self.qtgui_time_sink_x_0.set_line_style(i, styles[i])
            self.qtgui_time_sink_x_0.set_line_marker(i, markers[i])
            self.qtgui_time_sink_x_0.set_line_alpha(i, alphas[i])
        
        self._qtgui_time_sink_x_0_win = sip.wrapinstance(self.qtgui_time_sink_x_0.pyqwidget(), Qt.QWidget)
        self.top_layout.addWidget(self._qtgui_time_sink_x_0_win)
        self.qtgui_number_sink_1 = qtgui.number_sink(
                gr.sizeof_float,
                0,
                qtgui.NUM_GRAPH_HORIZ,
        	1
        )
        self.qtgui_number_sink_1.set_update_time(0.10)
        self.qtgui_number_sink_1.set_title("after float")
        
        labels = ["", "", "", "", "",
                  "", "", "", "", ""]
        units = ["", "", "", "", "",
                  "", "", "", "", ""]
        colors = [("black", "black"), ("black", "black"), ("black", "black"), ("black", "black"), ("black", "black"),
                  ("black", "black"), ("black", "black"), ("black", "black"), ("black", "black"), ("black", "black")]
        factor = [1, 1, 1, 1, 1,
                  1, 1, 1, 1, 1]
        for i in xrange(1):
            self.qtgui_number_sink_1.set_min(i, -1)
            self.qtgui_number_sink_1.set_max(i, 1)
            self.qtgui_number_sink_1.set_color(i, colors[i][0], colors[i][1])
            if len(labels[i]) == 0:
                self.qtgui_number_sink_1.set_label(i, "Data {0}".format(i))
            else:
                self.qtgui_number_sink_1.set_label(i, labels[i])
            self.qtgui_number_sink_1.set_unit(i, units[i])
            self.qtgui_number_sink_1.set_factor(i, factor[i])
        
        self.qtgui_number_sink_1.enable_autoscale(False)
        self._qtgui_number_sink_1_win = sip.wrapinstance(self.qtgui_number_sink_1.pyqwidget(), Qt.QWidget)
        self.top_layout.addWidget(self._qtgui_number_sink_1_win)
        self.qtgui_number_sink_0 = qtgui.number_sink(
                gr.sizeof_char,
                0,
                qtgui.NUM_GRAPH_HORIZ,
        	1
        )
        self.qtgui_number_sink_0.set_update_time(0.10)
        self.qtgui_number_sink_0.set_title("")
        
        labels = ["", "", "", "", "",
                  "", "", "", "", ""]
        units = ["", "", "", "", "",
                  "", "", "", "", ""]
        colors = [("black", "black"), ("black", "black"), ("black", "black"), ("black", "black"), ("black", "black"),
                  ("black", "black"), ("black", "black"), ("black", "black"), ("black", "black"), ("black", "black")]
        factor = [1, 1, 1, 1, 1,
                  1, 1, 1, 1, 1]
        for i in xrange(1):
            self.qtgui_number_sink_0.set_min(i, -1)
            self.qtgui_number_sink_0.set_max(i, 1)
            self.qtgui_number_sink_0.set_color(i, colors[i][0], colors[i][1])
            if len(labels[i]) == 0:
                self.qtgui_number_sink_0.set_label(i, "Data {0}".format(i))
            else:
                self.qtgui_number_sink_0.set_label(i, labels[i])
            self.qtgui_number_sink_0.set_unit(i, units[i])
            self.qtgui_number_sink_0.set_factor(i, factor[i])
        
        self.qtgui_number_sink_0.enable_autoscale(False)
        self._qtgui_number_sink_0_win = sip.wrapinstance(self.qtgui_number_sink_0.pyqwidget(), Qt.QWidget)
        self.top_layout.addWidget(self._qtgui_number_sink_0_win)
        self.qtgui_freq_sink_x_0 = qtgui.freq_sink_f(
        	1024, #size
        	firdes.WIN_BLACKMAN_hARRIS, #wintype
        	0, #fc
        	samp_rate, #bw
        	"", #name
        	1 #number of inputs
        )
        self.qtgui_freq_sink_x_0.set_update_time(0.10)
        self.qtgui_freq_sink_x_0.set_y_axis(-140, 10)
        self.qtgui_freq_sink_x_0.set_trigger_mode(qtgui.TRIG_MODE_FREE, 0.0, 0, "")
        self.qtgui_freq_sink_x_0.enable_autoscale(False)
        self.qtgui_freq_sink_x_0.enable_grid(False)
        self.qtgui_freq_sink_x_0.set_fft_average(1.0)
        self.qtgui_freq_sink_x_0.enable_control_panel(False)
        
        if not True:
          self.qtgui_freq_sink_x_0.disable_legend()
        
        if float == type(float()):
          self.qtgui_freq_sink_x_0.set_plot_pos_half(not True)
        
        labels = ["", "", "", "", "",
                  "", "", "", "", ""]
        widths = [1, 1, 1, 1, 1,
                  1, 1, 1, 1, 1]
        colors = ["blue", "red", "green", "black", "cyan",
                  "magenta", "yellow", "dark red", "dark green", "dark blue"]
        alphas = [1.0, 1.0, 1.0, 1.0, 1.0,
                  1.0, 1.0, 1.0, 1.0, 1.0]
        for i in xrange(1):
            if len(labels[i]) == 0:
                self.qtgui_freq_sink_x_0.set_line_label(i, "Data {0}".format(i))
            else:
                self.qtgui_freq_sink_x_0.set_line_label(i, labels[i])
            self.qtgui_freq_sink_x_0.set_line_width(i, widths[i])
            self.qtgui_freq_sink_x_0.set_line_color(i, colors[i])
            self.qtgui_freq_sink_x_0.set_line_alpha(i, alphas[i])
        
        self._qtgui_freq_sink_x_0_win = sip.wrapinstance(self.qtgui_freq_sink_x_0.pyqwidget(), Qt.QWidget)
        self.top_layout.addWidget(self._qtgui_freq_sink_x_0_win)
        self.blocks_unpacked_to_packed_xx_1 = blocks.unpacked_to_packed_bb(8, gr.GR_MSB_FIRST)
        self.blocks_short_to_float_0 = blocks.short_to_float(1, 1)
        self.blocks_rms_xx_0_0 = blocks.rms_ff(1)
        self.blocks_rms_xx_0 = blocks.rms_ff(1)
        self.blocks_null_sink_1 = blocks.null_sink(gr.sizeof_short*1)
        self.blocks_multiply_xx_0_2 = blocks.multiply_vff(1)
        self.blocks_multiply_xx_0_1 = blocks.multiply_vff(1)
        self.blocks_multiply_xx_0_0 = blocks.multiply_vff(1)
        self.blocks_multiply_xx_0 = blocks.multiply_vff(1)
        self.blocks_integrate_xx_1 = blocks.integrate_ff(samp_rate/80, 1)
        self.blocks_integrate_xx_0_1 = blocks.integrate_ff(samp_rate/80, 1)
        self.blocks_integrate_xx_0_0 = blocks.integrate_ff(samp_rate/80, 1)
        self.blocks_integrate_xx_0 = blocks.integrate_ff(samp_rate/80, 1)
        self.blocks_float_to_uchar_0 = blocks.float_to_uchar()
        self.blocks_file_sink_0_0 = blocks.file_sink(gr.sizeof_char*1, "/home/sidekiq/SDR_output", False)
        self.blocks_file_sink_0_0.set_unbuffered(True)
        self.blocks_argmax_xx_0 = blocks.argmax_fs(1)
        self.blocks_add_xx_0_0 = blocks.add_vff(1)
        self.blocks_add_xx_0 = blocks.add_vff(1)
        self.blocks_abs_xx_0_2 = blocks.abs_ff(1)
        self.blocks_abs_xx_0_1 = blocks.abs_ff(1)
        self.blocks_abs_xx_0_0 = blocks.abs_ff(1)
        self.blocks_abs_xx_0 = blocks.abs_ff(1)
        self.blks2_packet_decoder_0 = grc_blks2.packet_demod_b(grc_blks2.packet_decoder(
        		access_code="11111111",
        		threshold=-1,
        		callback=lambda ok, payload: self.blks2_packet_decoder_0.recv_pkt(ok, payload),
        	),
        )
        self.audio_source_0 = audio.source(16000, "", True)
        self.analog_sig_source_x_1 = analog.sig_source_f(samp_rate, analog.GR_COS_WAVE, 1330, 1, 0)
        self.analog_sig_source_x_0_1 = analog.sig_source_f(samp_rate, analog.GR_SIN_WAVE, 1330, 1, 0)
        self.analog_sig_source_x_0_0 = analog.sig_source_f(samp_rate, analog.GR_SIN_WAVE, 2720, 1, 0)
        self.analog_sig_source_x_0 = analog.sig_source_f(samp_rate, analog.GR_COS_WAVE, 2720, 1, 0)

        ##################################################
        # Connections
        ##################################################
        self.connect((self.analog_sig_source_x_0, 0), (self.blocks_multiply_xx_0_0, 0))    
        self.connect((self.analog_sig_source_x_0_0, 0), (self.blocks_multiply_xx_0_2, 0))    
        self.connect((self.analog_sig_source_x_0_1, 0), (self.blocks_multiply_xx_0_1, 0))    
        self.connect((self.analog_sig_source_x_1, 0), (self.blocks_multiply_xx_0, 0))    
        self.connect((self.audio_source_0, 0), (self.blocks_multiply_xx_0, 1))    
        self.connect((self.audio_source_0, 0), (self.blocks_multiply_xx_0_0, 1))    
        self.connect((self.audio_source_0, 0), (self.blocks_multiply_xx_0_1, 1))    
        self.connect((self.audio_source_0, 0), (self.blocks_multiply_xx_0_2, 1))    
        self.connect((self.audio_source_0, 0), (self.qtgui_freq_sink_x_0, 0))    
        self.connect((self.audio_source_0, 0), (self.qtgui_time_sink_x_0, 0))    
        self.connect((self.blks2_packet_decoder_0, 0), (self.blocks_unpacked_to_packed_xx_1, 0))    
        self.connect((self.blocks_abs_xx_0, 0), (self.blocks_add_xx_0, 0))    
        self.connect((self.blocks_abs_xx_0_0, 0), (self.blocks_add_xx_0_0, 0))    
        self.connect((self.blocks_abs_xx_0_1, 0), (self.blocks_add_xx_0, 1))    
        self.connect((self.blocks_abs_xx_0_2, 0), (self.blocks_add_xx_0_0, 1))    
        self.connect((self.blocks_add_xx_0, 0), (self.blocks_rms_xx_0, 0))    
        self.connect((self.blocks_add_xx_0_0, 0), (self.blocks_rms_xx_0_0, 0))    
        self.connect((self.blocks_argmax_xx_0, 0), (self.blocks_null_sink_1, 0))    
        self.connect((self.blocks_argmax_xx_0, 1), (self.blocks_short_to_float_0, 0))    
        self.connect((self.blocks_float_to_uchar_0, 0), (self.blks2_packet_decoder_0, 0))    
        self.connect((self.blocks_float_to_uchar_0, 0), (self.qtgui_number_sink_0, 0))    
        self.connect((self.blocks_integrate_xx_0, 0), (self.blocks_abs_xx_0_2, 0))    
        self.connect((self.blocks_integrate_xx_0_0, 0), (self.blocks_abs_xx_0, 0))    
        self.connect((self.blocks_integrate_xx_0_1, 0), (self.blocks_abs_xx_0_0, 0))    
        self.connect((self.blocks_integrate_xx_1, 0), (self.blocks_abs_xx_0_1, 0))    
        self.connect((self.blocks_multiply_xx_0, 0), (self.blocks_integrate_xx_0, 0))    
        self.connect((self.blocks_multiply_xx_0_0, 0), (self.blocks_integrate_xx_1, 0))    
        self.connect((self.blocks_multiply_xx_0_1, 0), (self.blocks_integrate_xx_0_1, 0))    
        self.connect((self.blocks_multiply_xx_0_2, 0), (self.blocks_integrate_xx_0_0, 0))    
        self.connect((self.blocks_rms_xx_0, 0), (self.blocks_argmax_xx_0, 1))    
        self.connect((self.blocks_rms_xx_0_0, 0), (self.blocks_argmax_xx_0, 0))    
        self.connect((self.blocks_short_to_float_0, 0), (self.blocks_float_to_uchar_0, 0))    
        self.connect((self.blocks_short_to_float_0, 0), (self.qtgui_number_sink_1, 0))    
        self.connect((self.blocks_unpacked_to_packed_xx_1, 0), (self.blocks_file_sink_0_0, 0))    
コード例 #22
0
    def __init__(self):
        gr.top_block.__init__(self, "Pulsar Channelizer")
        Qt.QWidget.__init__(self)
        self.setWindowTitle("Pulsar Channelizer")
        qtgui.util.check_set_qss()
        try:
            self.setWindowIcon(Qt.QIcon.fromTheme('gnuradio-grc'))
        except:
            pass
        self.top_scroll_layout = Qt.QVBoxLayout()
        self.setLayout(self.top_scroll_layout)
        self.top_scroll = Qt.QScrollArea()
        self.top_scroll.setFrameStyle(Qt.QFrame.NoFrame)
        self.top_scroll_layout.addWidget(self.top_scroll)
        self.top_scroll.setWidgetResizable(True)
        self.top_widget = Qt.QWidget()
        self.top_scroll.setWidget(self.top_widget)
        self.top_layout = Qt.QVBoxLayout(self.top_widget)
        self.top_grid_layout = Qt.QGridLayout()
        self.top_layout.addLayout(self.top_grid_layout)

        self.settings = Qt.QSettings("GNU Radio", "PulsChan")
        self.restoreGeometry(self.settings.value("geometry").toByteArray())

        ##################################################
        # Variables
        ##################################################
        self.scale = scale = float(sys.argv[7])
        self.samp_rate = samp_rate = float(sys.argv[2])
        self.filename = filename = sys.argv[8]
        self.fft_size = fft_size = int(sys.argv[5])
        self.decimation = decimation = int(sys.argv[6])
        self.RFGain = RFGain = float(sys.argv[4])
        self.IFGain = IFGain = 12
        self.n_buffer = n_buffer = 26000
        self.Freq = Freq = float(sys.argv[3])
        self.ACQ_TIME = ACQ_TIME = int(sys.argv[1])
        print(len(sys.argv))
        print(ACQ_TIME)
        print(samp_rate)
        print(Freq)
        print(RFGain)
        print(fft_size)
        print(decimation)
        print(scale)
        print(filename)

        ##################################################
        # Blocks
        ##################################################
        self.qtgui_vector_sink_f_0 = qtgui.vector_sink_f(
            fft_size / decimation,
            0,
            1,
            "CH",
            "POWER",
            "",
            1  # Number of inputs
        )
        self.qtgui_vector_sink_f_0.set_update_time(0.2)
        self.qtgui_vector_sink_f_0.set_y_axis(0, 32767)
        self.qtgui_vector_sink_f_0.enable_autoscale(False)
        self.qtgui_vector_sink_f_0.enable_grid(True)
        self.qtgui_vector_sink_f_0.set_x_axis_units("")
        self.qtgui_vector_sink_f_0.set_y_axis_units("")
        self.qtgui_vector_sink_f_0.set_ref_level(0)

        labels = ['', '', '', '', '', '', '', '', '', '']
        widths = [1, 1, 1, 1, 1, 1, 1, 1, 1, 1]
        colors = [
            "blue", "red", "green", "black", "cyan", "magenta", "yellow",
            "dark red", "dark green", "dark blue"
        ]
        alphas = [1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0]
        for i in xrange(1):
            if len(labels[i]) == 0:
                self.qtgui_vector_sink_f_0.set_line_label(
                    i, "Data {0}".format(i))
            else:
                self.qtgui_vector_sink_f_0.set_line_label(i, labels[i])
            self.qtgui_vector_sink_f_0.set_line_width(i, widths[i])
            self.qtgui_vector_sink_f_0.set_line_color(i, colors[i])
            self.qtgui_vector_sink_f_0.set_line_alpha(i, alphas[i])

        self._qtgui_vector_sink_f_0_win = sip.wrapinstance(
            self.qtgui_vector_sink_f_0.pyqwidget(), Qt.QWidget)
        self.top_layout.addWidget(self._qtgui_vector_sink_f_0_win)
        self.qtgui_const_sink_x_0 = qtgui.const_sink_c(
            fft_size,  #size
            "",  #name
            1  #number of inputs
        )
        self.qtgui_const_sink_x_0.set_update_time(0.20)
        self.qtgui_const_sink_x_0.set_y_axis(-1, 1)
        self.qtgui_const_sink_x_0.set_x_axis(-1, 1)
        self.qtgui_const_sink_x_0.set_trigger_mode(qtgui.TRIG_MODE_FREE,
                                                   qtgui.TRIG_SLOPE_POS, 0.0,
                                                   0, "")
        self.qtgui_const_sink_x_0.enable_autoscale(False)
        self.qtgui_const_sink_x_0.enable_grid(False)
        self.qtgui_const_sink_x_0.enable_axis_labels(True)

        if not True:
            self.qtgui_const_sink_x_0.disable_legend()

        labels = ['', '', '', '', '', '', '', '', '', '']
        widths = [1, 1, 1, 1, 1, 1, 1, 1, 1, 1]
        colors = [
            "blue", "red", "red", "red", "red", "red", "red", "red", "red",
            "red"
        ]
        styles = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0]
        markers = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0]
        alphas = [1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0]
        for i in xrange(1):
            if len(labels[i]) == 0:
                self.qtgui_const_sink_x_0.set_line_label(
                    i, "Data {0}".format(i))
            else:
                self.qtgui_const_sink_x_0.set_line_label(i, labels[i])
            self.qtgui_const_sink_x_0.set_line_width(i, widths[i])
            self.qtgui_const_sink_x_0.set_line_color(i, colors[i])
            self.qtgui_const_sink_x_0.set_line_style(i, styles[i])
            self.qtgui_const_sink_x_0.set_line_marker(i, markers[i])
            self.qtgui_const_sink_x_0.set_line_alpha(i, alphas[i])

        self._qtgui_const_sink_x_0_win = sip.wrapinstance(
            self.qtgui_const_sink_x_0.pyqwidget(), Qt.QWidget)
        self.top_layout.addWidget(self._qtgui_const_sink_x_0_win)
        self.osmosdr_source_0 = osmosdr.source(args="numchan=" + str(1) + " " +
                                               '')
        self.osmosdr_source_0.set_clock_source('internal', 0)
        self.osmosdr_source_0.set_sample_rate(samp_rate)
        self.osmosdr_source_0.set_center_freq(Freq * 1e6, 0)
        self.osmosdr_source_0.set_freq_corr(0, 0)
        self.osmosdr_source_0.set_dc_offset_mode(0, 0)
        self.osmosdr_source_0.set_iq_balance_mode(0, 0)
        self.osmosdr_source_0.set_gain_mode(False, 0)
        self.osmosdr_source_0.set_gain(RFGain, 0)
        self.osmosdr_source_0.set_if_gain(IFGain, 0)
        self.osmosdr_source_0.set_bb_gain(0, 0)
        self.osmosdr_source_0.set_antenna('', 0)
        self.osmosdr_source_0.set_bandwidth(0, 0)
        self.osmosdr_source_0.set_min_output_buffer(n_buffer)

        self.fft_vxx_0 = fft.fft_vcc(fft_size, True,
                                     (window.rectangular(fft_size)), True, 1)
        self.fft_vxx_0.set_min_output_buffer(n_buffer)

        self.blocks_vector_to_stream_0 = blocks.vector_to_stream(
            gr.sizeof_gr_complex * 1, fft_size)
        self.blocks_vector_to_stream_0.set_min_output_buffer(n_buffer)

        self.blocks_stream_to_vector_0_0 = blocks.stream_to_vector(
            gr.sizeof_float * 1, fft_size / decimation)
        self.blocks_stream_to_vector_0_0.set_min_output_buffer(n_buffer)

        self.blocks_stream_to_vector_0 = blocks.stream_to_vector(
            gr.sizeof_gr_complex * 1, fft_size)
        self.blocks_stream_to_vector_0.set_min_output_buffer(n_buffer)

        self.blocks_short_to_float_0 = blocks.short_to_float(1, 1)
        self.blocks_short_to_float_0.set_min_output_buffer(n_buffer)

        self.blocks_multiply_const_vxx_0 = blocks.multiply_const_vff(
            (1000 / decimation, ))
        self.blocks_short_to_float_0.set_min_output_buffer(n_buffer)

        self.blocks_integrate_xx_0 = blocks.integrate_ff(decimation, 1)
        self.blocks_integrate_xx_0.set_min_output_buffer(n_buffer)

        self.blocks_float_to_short_0 = blocks.float_to_short(1, scale)
        self.blocks_float_to_short_0.set_min_output_buffer(n_buffer)

        self.blocks_file_sink_0 = blocks.file_sink(gr.sizeof_short * 1,
                                                   filename, False)
        self.blocks_file_sink_0.set_min_output_buffer(n_buffer)

        self.blocks_file_sink_0.set_unbuffered(False)

        self.blocks_complex_to_mag_0 = blocks.complex_to_mag(1)
        self.blocks_complex_to_mag_0.set_min_output_buffer(n_buffer)

        ##################################################
        # Connections
        ##################################################
        self.connect((self.blocks_complex_to_mag_0, 0),
                     (self.blocks_integrate_xx_0, 0))
        self.connect((self.blocks_float_to_short_0, 0),
                     (self.blocks_file_sink_0, 0))
        self.connect((self.blocks_float_to_short_0, 0),
                     (self.blocks_short_to_float_0, 0))
        self.connect((self.blocks_integrate_xx_0, 0),
                     (self.blocks_multiply_const_vxx_0, 0))
        self.connect((self.blocks_multiply_const_vxx_0, 0),
                     (self.blocks_float_to_short_0, 0))
        self.connect((self.blocks_short_to_float_0, 0),
                     (self.blocks_stream_to_vector_0_0, 0))
        self.connect((self.blocks_stream_to_vector_0, 0), (self.fft_vxx_0, 0))
        self.connect((self.blocks_stream_to_vector_0_0, 0),
                     (self.qtgui_vector_sink_f_0, 0))
        self.connect((self.blocks_vector_to_stream_0, 0),
                     (self.blocks_complex_to_mag_0, 0))
        self.connect((self.fft_vxx_0, 0), (self.blocks_vector_to_stream_0, 0))
        self.connect((self.osmosdr_source_0, 0),
                     (self.blocks_stream_to_vector_0, 0))
        self.connect((self.osmosdr_source_0, 0),
                     (self.qtgui_const_sink_x_0, 0))

        self.start(10000000)
        import threading
        threading.Timer(ACQ_TIME, self.kill_process).start()
コード例 #23
0
    def __init__(self):
        gr.top_block.__init__(self, "Top Block")
        Qt.QWidget.__init__(self)
        self.setWindowTitle("Top Block")
        try:
            self.setWindowIcon(Qt.QIcon.fromTheme('gnuradio-grc'))
        except:
            pass
        self.top_scroll_layout = Qt.QVBoxLayout()
        self.setLayout(self.top_scroll_layout)
        self.top_scroll = Qt.QScrollArea()
        self.top_scroll.setFrameStyle(Qt.QFrame.NoFrame)
        self.top_scroll_layout.addWidget(self.top_scroll)
        self.top_scroll.setWidgetResizable(True)
        self.top_widget = Qt.QWidget()
        self.top_scroll.setWidget(self.top_widget)
        self.top_layout = Qt.QVBoxLayout(self.top_widget)
        self.top_grid_layout = Qt.QGridLayout()
        self.top_layout.addLayout(self.top_grid_layout)

        self.settings = Qt.QSettings("GNU Radio", "top_block")
        self.restoreGeometry(self.settings.value("geometry").toByteArray())

        ##################################################
        # Variables
        ##################################################
        self.samp_rate = samp_rate = 15e6
        self.integration_bandwidth = integration_bandwidth = 2.5e3
        self.if_bandwidth_2 = if_bandwidth_2 = .75e6
        self.dec_rate_1 = dec_rate_1 = 5
        self.samp_rate_2 = samp_rate_2 = samp_rate / dec_rate_1
        self.num_channels = num_channels = int(if_bandwidth_2 /
                                               integration_bandwidth)
        self.samp_rate_3 = samp_rate_3 = samp_rate_2 / num_channels
        self.integration_time = integration_time = .5
        self.variable_function_probe = variable_function_probe = 0
        self.output_samp_rate = output_samp_rate = 1.0 / integration_time
        self.integration_dec_rate = integration_dec_rate = int(
            integration_time * samp_rate_3 / 2)
        self.if_bandwidth_0 = if_bandwidth_0 = 4.5e6
        self.gain = gain = 60
        self.freq = freq = 1.4204e9
        self.channel_map = channel_map = range(
            int(num_channels / 2.0 + 1.0), num_channels, 1) + range(
                0, int(num_channels / 2.0 + 1.0), 1)

        ##################################################
        # Blocks
        ##################################################
        self.probe_signal = blocks.probe_signal_vf(num_channels)
        self._gain_range = Range(0, 70, 1, 60, 200)
        self._gain_win = RangeWidget(self._gain_range, self.set_gain, "gain",
                                     "counter_slider", int)
        self.top_layout.addWidget(self._gain_win)

        def _variable_function_probe_probe():
            while True:
                val = self.probe_signal.level()
                try:
                    self.set_variable_function_probe(val)
                except AttributeError:
                    pass
                pytime.sleep(1.0 / (10))

        _variable_function_probe_thread = threading.Thread(
            target=_variable_function_probe_probe)
        _variable_function_probe_thread.daemon = True
        _variable_function_probe_thread.start()

        self.pfb_channelizer_ccf_0 = pfb.channelizer_ccf(
            num_channels,
            (firdes.low_pass(1, samp_rate_2, integration_bandwidth, 250,
                             firdes.WIN_HAMMING)), 1.0, 0)
        self.pfb_channelizer_ccf_0.set_channel_map((channel_map))
        self.pfb_channelizer_ccf_0.declare_sample_delay(0)

        self.low_pass_filter_1 = filter.fir_filter_ccf(
            dec_rate_1,
            firdes.low_pass(10, samp_rate, if_bandwidth_2, 1e5,
                            firdes.WIN_HAMMING, 6.76))
        self.limesdr_source_2 = limesdr.source('0009072C02873717', 2, 1, 0, 0,
                                               '', freq - 800e3, samp_rate, 0,
                                               1, 15e6, 0, 10e6, 3, 2, 2, 1,
                                               if_bandwidth_0, 1, 5e6, 1,
                                               if_bandwidth_0, 0, 0, gain, 30,
                                               0, 0, 0, 0)
        self.blocks_streams_to_vector_0 = blocks.streams_to_vector(
            gr.sizeof_gr_complex * 1, num_channels)
        self.blocks_multiply_xx_1 = blocks.multiply_vcc(1)
        self.blocks_integrate_xx_0_0 = blocks.integrate_ff(
            integration_dec_rate, num_channels)
        self.blocks_file_sink_0 = blocks.file_sink(
            gr.sizeof_gr_complex * 1,
            '/home/w1xm-admin/Documents/DSP/data_out/recieve_block_sink',
            False)
        self.blocks_file_sink_0.set_unbuffered(False)
        self.blocks_copy_0_0 = blocks.copy(gr.sizeof_gr_complex * 1)
        self.blocks_copy_0_0.set_enabled(False)
        self.blocks_copy_0 = blocks.copy(gr.sizeof_gr_complex * 1)
        self.blocks_copy_0.set_enabled(True)
        self.blocks_complex_to_mag_squared_0 = blocks.complex_to_mag_squared(
            num_channels)
        self.analog_sig_source_x_0 = analog.sig_source_c(
            samp_rate, analog.GR_SIN_WAVE, -800e3, 1, 0)

        ##################################################
        # Connections
        ##################################################
        self.connect((self.analog_sig_source_x_0, 0),
                     (self.blocks_multiply_xx_1, 1))
        self.connect((self.blocks_complex_to_mag_squared_0, 0),
                     (self.blocks_integrate_xx_0_0, 0))
        self.connect((self.blocks_copy_0, 0), (self.blocks_multiply_xx_1, 0))
        self.connect((self.blocks_copy_0_0, 0), (self.blocks_file_sink_0, 0))
        self.connect((self.blocks_integrate_xx_0_0, 0), (self.probe_signal, 0))
        self.connect((self.blocks_multiply_xx_1, 0),
                     (self.low_pass_filter_1, 0))
        self.connect((self.blocks_streams_to_vector_0, 0),
                     (self.blocks_complex_to_mag_squared_0, 0))
        self.connect((self.limesdr_source_2, 0), (self.blocks_copy_0, 0))
        self.connect((self.limesdr_source_2, 0), (self.blocks_copy_0_0, 0))
        self.connect((self.low_pass_filter_1, 0),
                     (self.pfb_channelizer_ccf_0, 0))

        for i in range(num_channels):
            self.connect((self.pfb_channelizer_ccf_0, i),
                         (self.blocks_streams_to_vector_0, i))
コード例 #24
0
ファイル: drive.py プロジェクト: gmg2719/drive_test
    def __init__(self):

        # Call the initialization method from the parent class
        gr.top_block.__init__(self)

        # Setup the parser for command line arguments
        parser = OptionParser(option_class=eng_option)
        parser.add_option("-v",
                          "--verbose",
                          action="store_true",
                          dest="verbose",
                          default=False,
                          help="print settings to stdout")
        parser.add_option("-f",
                          "--frequency",
                          type="eng_float",
                          dest="rx_freq",
                          default=98.9E6,
                          help="RX frequency in Hz")
        parser.add_option("-a",
                          "--args",
                          type="string",
                          dest="uhd_args",
                          default='type=b200',
                          help="USRP device args")
        parser.add_option("-c",
                          "--cal",
                          type="eng_float",
                          dest="rssi_cal_offset_dB",
                          default=-50,
                          help="RSSI calibration offset in dB")
        parser.add_option("-g",
                          "--gain",
                          type="eng_float",
                          dest="src_gain_dB",
                          default=50,
                          help="USRP gain in dB")
        parser.add_option("-V",
                          "--volume",
                          type="eng_float",
                          dest="volume_dB",
                          default=30,
                          help="Audio volume in dB")
        parser.add_option("-s",
                          "--soundrate",
                          type="eng_float",
                          dest="snd_card_rate",
                          default=48000,
                          help="Sound card rate in Hz")

        (options, args) = parser.parse_args()
        if len(args) != 0:
            parser.print_help()
            raise SystemExit, 1

        # Define constants
        uhd_args = options.uhd_args
        self.rx_freq = options.rx_freq
        lo_offset_freq = 125E3
        src_samp_rate = 500000
        src_gain_dB = options.src_gain_dB
        rssi_cal_offset_dB = -50
        volume_dB = options.volume_dB
        snd_card_rate = options.snd_card_rate

        # Print some info to stdout for verbose option
        if options.verbose:
            print 'USRP args string "%s" ' % uhd_args
            print 'RX frequency = %f MHz' % (self.rx_freq / 1E6)
            print 'Source sample rate = %i Hz' % src_samp_rate
            print 'USRP gain = %i dB' % src_gain_dB
            print 'RSSI cal offset= %i dB' % rssi_cal_offset_dB
            print 'Audio volume = %i dB' % volume_dB
            print 'Sound card rate = %i Hz' % snd_card_rate

        # Setup the USRP source
        self.src = uhd.usrp_source(uhd_args, uhd.io_type_t.COMPLEX_FLOAT32, 1)
        self.src.set_samp_rate(src_samp_rate)
        self.src.set_center_freq(self.rx_freq - lo_offset_freq, 0)
        self.src.set_gain(src_gain_dB, 0)

        # Generate taps for frequency translating FIR filter
        filter_taps = filter.firdes.low_pass(gain=1.0,
                                             sampling_freq=src_samp_rate,
                                             cutoff_freq=100E3,
                                             transition_width=25E3,
                                             window=filter.firdes.WIN_HAMMING)
        # Frequency translating FIR filter
        fxlate = filter.freq_xlating_fir_filter_ccc(
            decimation=2,
            taps=filter_taps,
            center_freq=lo_offset_freq,
            sampling_freq=src_samp_rate)
        # Wideband FM demodulator
        wbfm = analog.fm_demod_cf(channel_rate=src_samp_rate / 2,
                                  audio_decim=5,
                                  deviation=75000,
                                  audio_pass=15000,
                                  audio_stop=16000,
                                  gain=1.0,
                                  tau=75E-6)

        # Rational resampler
        resamp = filter.rational_resampler_fff(interpolation=snd_card_rate,
                                               decimation=src_samp_rate / 10)

        # Multiply for voulme control
        volume = blocks.multiply_const_ff(10**(volume_dB / 20) - 1)

        # Sound card sink
        sndcard = audio.sink(snd_card_rate, '', True)

        # Connect the blocks for audio monitoring
        self.connect(self.src, fxlate, wbfm, resamp, volume, sndcard)

        # Calculate power for RSSI
        c2magsqr = blocks.complex_to_mag_squared(1)

        # Integrate for mean power and decimate down to 1 Hz
        integrator = blocks.integrate_ff(decim=src_samp_rate / 2)

        # Take 10*Log10 and offset for calibrated power and src gain
        logten = blocks.nlog10_ff(10, 1, rssi_cal_offset_dB - src_gain_dB)

        # Probe the RSSI signal
        self.rssi = blocks.probe_signal_f()

        # Connect the blocks for the RSSI
        self.connect(fxlate, c2magsqr, integrator, logten, self.rssi)
コード例 #25
0
ファイル: B210_2.py プロジェクト: gui-iar/pulsar_obs
    def __init__(self,
                 bins=4096,
                 display_integration=2,
                 freq=150e6,
                 gain=20,
                 minutes=10,
                 samp_rate=50e6):
        gr.top_block.__init__(self, "B210 2")

        ##################################################
        # Parameters
        ##################################################
        self.bins = bins
        self.display_integration = display_integration
        self.freq = freq
        self.gain = gain
        self.minutes = minutes
        self.samp_rate = samp_rate

        ##################################################
        # Variables
        ##################################################
        self.timenow = timenow = datetime.now().strftime("%Y%m%d_%H%M%S")
        self.prefix = prefix = "/home/ggancio/obs/gnur/"
        self.raw = raw = prefix + timenow + "_" + str(bins) + "_" + str(
            samp_rate / 1e6) + "_" + str(freq / 1e6) + "_raw.dat"

        ##################################################
        # Blocks
        ##################################################
        self.uhd_usrp_source_0 = uhd.usrp_source(
            ",".join(("", '')),
            uhd.stream_args(
                cpu_format="sc16",
                otw_format='sc8',
                channels=range(1),
            ),
        )
        self.uhd_usrp_source_0.set_clock_source('external', 0)
        self.uhd_usrp_source_0.set_samp_rate(samp_rate)
        self.uhd_usrp_source_0.set_time_now(uhd.time_spec(time.time()),
                                            uhd.ALL_MBOARDS)
        self.uhd_usrp_source_0.set_center_freq(freq, 0)
        self.uhd_usrp_source_0.set_gain(gain, 0)
        self.uhd_usrp_source_0.set_bandwidth(samp_rate, 0)
        self.fft_vxx_0 = fft.fft_vcc(bins, True, (window.blackmanharris(bins)),
                                     True, 1)
        self.blocks_stream_to_vector_0 = blocks.stream_to_vector(
            gr.sizeof_gr_complex * 1, bins)
        self.blocks_nlog10_ff_0_0 = blocks.nlog10_ff(10, bins, 0)
        self.blocks_multiply_conjugate_cc_0 = blocks.multiply_conjugate_cc(
            bins)
        self.blocks_interleaved_short_to_complex_0 = blocks.interleaved_short_to_complex(
            True, False)
        self.blocks_integrate_xx_0 = blocks.integrate_ff(
            int(display_integration * samp_rate / bins), bins)
        self.blocks_head_0 = blocks.head(gr.sizeof_gr_complex * 1,
                                         int(minutes * 60 * (samp_rate)))
        self.blocks_file_sink_0 = blocks.file_sink(gr.sizeof_float * bins, raw,
                                                   False)
        self.blocks_file_sink_0.set_unbuffered(True)
        self.blocks_complex_to_mag_squared_0 = blocks.complex_to_mag_squared(
            bins)

        ##################################################
        # Connections
        ##################################################
        self.connect((self.blocks_complex_to_mag_squared_0, 0),
                     (self.blocks_integrate_xx_0, 0))
        self.connect((self.blocks_head_0, 0),
                     (self.blocks_stream_to_vector_0, 0))
        self.connect((self.blocks_integrate_xx_0, 0),
                     (self.blocks_nlog10_ff_0_0, 0))
        self.connect((self.blocks_interleaved_short_to_complex_0, 0),
                     (self.blocks_head_0, 0))
        self.connect((self.blocks_multiply_conjugate_cc_0, 0),
                     (self.blocks_complex_to_mag_squared_0, 0))
        self.connect((self.blocks_nlog10_ff_0_0, 0),
                     (self.blocks_file_sink_0, 0))
        self.connect((self.blocks_stream_to_vector_0, 0), (self.fft_vxx_0, 0))
        self.connect((self.fft_vxx_0, 0),
                     (self.blocks_multiply_conjugate_cc_0, 0))
        self.connect((self.fft_vxx_0, 0),
                     (self.blocks_multiply_conjugate_cc_0, 1))
        self.connect((self.uhd_usrp_source_0, 0),
                     (self.blocks_interleaved_short_to_complex_0, 0))
コード例 #26
0
    def __init__(self):
        gr.top_block.__init__(self)

        options = get_options()

        self.ifreq = options.frequency
        self.rfgain = options.gain

        self.src = osmosdr.source(options.args)
        self.src.set_center_freq(self.ifreq)
        self.src.set_sample_rate(int(options.sample_rate))

        if self.rfgain is None:
            self.src.set_gain_mode(1)
            self.iagc = 1
            self.rfgain = 0
        else:
            self.iagc = 0
            self.src.set_gain_mode(0)
            self.src.set_gain(self.rfgain)

        # may differ from the requested rate
        sample_rate = self.src.get_sample_rate()
        sys.stderr.write("sample rate: %d\n" % (sample_rate))

        bitrate = 8000

        first_decim = 125

        out_sample_rate = sample_rate / first_decim
        sys.stderr.write("output sample rate: %d\n" % (out_sample_rate))

        sps = out_sample_rate / bitrate
        sys.stderr.write("samples per symbol: %d\n" % (sps))

        self.offset = options.offset
        sys.stderr.write("offset is: %dHz\n" % self.offset)

        taps = filter.firdes.low_pass(1.0, sample_rate, options.low_pass,
                                      options.low_pass * 0.2,
                                      filter.firdes.WIN_HANN)
        self.tuner = filter.freq_xlating_fir_filter_ccf(
            first_decim, taps, self.offset, sample_rate)

        self.demod = digital.gmsk_demod(samples_per_symbol=sps)

        self.output = blocks.file_sink(gr.sizeof_char, options.output_file)

        self.connect((self.src, 0), (self.tuner, 0))
        self.connect((self.tuner, 0), (self.demod, 0))
        self.connect((self.demod, 0), (self.output, 0))

        self.fm_demod = analog.fm_demod_cf(sample_rate / first_decim, 1, 5000,
                                           3000, 4000)
        self.integrate = blocks.integrate_ff(32000)
        self.probe = blocks.probe_signal_f()

        self.connect((self.tuner, 0), (self.fm_demod, 0))
        self.connect((self.fm_demod, 0), (self.integrate, 0))
        self.connect((self.integrate, 0), (self.probe, 0))

        def _variable_function_probe_0_probe():
            while True:
                freq = self.tuner.center_freq()
                freq2 = freq + 0.2 * self.probe.level()
                print "Autotune: fix=%f old=%i new=%i" % (
                    self.probe.level(), self.ifreq + freq, self.ifreq + freq2)
                self.tuner.set_center_freq(freq2)
                time.sleep(5.0)

        _variable_function_probe_0_thread = threading.Thread(
            target=_variable_function_probe_0_probe)
        _variable_function_probe_0_thread.daemon = True
        _variable_function_probe_0_thread.start()
コード例 #27
0
    def __init__(self):
        gr.top_block.__init__(self, "A1 Add Pol")

        ##################################################
        # Variables
        ##################################################
        self.samp_rate = samp_rate = 50e6
        self.display_integration = display_integration = 1
        self.bins = bins = 4096

        ##################################################
        # Blocks
        ##################################################
        self.uhd_usrp_source_0_0 = uhd.usrp_source(
            ",".join(("", "serial=314F813")),
            uhd.stream_args(
                cpu_format="fc32",
                channels=range(1),
            ),
        )
        self.uhd_usrp_source_0_0.set_clock_source('external', 0)
        self.uhd_usrp_source_0_0.set_samp_rate(samp_rate)
        self.uhd_usrp_source_0_0.set_time_now(uhd.time_spec(time.time()),
                                              uhd.ALL_MBOARDS)
        self.uhd_usrp_source_0_0.set_center_freq(155e6, 0)
        self.uhd_usrp_source_0_0.set_gain(20, 0)
        self.uhd_usrp_source_0_0.set_bandwidth(samp_rate, 0)
        self.uhd_usrp_source_0 = uhd.usrp_source(
            ",".join(("", '')),
            uhd.stream_args(
                cpu_format="fc32",
                channels=range(1),
            ),
        )
        self.uhd_usrp_source_0.set_clock_source('external', 0)
        self.uhd_usrp_source_0.set_samp_rate(samp_rate)
        self.uhd_usrp_source_0.set_time_now(uhd.time_spec(time.time()),
                                            uhd.ALL_MBOARDS)
        self.uhd_usrp_source_0.set_center_freq(155e6, 0)
        self.uhd_usrp_source_0.set_gain(20, 0)
        self.uhd_usrp_source_0.set_bandwidth(samp_rate, 0)
        self.fft_vxx_0_1 = fft.fft_vcc(bins, True,
                                       (window.blackmanharris(bins)), True, 1)
        self.fft_vxx_0 = fft.fft_vcc(bins, True, (window.blackmanharris(bins)),
                                     True, 1)
        self.blocks_vector_to_stream_0 = blocks.vector_to_stream(
            gr.sizeof_float * 1, bins)
        self.blocks_udp_sink_0 = blocks.udp_sink(gr.sizeof_float * 1,
                                                 '163.10.43.84', 7124, 1024,
                                                 True)
        self.blocks_stream_to_vector_0_1 = blocks.stream_to_vector(
            gr.sizeof_gr_complex * 1, bins)
        self.blocks_stream_to_vector_0 = blocks.stream_to_vector(
            gr.sizeof_gr_complex * 1, bins)
        self.blocks_repeat_0_0_0_0 = blocks.repeat(gr.sizeof_float * bins, 10)
        self.blocks_repeat_0_0_0 = blocks.repeat(gr.sizeof_float * bins, 10)
        self.blocks_integrate_xx_0_1 = blocks.integrate_ff(
            int(display_integration * samp_rate / bins), bins)
        self.blocks_integrate_xx_0 = blocks.integrate_ff(
            int(display_integration * samp_rate / bins), bins)
        self.blocks_complex_to_mag_squared_0_1 = blocks.complex_to_mag_squared(
            bins)
        self.blocks_complex_to_mag_squared_0 = blocks.complex_to_mag_squared(
            bins)
        self.blocks_add_xx_0 = blocks.add_vff(bins)

        ##################################################
        # Connections
        ##################################################
        self.connect((self.blocks_add_xx_0, 0),
                     (self.blocks_vector_to_stream_0, 0))
        self.connect((self.blocks_complex_to_mag_squared_0, 0),
                     (self.blocks_integrate_xx_0, 0))
        self.connect((self.blocks_complex_to_mag_squared_0_1, 0),
                     (self.blocks_integrate_xx_0_1, 0))
        self.connect((self.blocks_integrate_xx_0, 0),
                     (self.blocks_repeat_0_0_0, 0))
        self.connect((self.blocks_integrate_xx_0_1, 0),
                     (self.blocks_repeat_0_0_0_0, 0))
        self.connect((self.blocks_repeat_0_0_0, 0), (self.blocks_add_xx_0, 0))
        self.connect((self.blocks_repeat_0_0_0_0, 0),
                     (self.blocks_add_xx_0, 1))
        self.connect((self.blocks_stream_to_vector_0, 0), (self.fft_vxx_0, 0))
        self.connect((self.blocks_stream_to_vector_0_1, 0),
                     (self.fft_vxx_0_1, 0))
        self.connect((self.blocks_vector_to_stream_0, 0),
                     (self.blocks_udp_sink_0, 0))
        self.connect((self.fft_vxx_0, 0),
                     (self.blocks_complex_to_mag_squared_0, 0))
        self.connect((self.fft_vxx_0_1, 0),
                     (self.blocks_complex_to_mag_squared_0_1, 0))
        self.connect((self.uhd_usrp_source_0, 0),
                     (self.blocks_stream_to_vector_0, 0))
        self.connect((self.uhd_usrp_source_0_0, 0),
                     (self.blocks_stream_to_vector_0_1, 0))
コード例 #28
0
    def __init__(self):
        gr.top_block.__init__(self, "vor_record_sigmf")
        Qt.QWidget.__init__(self)
        self.setWindowTitle("vor_record_sigmf")
        qtgui.util.check_set_qss()
        try:
            self.setWindowIcon(Qt.QIcon.fromTheme('gnuradio-grc'))
        except:
            pass
        self.top_scroll_layout = Qt.QVBoxLayout()
        self.setLayout(self.top_scroll_layout)
        self.top_scroll = Qt.QScrollArea()
        self.top_scroll.setFrameStyle(Qt.QFrame.NoFrame)
        self.top_scroll_layout.addWidget(self.top_scroll)
        self.top_scroll.setWidgetResizable(True)
        self.top_widget = Qt.QWidget()
        self.top_scroll.setWidget(self.top_widget)
        self.top_layout = Qt.QVBoxLayout(self.top_widget)
        self.top_grid_layout = Qt.QGridLayout()
        self.top_layout.addLayout(self.top_grid_layout)

        self.settings = Qt.QSettings("GNU Radio", "vor_playback_sigmf")
        self.restoreGeometry(self.settings.value("geometry").toByteArray())

        ##################################################
        # Variables
        ##################################################
        self.throttle_rate = throttle_rate = 1
        self.samp_rate = samp_rate = 250e3
        self.fine = fine = 0
        self.decim = decim = 5
        self.audio_gain_30hz = audio_gain_30hz = 1
        self.alpha = alpha = .02

        ##################################################
        # Blocks
        ##################################################
        self._throttle_rate_tool_bar = Qt.QToolBar(self)
        self._throttle_rate_tool_bar.addWidget(
            Qt.QLabel("throttle_rate" + ": "))
        self._throttle_rate_line_edit = Qt.QLineEdit(str(self.throttle_rate))
        self._throttle_rate_tool_bar.addWidget(self._throttle_rate_line_edit)
        self._throttle_rate_line_edit.returnPressed.connect(
            lambda: self.set_throttle_rate(
                eng_notation.str_to_num(
                    str(self._throttle_rate_line_edit.text().toAscii()))))
        self.top_grid_layout.addWidget(self._throttle_rate_tool_bar, 0, 6, 1,
                                       2)
        for r in range(0, 1):
            self.top_grid_layout.setRowStretch(r, 1)
        for c in range(6, 8):
            self.top_grid_layout.setColumnStretch(c, 1)
        self._samp_rate_tool_bar = Qt.QToolBar(self)
        self._samp_rate_tool_bar.addWidget(Qt.QLabel("samp_rate" + ": "))
        self._samp_rate_line_edit = Qt.QLineEdit(str(self.samp_rate))
        self._samp_rate_tool_bar.addWidget(self._samp_rate_line_edit)
        self._samp_rate_line_edit.returnPressed.connect(
            lambda: self.set_samp_rate(
                eng_notation.str_to_num(
                    str(self._samp_rate_line_edit.text().toAscii()))))
        self.top_grid_layout.addWidget(self._samp_rate_tool_bar, 0, 4, 1, 2)
        for r in range(0, 1):
            self.top_grid_layout.setRowStretch(r, 1)
        for c in range(4, 6):
            self.top_grid_layout.setColumnStretch(c, 1)
        self._fine_tool_bar = Qt.QToolBar(self)
        self._fine_tool_bar.addWidget(Qt.QLabel('Fine [Hz]' + ": "))
        self._fine_line_edit = Qt.QLineEdit(str(self.fine))
        self._fine_tool_bar.addWidget(self._fine_line_edit)
        self._fine_line_edit.returnPressed.connect(lambda: self.set_fine(
            eng_notation.str_to_num(str(self._fine_line_edit.text().toAscii()))
        ))
        self.top_grid_layout.addWidget(self._fine_tool_bar, 1, 4, 1, 2)
        for r in range(1, 2):
            self.top_grid_layout.setRowStretch(r, 1)
        for c in range(4, 6):
            self.top_grid_layout.setColumnStretch(c, 1)
        self.sigmf_source_0 = gr_sigmf.source(
            '/captures/20191216/VOR_2019-12-16T18:51:17Z.sigmf-data',
            "cf32" + ("_le" if sys.byteorder == "little" else "_be"), False)
        self.rational_resampler_xxx_2 = filter.rational_resampler_fff(
            interpolation=66,
            decimation=1,
            taps=None,
            fractional_bw=None,
        )
        self.rational_resampler_xxx_1 = filter.rational_resampler_fff(
            interpolation=66,
            decimation=1,
            taps=None,
            fractional_bw=None,
        )
        self.rational_resampler_xxx_0_0_0 = filter.rational_resampler_ccc(
            interpolation=24,
            decimation=25,
            taps=None,
            fractional_bw=None,
        )
        self.rational_resampler_xxx_0 = filter.rational_resampler_ccc(
            interpolation=1,
            decimation=decim,
            taps=None,
            fractional_bw=None,
        )
        self.qtgui_waterfall_sink_x_0 = qtgui.waterfall_sink_c(
            1024,  #size
            firdes.WIN_BLACKMAN_hARRIS,  #wintype
            0,  #fc
            samp_rate / decim,  #bw
            "",  #name
            1  #number of inputs
        )
        self.qtgui_waterfall_sink_x_0.set_update_time(0.010)
        self.qtgui_waterfall_sink_x_0.enable_grid(False)
        self.qtgui_waterfall_sink_x_0.enable_axis_labels(True)

        if not True:
            self.qtgui_waterfall_sink_x_0.disable_legend()

        if "complex" == "float" or "complex" == "msg_float":
            self.qtgui_waterfall_sink_x_0.set_plot_pos_half(not True)

        labels = ['', '', '', '', '', '', '', '', '', '']
        colors = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0]
        alphas = [1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0]
        for i in xrange(1):
            if len(labels[i]) == 0:
                self.qtgui_waterfall_sink_x_0.set_line_label(
                    i, "Data {0}".format(i))
            else:
                self.qtgui_waterfall_sink_x_0.set_line_label(i, labels[i])
            self.qtgui_waterfall_sink_x_0.set_color_map(i, colors[i])
            self.qtgui_waterfall_sink_x_0.set_line_alpha(i, alphas[i])

        self.qtgui_waterfall_sink_x_0.set_intensity_range(-140, 10)

        self._qtgui_waterfall_sink_x_0_win = sip.wrapinstance(
            self.qtgui_waterfall_sink_x_0.pyqwidget(), Qt.QWidget)
        self.top_grid_layout.addWidget(self._qtgui_waterfall_sink_x_0_win, 4,
                                       0, 4, 4)
        for r in range(4, 8):
            self.top_grid_layout.setRowStretch(r, 1)
        for c in range(0, 4):
            self.top_grid_layout.setColumnStretch(c, 1)
        self.qtgui_time_sink_x_0_0 = qtgui.time_sink_f(
            1024,  #size
            samp_rate / decim / 25 * 24,  #samp_rate
            "",  #name
            1  #number of inputs
        )
        self.qtgui_time_sink_x_0_0.set_update_time(0.0010)
        self.qtgui_time_sink_x_0_0.set_y_axis(-1, 1)

        self.qtgui_time_sink_x_0_0.set_y_label('Amplitude', "")

        self.qtgui_time_sink_x_0_0.enable_tags(-1, True)
        self.qtgui_time_sink_x_0_0.set_trigger_mode(qtgui.TRIG_MODE_NORM,
                                                    qtgui.TRIG_SLOPE_POS, 0, 0,
                                                    0, "")
        self.qtgui_time_sink_x_0_0.enable_autoscale(False)
        self.qtgui_time_sink_x_0_0.enable_grid(True)
        self.qtgui_time_sink_x_0_0.enable_axis_labels(True)
        self.qtgui_time_sink_x_0_0.enable_control_panel(False)
        self.qtgui_time_sink_x_0_0.enable_stem_plot(False)

        if not True:
            self.qtgui_time_sink_x_0_0.disable_legend()

        labels = ['', '', '', '', '', '', '', '', '', '']
        widths = [1, 1, 1, 1, 1, 1, 1, 1, 1, 1]
        colors = [
            "blue", "red", "green", "black", "cyan", "magenta", "yellow",
            "dark red", "dark green", "blue"
        ]
        styles = [1, 1, 1, 1, 1, 1, 1, 1, 1, 1]
        markers = [-1, -1, -1, -1, -1, -1, -1, -1, -1, -1]
        alphas = [1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0]

        for i in xrange(1):
            if len(labels[i]) == 0:
                self.qtgui_time_sink_x_0_0.set_line_label(
                    i, "Data {0}".format(i))
            else:
                self.qtgui_time_sink_x_0_0.set_line_label(i, labels[i])
            self.qtgui_time_sink_x_0_0.set_line_width(i, widths[i])
            self.qtgui_time_sink_x_0_0.set_line_color(i, colors[i])
            self.qtgui_time_sink_x_0_0.set_line_style(i, styles[i])
            self.qtgui_time_sink_x_0_0.set_line_marker(i, markers[i])
            self.qtgui_time_sink_x_0_0.set_line_alpha(i, alphas[i])

        self._qtgui_time_sink_x_0_0_win = sip.wrapinstance(
            self.qtgui_time_sink_x_0_0.pyqwidget(), Qt.QWidget)
        self.top_grid_layout.addWidget(self._qtgui_time_sink_x_0_0_win, 6, 4,
                                       2, 4)
        for r in range(6, 8):
            self.top_grid_layout.setRowStretch(r, 1)
        for c in range(4, 8):
            self.top_grid_layout.setColumnStretch(c, 1)
        self.qtgui_time_sink_x_0 = qtgui.time_sink_f(
            8192,  #size
            samp_rate / decim / 25 * 24,  #samp_rate
            "30 Hz Variable",  #name
            2  #number of inputs
        )
        self.qtgui_time_sink_x_0.set_update_time(0.0010)
        self.qtgui_time_sink_x_0.set_y_axis(-1, 1)

        self.qtgui_time_sink_x_0.set_y_label('Amplitude', "")

        self.qtgui_time_sink_x_0.enable_tags(-1, True)
        self.qtgui_time_sink_x_0.set_trigger_mode(qtgui.TRIG_MODE_NORM,
                                                  qtgui.TRIG_SLOPE_POS, 0, 0,
                                                  0, "")
        self.qtgui_time_sink_x_0.enable_autoscale(False)
        self.qtgui_time_sink_x_0.enable_grid(True)
        self.qtgui_time_sink_x_0.enable_axis_labels(True)
        self.qtgui_time_sink_x_0.enable_control_panel(False)
        self.qtgui_time_sink_x_0.enable_stem_plot(False)

        if not True:
            self.qtgui_time_sink_x_0.disable_legend()

        labels = ['', '', '', '', '', '', '', '', '', '']
        widths = [1, 1, 1, 1, 1, 1, 1, 1, 1, 1]
        colors = [
            "blue", "red", "green", "black", "cyan", "magenta", "yellow",
            "dark red", "dark green", "blue"
        ]
        styles = [1, 1, 1, 1, 1, 1, 1, 1, 1, 1]
        markers = [-1, -1, -1, -1, -1, -1, -1, -1, -1, -1]
        alphas = [1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0]

        for i in xrange(2):
            if len(labels[i]) == 0:
                self.qtgui_time_sink_x_0.set_line_label(
                    i, "Data {0}".format(i))
            else:
                self.qtgui_time_sink_x_0.set_line_label(i, labels[i])
            self.qtgui_time_sink_x_0.set_line_width(i, widths[i])
            self.qtgui_time_sink_x_0.set_line_color(i, colors[i])
            self.qtgui_time_sink_x_0.set_line_style(i, styles[i])
            self.qtgui_time_sink_x_0.set_line_marker(i, markers[i])
            self.qtgui_time_sink_x_0.set_line_alpha(i, alphas[i])

        self._qtgui_time_sink_x_0_win = sip.wrapinstance(
            self.qtgui_time_sink_x_0.pyqwidget(), Qt.QWidget)
        self.top_grid_layout.addWidget(self._qtgui_time_sink_x_0_win, 4, 4, 2,
                                       4)
        for r in range(4, 6):
            self.top_grid_layout.setRowStretch(r, 1)
        for c in range(4, 8):
            self.top_grid_layout.setColumnStretch(c, 1)
        self.qtgui_freq_sink_x_1 = qtgui.freq_sink_f(
            4096,  #size
            firdes.WIN_BLACKMAN_hARRIS,  #wintype
            0,  #fc
            samp_rate / decim / 25 * 24,  #bw
            "",  #name
            1  #number of inputs
        )
        self.qtgui_freq_sink_x_1.set_update_time(0.10)
        self.qtgui_freq_sink_x_1.set_y_axis(-140, 10)
        self.qtgui_freq_sink_x_1.set_y_label('Relative Gain', 'dB')
        self.qtgui_freq_sink_x_1.set_trigger_mode(qtgui.TRIG_MODE_FREE, 0.0, 0,
                                                  "")
        self.qtgui_freq_sink_x_1.enable_autoscale(False)
        self.qtgui_freq_sink_x_1.enable_grid(False)
        self.qtgui_freq_sink_x_1.set_fft_average(1.0)
        self.qtgui_freq_sink_x_1.enable_axis_labels(True)
        self.qtgui_freq_sink_x_1.enable_control_panel(False)

        if not True:
            self.qtgui_freq_sink_x_1.disable_legend()

        if "float" == "float" or "float" == "msg_float":
            self.qtgui_freq_sink_x_1.set_plot_pos_half(not False)

        labels = ['', '', '', '', '', '', '', '', '', '']
        widths = [1, 1, 1, 1, 1, 1, 1, 1, 1, 1]
        colors = [
            "blue", "red", "green", "black", "cyan", "magenta", "yellow",
            "dark red", "dark green", "dark blue"
        ]
        alphas = [1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0]
        for i in xrange(1):
            if len(labels[i]) == 0:
                self.qtgui_freq_sink_x_1.set_line_label(
                    i, "Data {0}".format(i))
            else:
                self.qtgui_freq_sink_x_1.set_line_label(i, labels[i])
            self.qtgui_freq_sink_x_1.set_line_width(i, widths[i])
            self.qtgui_freq_sink_x_1.set_line_color(i, colors[i])
            self.qtgui_freq_sink_x_1.set_line_alpha(i, alphas[i])

        self._qtgui_freq_sink_x_1_win = sip.wrapinstance(
            self.qtgui_freq_sink_x_1.pyqwidget(), Qt.QWidget)
        self.top_grid_layout.addWidget(self._qtgui_freq_sink_x_1_win, 0, 0, 4,
                                       4)
        for r in range(0, 4):
            self.top_grid_layout.setRowStretch(r, 1)
        for c in range(0, 4):
            self.top_grid_layout.setColumnStretch(c, 1)
        self.low_pass_filter_0_0 = filter.fir_filter_fff(
            1,
            firdes.low_pass(10, samp_rate / decim / 25 * 24, 1e3, 500,
                            firdes.WIN_HAMMING, 6.76))
        self.low_pass_filter_0 = filter.fir_filter_fff(
            1, firdes.low_pass(1, 48e3, 1, 1, firdes.WIN_HAMMING, 6.76))
        self.dc_blocker_xx_0_0 = filter.dc_blocker_ff(1024, True)
        self.dc_blocker_xx_0 = filter.dc_blocker_ff(1024, True)
        self.blocks_throttle_0 = blocks.throttle(gr.sizeof_gr_complex * 1,
                                                 samp_rate * throttle_rate,
                                                 True)
        self.blocks_multiply_xx_3 = blocks.multiply_vff(1)
        self.blocks_multiply_xx_2 = blocks.multiply_vff(1)
        self.blocks_multiply_xx_1 = blocks.multiply_vcc(1)
        self.blocks_multiply_xx_0 = blocks.multiply_vcc(1)
        self.blocks_integrate_xx_2 = blocks.integrate_ff(66, 1)
        self.blocks_integrate_xx_0 = blocks.integrate_ff(66, 1)
        self.blocks_float_to_complex_2 = blocks.float_to_complex(1)
        self.blocks_float_to_complex_1 = blocks.float_to_complex(1)
        self.blocks_float_to_complex_0 = blocks.float_to_complex(1)
        self.blocks_divide_xx_0_0 = blocks.divide_ff(1)
        self.blocks_divide_xx_0 = blocks.divide_ff(1)
        self.blocks_delay_1 = blocks.delay(gr.sizeof_float * 1, 0)
        self.blocks_delay_0 = blocks.delay(gr.sizeof_float * 1, 0)
        self.blocks_complex_to_mag_squared_0 = blocks.complex_to_mag_squared(1)
        self.blocks_complex_to_arg_0 = blocks.complex_to_arg(1)
        self.band_pass_filter_0_0 = filter.fir_filter_fff(
            1,
            firdes.band_pass(1, samp_rate / decim / 25 * 24, 25, 35, 5,
                             firdes.WIN_HAMMING, 6.76))
        self.band_pass_filter_0 = filter.fir_filter_fff(
            1,
            firdes.band_pass(1, samp_rate / decim / 25 * 24, 25, 35, 5,
                             firdes.WIN_HAMMING, 6.76))
        self._audio_gain_30hz_tool_bar = Qt.QToolBar(self)
        self._audio_gain_30hz_tool_bar.addWidget(Qt.QLabel('vol30' + ": "))
        self._audio_gain_30hz_line_edit = Qt.QLineEdit(
            str(self.audio_gain_30hz))
        self._audio_gain_30hz_tool_bar.addWidget(
            self._audio_gain_30hz_line_edit)
        self._audio_gain_30hz_line_edit.returnPressed.connect(
            lambda: self.set_audio_gain_30hz(
                eng_notation.str_to_num(
                    str(self._audio_gain_30hz_line_edit.text().toAscii()))))
        self.top_grid_layout.addWidget(self._audio_gain_30hz_tool_bar, 1, 7, 1,
                                       1)
        for r in range(1, 2):
            self.top_grid_layout.setRowStretch(r, 1)
        for c in range(7, 8):
            self.top_grid_layout.setColumnStretch(c, 1)
        self.analog_sig_source_x_1 = analog.sig_source_c(
            samp_rate, analog.GR_COS_WAVE, 9960, 1, 0)
        self.analog_sig_source_x_0 = analog.sig_source_c(
            samp_rate, analog.GR_COS_WAVE, -1 * fine, 1, 0)
        self.analog_pll_carriertracking_cc_0 = analog.pll_carriertracking_cc(
            math.pi / 200, math.pi / 10, -math.pi / 10)
        self.analog_fm_demod_cf_0 = analog.fm_demod_cf(
            channel_rate=samp_rate / decim / 25 * 24,
            audio_decim=1,
            deviation=1e3,
            audio_pass=100,
            audio_stop=200,
            gain=1.0,
            tau=75e-6,
        )
        self.analog_const_source_x_0 = analog.sig_source_f(
            0, analog.GR_CONST_WAVE, 0, 0, 0)
        self.analog_am_demod_cf_0 = analog.am_demod_cf(
            channel_rate=48e3,
            audio_decim=1,
            audio_pass=12000,
            audio_stop=13000,
        )
        self.analog_agc2_xx_0 = analog.agc2_cc(1e-1, 1e-2, 1.0, 1.0)
        self.analog_agc2_xx_0.set_max_gain(65536)
        self._alpha_tool_bar = Qt.QToolBar(self)
        self._alpha_tool_bar.addWidget(Qt.QLabel('alpha' + ": "))
        self._alpha_line_edit = Qt.QLineEdit(str(self.alpha))
        self._alpha_tool_bar.addWidget(self._alpha_line_edit)
        self._alpha_line_edit.returnPressed.connect(lambda: self.set_alpha(
            eng_notation.str_to_num(str(self._alpha_line_edit.text().toAscii())
                                    )))
        self.top_grid_layout.addWidget(self._alpha_tool_bar, 1, 6, 1, 1)
        for r in range(1, 2):
            self.top_grid_layout.setRowStretch(r, 1)
        for c in range(6, 7):
            self.top_grid_layout.setColumnStretch(c, 1)

        ##################################################
        # Connections
        ##################################################
        self.connect((self.analog_agc2_xx_0, 0),
                     (self.rational_resampler_xxx_0, 0))
        self.connect((self.analog_am_demod_cf_0, 0),
                     (self.blocks_float_to_complex_0, 0))
        self.connect((self.analog_am_demod_cf_0, 0),
                     (self.low_pass_filter_0_0, 0))
        self.connect((self.analog_am_demod_cf_0, 0),
                     (self.qtgui_freq_sink_x_1, 0))
        self.connect((self.analog_const_source_x_0, 0),
                     (self.blocks_float_to_complex_0, 1))
        self.connect((self.analog_fm_demod_cf_0, 0),
                     (self.band_pass_filter_0_0, 0))
        self.connect((self.analog_pll_carriertracking_cc_0, 0),
                     (self.rational_resampler_xxx_0_0_0, 0))
        self.connect((self.analog_sig_source_x_0, 0),
                     (self.blocks_multiply_xx_0, 1))
        self.connect((self.analog_sig_source_x_1, 0),
                     (self.blocks_multiply_xx_1, 1))
        self.connect((self.band_pass_filter_0, 0), (self.dc_blocker_xx_0, 0))
        self.connect((self.band_pass_filter_0_0, 0),
                     (self.dc_blocker_xx_0_0, 0))
        self.connect((self.blocks_complex_to_arg_0, 0),
                     (self.low_pass_filter_0, 0))
        self.connect((self.blocks_complex_to_mag_squared_0, 0),
                     (self.blocks_divide_xx_0, 1))
        self.connect((self.blocks_complex_to_mag_squared_0, 0),
                     (self.blocks_divide_xx_0_0, 1))
        self.connect((self.blocks_delay_0, 0), (self.blocks_multiply_xx_3, 0))
        self.connect((self.blocks_delay_1, 0), (self.blocks_multiply_xx_2, 1))
        self.connect((self.blocks_divide_xx_0, 0),
                     (self.blocks_float_to_complex_2, 0))
        self.connect((self.blocks_divide_xx_0_0, 0),
                     (self.blocks_float_to_complex_2, 1))
        self.connect((self.blocks_float_to_complex_0, 0),
                     (self.blocks_multiply_xx_1, 0))
        self.connect((self.blocks_float_to_complex_1, 0),
                     (self.blocks_complex_to_mag_squared_0, 0))
        self.connect((self.blocks_float_to_complex_2, 0),
                     (self.blocks_complex_to_arg_0, 0))
        self.connect((self.blocks_integrate_xx_0, 0),
                     (self.rational_resampler_xxx_1, 0))
        self.connect((self.blocks_integrate_xx_2, 0),
                     (self.rational_resampler_xxx_2, 0))
        self.connect((self.blocks_multiply_xx_0, 0),
                     (self.analog_agc2_xx_0, 0))
        self.connect((self.blocks_multiply_xx_1, 0),
                     (self.analog_fm_demod_cf_0, 0))
        self.connect((self.blocks_multiply_xx_2, 0),
                     (self.blocks_integrate_xx_0, 0))
        self.connect((self.blocks_multiply_xx_3, 0),
                     (self.blocks_integrate_xx_2, 0))
        self.connect((self.blocks_throttle_0, 0),
                     (self.blocks_multiply_xx_0, 0))
        self.connect((self.dc_blocker_xx_0, 0), (self.blocks_delay_0, 0))
        self.connect((self.dc_blocker_xx_0, 0), (self.blocks_multiply_xx_2, 0))
        self.connect((self.dc_blocker_xx_0, 0), (self.qtgui_time_sink_x_0, 0))
        self.connect((self.dc_blocker_xx_0_0, 0), (self.blocks_delay_1, 0))
        self.connect((self.dc_blocker_xx_0_0, 0),
                     (self.blocks_multiply_xx_3, 1))
        self.connect((self.dc_blocker_xx_0_0, 0),
                     (self.qtgui_time_sink_x_0, 1))
        self.connect((self.low_pass_filter_0, 0),
                     (self.qtgui_time_sink_x_0_0, 0))
        self.connect((self.low_pass_filter_0_0, 0),
                     (self.band_pass_filter_0, 0))
        self.connect((self.rational_resampler_xxx_0, 0),
                     (self.analog_pll_carriertracking_cc_0, 0))
        self.connect((self.rational_resampler_xxx_0_0_0, 0),
                     (self.analog_am_demod_cf_0, 0))
        self.connect((self.rational_resampler_xxx_0_0_0, 0),
                     (self.qtgui_waterfall_sink_x_0, 0))
        self.connect((self.rational_resampler_xxx_1, 0),
                     (self.blocks_divide_xx_0, 0))
        self.connect((self.rational_resampler_xxx_1, 0),
                     (self.blocks_float_to_complex_1, 0))
        self.connect((self.rational_resampler_xxx_2, 0),
                     (self.blocks_divide_xx_0_0, 0))
        self.connect((self.rational_resampler_xxx_2, 0),
                     (self.blocks_float_to_complex_1, 1))
        self.connect((self.sigmf_source_0, 0), (self.blocks_throttle_0, 0))
コード例 #29
0
	def __init__(
		self,
		parent,
		baseband_freq=0,
		ref_scale=2.0,
		y_per_div=10,
		y_divs=8,
		ref_level=50,
		sample_rate=1,
		fft_size=512,
		fft_rate=fft_window.DEFAULT_FRAME_RATE,
		average=False,
		avg_alpha=None,
		title='',
		size=fft_window.DEFAULT_WIN_SIZE,
		peak_hold=False,
		win=None,
                use_persistence=False,
                persist_alpha=None,
		**kwargs #do not end with a comma
	):
		#ensure avg alpha
		if avg_alpha is None: avg_alpha = 2.0/fft_rate
                #ensure analog alpha
                if persist_alpha is None:
                  actual_fft_rate=float(sample_rate/fft_size)/float(max(1,int(float((sample_rate/fft_size)/fft_rate))))
                  #print "requested_fft_rate ",fft_rate
                  #print "actual_fft_rate    ",actual_fft_rate
                  analog_cutoff_freq=0.5 # Hertz
                  #calculate alpha from wanted cutoff freq
                  persist_alpha = 1.0 - math.exp(-2.0*math.pi*analog_cutoff_freq/actual_fft_rate)

		#init
		gr.hier_block2.__init__(
			self,
			"fft_sink",
			gr.io_signature(1, 1, self._item_size),
			gr.io_signature(0, 0, 0),
		)


       	        self.integrating = integrating = 0


		#blocks
		self.fft = self._fft_chain(
			sample_rate=sample_rate,
			fft_size=fft_size,
			frame_rate=fft_rate,
			ref_scale=ref_scale,
			avg_alpha=avg_alpha,
			average=average,
			win=win,
		)
		msgq = gr.msg_queue(2)
		sink = blocks.message_sink(gr.sizeof_float*fft_size, msgq, True)
		# For graphical display only
		self._log=self.fft.get_log()

		# For saving data (integration)
		int_filename="integration_data2.txt"

		self.vect2str= blocks.vector_to_stream(gr.sizeof_float*1, fft_size)
       	        self.integrate = blocks.integrate_ff(fft_size, 1)
        	self.file_sink_int= blocks.file_sink(gr.sizeof_float*1, int_filename, False)
		#controls data streaming
		#self.integrating=1 #if the valve is open (1) or closed (0). Open valve stops data
		#self._valve = grc_blks2.valve(item_size=gr.sizeof_float*1, open=bool(self.integrating))

      	     #   self.selec = grc_blks2.selector(
        	#item_size=gr.sizeof_float*1,
      #  	num_inputs=2,
       # 	num_outputs=2,
        #	input_index=integrating,
        #	output_index=integrating,
        #)
	
		#just for not leave ports disconnected
       	        #self.null_source = blocks.null_source(gr.sizeof_float*1)
       	        #self.null_sink = blocks.null_sink(gr.sizeof_float*1)	

		#controller
		self.controller = pubsub()
		self.controller.subscribe(AVERAGE_KEY, self.fft.set_average)
		self.controller.publish(AVERAGE_KEY, self.fft.average)
		self.controller.subscribe(AVG_ALPHA_KEY, self.fft.set_avg_alpha)
		self.controller.publish(AVG_ALPHA_KEY, self.fft.avg_alpha)
		self.controller.subscribe(SAMPLE_RATE_KEY, self.fft.set_sample_rate)
		self.controller.publish(SAMPLE_RATE_KEY, self.fft.sample_rate)
		#start input watcher
		common.input_watcher(msgq, self.controller, MSG_KEY)
		#create window
		self.win = fft_window.fft_window(
			parent=parent,
			controller=self.controller,
			size=size,
			title=title,
			real=self._real,
			fft_size=fft_size,
			baseband_freq=baseband_freq,
			sample_rate_key=SAMPLE_RATE_KEY,
			y_per_div=y_per_div,
			y_divs=y_divs,
			ref_level=ref_level,
			average_key=AVERAGE_KEY,
			avg_alpha_key=AVG_ALPHA_KEY,
			peak_hold=peak_hold,
			msg_key=MSG_KEY,
                        use_persistence=use_persistence,
                        persist_alpha=persist_alpha,
		)
		common.register_access_methods(self, self.win)
		setattr(self.win, 'set_baseband_freq', getattr(self, 'set_baseband_freq')) #BACKWARDS
		setattr(self.win, 'set_peak_hold', getattr(self, 'set_peak_hold')) #BACKWARDS
		#connect
		self.wxgui_connect(self,self.fft, self._log, sink)# GUI
		#Save data
		#self.connect(self.null_source,(self.selec,0))#selector is in ports 0 by default
		#self.connect((self.selec,0),self.null_sink)
		#self.connect(self.fft, self.vect2str, self.integrate, (self.selec,1)) #port 1 os select is to save data
                #self.connect((self.selec,1), self.file_sink_int)#SAVE DATA
		self.connect(self.fft, self.vect2str, self.integrate, self.file_sink_int) 
コード例 #30
0
    def __init__(self, fc=629e6, gaindB=23, samp_rate=12.5e6):
        gr.top_block.__init__(self, "Usrp 2Chrx Save")

        ##################################################
        # Parameters
        ##################################################
        self.fc = fc
        self.gaindB = gaindB
        self.samp_rate = samp_rate

        ##################################################
        # Variables
        ##################################################
        self.chans = chans = 4096

        ##################################################
        # Blocks
        ##################################################
        self.zeromq_pub_sink_0 = zeromq.pub_sink(gr.sizeof_float, chans, 'tcp://*:50001', 100, False, -1)
        self.uhd_usrp_source = uhd.usrp_source(
            ",".join(("addr=10.11.2.61", "master_clock_rate=250e6")),
            uhd.stream_args(
                cpu_format="fc32",
                otw_format="sc16",
                args='',
                channels=list(range(0,2)),
            ),
        )
        self.uhd_usrp_source.set_subdev_spec('A:0 B:0', 0)
        self.uhd_usrp_source.set_time_source('external', 0)
        self.uhd_usrp_source.set_clock_source('external', 0)
        self.uhd_usrp_source.set_center_freq(fc, 0)
        self.uhd_usrp_source.set_gain(gaindB, 0)
        self.uhd_usrp_source.set_antenna('TX/RX', 0)
        self.uhd_usrp_source.set_center_freq(fc, 1)
        self.uhd_usrp_source.set_gain(gaindB, 1)
        self.uhd_usrp_source.set_antenna('TX/RX', 1)
        self.uhd_usrp_source.set_samp_rate(samp_rate)
        self.uhd_usrp_source.set_time_unknown_pps(uhd.time_spec())
        self.fft_vxx_0_0 = fft.fft_vcc(chans, True, window.blackmanharris(chans), True, 1)
        self.fft_vxx_0 = fft.fft_vcc(chans, True, window.blackmanharris(chans), True, 1)
        self.blocks_stream_to_vector_0_0 = blocks.stream_to_vector(gr.sizeof_gr_complex*1, chans)
        self.blocks_stream_to_vector_0 = blocks.stream_to_vector(gr.sizeof_gr_complex*1, chans)
        self.blocks_interleave_0 = blocks.interleave(gr.sizeof_float*chans, 1)
        self.blocks_integrate_xx_0_0 = blocks.integrate_ff(1000, chans)
        self.blocks_integrate_xx_0 = blocks.integrate_ff(1000, chans)
        self.blocks_file_sink_0 = blocks.file_sink(gr.sizeof_gr_complex*1, 'test.cfile', False)
        self.blocks_file_sink_0.set_unbuffered(False)
        self.blocks_complex_to_mag_squared_0_0 = blocks.complex_to_mag_squared(chans)
        self.blocks_complex_to_mag_squared_0 = blocks.complex_to_mag_squared(chans)



        ##################################################
        # Connections
        ##################################################
        self.connect((self.blocks_complex_to_mag_squared_0, 0), (self.blocks_integrate_xx_0, 0))
        self.connect((self.blocks_complex_to_mag_squared_0_0, 0), (self.blocks_integrate_xx_0_0, 0))
        self.connect((self.blocks_integrate_xx_0, 0), (self.blocks_interleave_0, 0))
        self.connect((self.blocks_integrate_xx_0_0, 0), (self.blocks_interleave_0, 1))
        self.connect((self.blocks_interleave_0, 0), (self.zeromq_pub_sink_0, 0))
        self.connect((self.blocks_stream_to_vector_0, 0), (self.fft_vxx_0_0, 0))
        self.connect((self.blocks_stream_to_vector_0_0, 0), (self.fft_vxx_0, 0))
        self.connect((self.fft_vxx_0, 0), (self.blocks_complex_to_mag_squared_0, 0))
        self.connect((self.fft_vxx_0_0, 0), (self.blocks_complex_to_mag_squared_0_0, 0))
        self.connect((self.uhd_usrp_source, 0), (self.blocks_file_sink_0, 0))
        self.connect((self.uhd_usrp_source, 1), (self.blocks_stream_to_vector_0, 0))
        self.connect((self.uhd_usrp_source, 0), (self.blocks_stream_to_vector_0_0, 0))
コード例 #31
0
    def __init__(self):
        gr.top_block.__init__(self, "Ham2Mon NBFM Receiver Flow Example")
        Qt.QWidget.__init__(self)
        self.setWindowTitle("Ham2Mon NBFM Receiver Flow Example")
        try:
             self.setWindowIcon(Qt.QIcon.fromTheme('gnuradio-grc'))
        except:
             pass
        self.top_scroll_layout = Qt.QVBoxLayout()
        self.setLayout(self.top_scroll_layout)
        self.top_scroll = Qt.QScrollArea()
        self.top_scroll.setFrameStyle(Qt.QFrame.NoFrame)
        self.top_scroll_layout.addWidget(self.top_scroll)
        self.top_scroll.setWidgetResizable(True)
        self.top_widget = Qt.QWidget()
        self.top_scroll.setWidget(self.top_widget)
        self.top_layout = Qt.QVBoxLayout(self.top_widget)
        self.top_grid_layout = Qt.QGridLayout()
        self.top_layout.addLayout(self.top_grid_layout)

        self.settings = Qt.QSettings("GNU Radio", "nbfm_flow_example")
        self.restoreGeometry(self.settings.value("geometry").toByteArray())

        ##################################################
        # Variables
        ##################################################
        self.samp_rate = samp_rate = 1E6
        self.initial_decim = initial_decim = 5
        self.samp_ratio = samp_ratio = samp_rate/1E6
        self.final_rate = final_rate = samp_rate/initial_decim**2/int(samp_rate/1E6)
        
        self.variable_low_pass_filter_taps_2 = variable_low_pass_filter_taps_2 = firdes.low_pass(1.0, final_rate, 3500, 500, firdes.WIN_HAMMING, 6.76)
          
        
        self.variable_low_pass_filter_taps_1 = variable_low_pass_filter_taps_1 = firdes.low_pass(1.0, samp_rate/25, 12.5E3, 1E3, firdes.WIN_HAMMING, 6.76)
          
        
        self.variable_low_pass_filter_taps_0 = variable_low_pass_filter_taps_0 = firdes.low_pass(1.0, 1, 0.090, 0.010, firdes.WIN_HAMMING, 6.76)
          
        self.squelch_dB = squelch_dB = -70
        self.gain_db = gain_db = 30
        self.final_decim = final_decim = int(samp_rate/1E6)
        self.file_name = file_name = "test.wav"
        self.fft_length = fft_length = 256 * int(pow(2, np.ceil(np.log(samp_ratio)/np.log(2))))
        self.demod_bb_freq = demod_bb_freq = 390E3
        self.center_freq = center_freq = 144E6

        ##################################################
        # Blocks
        ##################################################
        self._squelch_dB_range = Range(-100, 0, 5, -70, 200)
        self._squelch_dB_win = RangeWidget(self._squelch_dB_range, self.set_squelch_dB, "Squelch (dB)", "counter_slider", float)
        self.top_grid_layout.addWidget(self._squelch_dB_win, 5,1,1,3)
        self._gain_db_range = Range(0, 70, 1, 30, 200)
        self._gain_db_win = RangeWidget(self._gain_db_range, self.set_gain_db, "HW Gain (dB)", "counter_slider", float)
        self.top_grid_layout.addWidget(self._gain_db_win, 4,1,1,3)
        self._demod_bb_freq_range = Range(-samp_rate/2, samp_rate/2, 5E3, 390E3, 200)
        self._demod_bb_freq_win = RangeWidget(self._demod_bb_freq_range, self.set_demod_bb_freq, "Demod BB Freq (Hz)", "counter_slider", float)
        self.top_grid_layout.addWidget(self._demod_bb_freq_win, 3,1,1,3)
        self.qtgui_time_sink_x_0 = qtgui.time_sink_f(
        	fft_length, #size
        	samp_rate, #samp_rate
        	"Averaged Spectrum", #name
        	1 #number of inputs
        )
        self.qtgui_time_sink_x_0.set_update_time(0.10)
        self.qtgui_time_sink_x_0.set_y_axis(-60, 40)
        
        self.qtgui_time_sink_x_0.set_y_label("Power", "")
        
        self.qtgui_time_sink_x_0.enable_tags(-1, True)
        self.qtgui_time_sink_x_0.set_trigger_mode(qtgui.TRIG_MODE_FREE, qtgui.TRIG_SLOPE_POS, 0.0, 0, 0, "")
        self.qtgui_time_sink_x_0.enable_autoscale(False)
        self.qtgui_time_sink_x_0.enable_grid(False)
        self.qtgui_time_sink_x_0.enable_control_panel(False)
        
        if not True:
          self.qtgui_time_sink_x_0.disable_legend()
        
        labels = ["", "", "", "", "",
                  "", "", "", "", ""]
        widths = [1, 1, 1, 1, 1,
                  1, 1, 1, 1, 1]
        colors = ["blue", "red", "green", "black", "cyan",
                  "magenta", "yellow", "dark red", "dark green", "blue"]
        styles = [1, 1, 1, 1, 1,
                  1, 1, 1, 1, 1]
        markers = [-1, -1, -1, -1, -1,
                   -1, -1, -1, -1, -1]
        alphas = [1.0, 1.0, 1.0, 1.0, 1.0,
                  1.0, 1.0, 1.0, 1.0, 1.0]
        
        for i in xrange(1):
            if len(labels[i]) == 0:
                self.qtgui_time_sink_x_0.set_line_label(i, "Data {0}".format(i))
            else:
                self.qtgui_time_sink_x_0.set_line_label(i, labels[i])
            self.qtgui_time_sink_x_0.set_line_width(i, widths[i])
            self.qtgui_time_sink_x_0.set_line_color(i, colors[i])
            self.qtgui_time_sink_x_0.set_line_style(i, styles[i])
            self.qtgui_time_sink_x_0.set_line_marker(i, markers[i])
            self.qtgui_time_sink_x_0.set_line_alpha(i, alphas[i])
        
        self._qtgui_time_sink_x_0_win = sip.wrapinstance(self.qtgui_time_sink_x_0.pyqwidget(), Qt.QWidget)
        self.top_grid_layout.addWidget(self._qtgui_time_sink_x_0_win, 0,1,3,1)
        self.qtgui_freq_sink_x_0_0 = qtgui.freq_sink_c(
        	1024, #size
        	firdes.WIN_BLACKMAN_hARRIS, #wintype
        	0, #fc
        	final_rate, #bw
        	"Decimated Channel", #name
        	1 #number of inputs
        )
        self.qtgui_freq_sink_x_0_0.set_update_time(0.10)
        self.qtgui_freq_sink_x_0_0.set_y_axis(-200, -60)
        self.qtgui_freq_sink_x_0_0.set_trigger_mode(qtgui.TRIG_MODE_FREE, 0.0, 0, "")
        self.qtgui_freq_sink_x_0_0.enable_autoscale(False)
        self.qtgui_freq_sink_x_0_0.enable_grid(False)
        self.qtgui_freq_sink_x_0_0.set_fft_average(1.0)
        self.qtgui_freq_sink_x_0_0.enable_control_panel(False)
        
        if not True:
          self.qtgui_freq_sink_x_0_0.disable_legend()
        
        if complex == type(float()):
          self.qtgui_freq_sink_x_0_0.set_plot_pos_half(not True)
        
        labels = ["", "", "", "", "",
                  "", "", "", "", ""]
        widths = [1, 1, 1, 1, 1,
                  1, 1, 1, 1, 1]
        colors = ["blue", "red", "green", "black", "cyan",
                  "magenta", "yellow", "dark red", "dark green", "dark blue"]
        alphas = [1.0, 1.0, 1.0, 1.0, 1.0,
                  1.0, 1.0, 1.0, 1.0, 1.0]
        for i in xrange(1):
            if len(labels[i]) == 0:
                self.qtgui_freq_sink_x_0_0.set_line_label(i, "Data {0}".format(i))
            else:
                self.qtgui_freq_sink_x_0_0.set_line_label(i, labels[i])
            self.qtgui_freq_sink_x_0_0.set_line_width(i, widths[i])
            self.qtgui_freq_sink_x_0_0.set_line_color(i, colors[i])
            self.qtgui_freq_sink_x_0_0.set_line_alpha(i, alphas[i])
        
        self._qtgui_freq_sink_x_0_0_win = sip.wrapinstance(self.qtgui_freq_sink_x_0_0.pyqwidget(), Qt.QWidget)
        self.top_grid_layout.addWidget(self._qtgui_freq_sink_x_0_0_win, 3,0,3,1)
        self.qtgui_freq_sink_x_0 = qtgui.freq_sink_c(
        	fft_length, #size
        	firdes.WIN_BLACKMAN_hARRIS, #wintype
        	144E6, #fc
        	samp_rate, #bw
        	"Spectrum", #name
        	1 #number of inputs
        )
        self.qtgui_freq_sink_x_0.set_update_time(0.10)
        self.qtgui_freq_sink_x_0.set_y_axis(-120, -20)
        self.qtgui_freq_sink_x_0.set_trigger_mode(qtgui.TRIG_MODE_FREE, 0.0, 0, "")
        self.qtgui_freq_sink_x_0.enable_autoscale(False)
        self.qtgui_freq_sink_x_0.enable_grid(False)
        self.qtgui_freq_sink_x_0.set_fft_average(1.0)
        self.qtgui_freq_sink_x_0.enable_control_panel(False)
        
        if not True:
          self.qtgui_freq_sink_x_0.disable_legend()
        
        if complex == type(float()):
          self.qtgui_freq_sink_x_0.set_plot_pos_half(not True)
        
        labels = ["", "", "", "", "",
                  "", "", "", "", ""]
        widths = [1, 1, 1, 1, 1,
                  1, 1, 1, 1, 1]
        colors = ["blue", "red", "green", "black", "cyan",
                  "magenta", "yellow", "dark red", "dark green", "dark blue"]
        alphas = [1.0, 1.0, 1.0, 1.0, 1.0,
                  1.0, 1.0, 1.0, 1.0, 1.0]
        for i in xrange(1):
            if len(labels[i]) == 0:
                self.qtgui_freq_sink_x_0.set_line_label(i, "Data {0}".format(i))
            else:
                self.qtgui_freq_sink_x_0.set_line_label(i, labels[i])
            self.qtgui_freq_sink_x_0.set_line_width(i, widths[i])
            self.qtgui_freq_sink_x_0.set_line_color(i, colors[i])
            self.qtgui_freq_sink_x_0.set_line_alpha(i, alphas[i])
        
        self._qtgui_freq_sink_x_0_win = sip.wrapinstance(self.qtgui_freq_sink_x_0.pyqwidget(), Qt.QWidget)
        self.top_grid_layout.addWidget(self._qtgui_freq_sink_x_0_win, 0,0,3,1)
        self.pfb_arb_resampler_xxx_0 = pfb.arb_resampler_fff(
        	  16E3/float(final_rate/5),
                  taps=None,
        	  flt_size=32)
        self.pfb_arb_resampler_xxx_0.declare_sample_delay(0)
        	
        self.osmosdr_source_0 = osmosdr.source( args="numchan=" + str(1) + " " + "uhd" )
        self.osmosdr_source_0.set_sample_rate(samp_rate)
        self.osmosdr_source_0.set_center_freq(center_freq, 0)
        self.osmosdr_source_0.set_freq_corr(0, 0)
        self.osmosdr_source_0.set_dc_offset_mode(0, 0)
        self.osmosdr_source_0.set_iq_balance_mode(0, 0)
        self.osmosdr_source_0.set_gain_mode(False, 0)
        self.osmosdr_source_0.set_gain(gain_db, 0)
        self.osmosdr_source_0.set_if_gain(20, 0)
        self.osmosdr_source_0.set_bb_gain(20, 0)
        self.osmosdr_source_0.set_antenna("", 0)
        self.osmosdr_source_0.set_bandwidth(samp_rate*0.8, 0)
          
        self.freq_xlating_fir_filter_xxx_0 = filter.freq_xlating_fir_filter_ccc(initial_decim, (variable_low_pass_filter_taps_0), demod_bb_freq, samp_rate)
        self.fir_filter_xxx_0_1 = filter.fir_filter_fff(initial_decim, (variable_low_pass_filter_taps_0))
        self.fir_filter_xxx_0_1.declare_sample_delay(0)
        self.fir_filter_xxx_0_0 = filter.fir_filter_ccc(int(samp_rate/1E6), (variable_low_pass_filter_taps_0))
        self.fir_filter_xxx_0_0.declare_sample_delay(0)
        self.fir_filter_xxx_0 = filter.fir_filter_ccc(initial_decim, (variable_low_pass_filter_taps_0))
        self.fir_filter_xxx_0.declare_sample_delay(0)
        self.fft_vxx_0 = fft.fft_vcc(fft_length, True, (window.blackmanharris(fft_length)), True, 1)
        self.blocks_wavfile_sink_0 = blocks.wavfile_sink(file_name, 1, 16000, 8)
        self.blocks_vector_to_stream_0 = blocks.vector_to_stream(gr.sizeof_float*1, fft_length)
        self.blocks_stream_to_vector_0 = blocks.stream_to_vector(gr.sizeof_gr_complex*1, fft_length)
        self.blocks_probe_signal_vx_0 = blocks.probe_signal_vf(fft_length)
        self.blocks_nlog10_ff_0 = blocks.nlog10_ff(10, fft_length, 0)
        self.blocks_keep_one_in_n_0 = blocks.keep_one_in_n(gr.sizeof_gr_complex*fft_length, int(round(samp_rate/fft_length/1000)))
        self.blocks_integrate_xx_0 = blocks.integrate_ff(100, fft_length)
        self.blocks_complex_to_mag_squared_0 = blocks.complex_to_mag_squared(fft_length)
        self.audio_sink_0 = audio.sink(16000, "", True)
        self.analog_quadrature_demod_cf_0 = analog.quadrature_demod_cf(0.050)
        self.analog_pwr_squelch_xx_0_0 = analog.pwr_squelch_ff(-200, 0.1, 0, True)
        self.analog_pwr_squelch_xx_0 = analog.pwr_squelch_cc(squelch_dB, 0.1, 0, False)

        ##################################################
        # Connections
        ##################################################
        self.connect((self.analog_pwr_squelch_xx_0, 0), (self.analog_quadrature_demod_cf_0, 0))    
        self.connect((self.analog_pwr_squelch_xx_0_0, 0), (self.blocks_wavfile_sink_0, 0))    
        self.connect((self.analog_quadrature_demod_cf_0, 0), (self.fir_filter_xxx_0_1, 0))    
        self.connect((self.blocks_complex_to_mag_squared_0, 0), (self.blocks_integrate_xx_0, 0))    
        self.connect((self.blocks_integrate_xx_0, 0), (self.blocks_nlog10_ff_0, 0))    
        self.connect((self.blocks_keep_one_in_n_0, 0), (self.fft_vxx_0, 0))    
        self.connect((self.blocks_nlog10_ff_0, 0), (self.blocks_probe_signal_vx_0, 0))    
        self.connect((self.blocks_nlog10_ff_0, 0), (self.blocks_vector_to_stream_0, 0))    
        self.connect((self.blocks_stream_to_vector_0, 0), (self.blocks_keep_one_in_n_0, 0))    
        self.connect((self.blocks_vector_to_stream_0, 0), (self.qtgui_time_sink_x_0, 0))    
        self.connect((self.fft_vxx_0, 0), (self.blocks_complex_to_mag_squared_0, 0))    
        self.connect((self.fir_filter_xxx_0, 0), (self.fir_filter_xxx_0_0, 0))    
        self.connect((self.fir_filter_xxx_0_0, 0), (self.analog_pwr_squelch_xx_0, 0))    
        self.connect((self.fir_filter_xxx_0_0, 0), (self.qtgui_freq_sink_x_0_0, 0))    
        self.connect((self.fir_filter_xxx_0_1, 0), (self.pfb_arb_resampler_xxx_0, 0))    
        self.connect((self.freq_xlating_fir_filter_xxx_0, 0), (self.fir_filter_xxx_0, 0))    
        self.connect((self.osmosdr_source_0, 0), (self.blocks_stream_to_vector_0, 0))    
        self.connect((self.osmosdr_source_0, 0), (self.freq_xlating_fir_filter_xxx_0, 0))    
        self.connect((self.osmosdr_source_0, 0), (self.qtgui_freq_sink_x_0, 0))    
        self.connect((self.pfb_arb_resampler_xxx_0, 0), (self.analog_pwr_squelch_xx_0_0, 0))    
        self.connect((self.pfb_arb_resampler_xxx_0, 0), (self.audio_sink_0, 0))    
コード例 #32
0
    def __init__(self):
        grc_wxgui.top_block_gui.__init__(self,
                                         title="Vor Receive Realtime Clean")

        ##################################################
        # Variables
        ##################################################
        self.morse_vol = morse_vol = 10
        self.samp_rate = samp_rate = 32000
        self.rtl_gain = rtl_gain = 42
        self.rtl_freq = rtl_freq = 112500e3
        self.morse_gain = morse_gain = pow(10, morse_vol / 10)
        self.morse_amp_level = morse_amp_level = 0
        self.PI = PI = 3.14159

        ##################################################
        # Blocks
        ##################################################
        self.wxgui_scopesink2_1_0_0 = scopesink2.scope_sink_f(
            self.GetWin(),
            title='Morse',
            sample_rate=samp_rate / (1600),
            v_scale=0,
            v_offset=0,
            t_scale=0,
            ac_couple=False,
            xy_mode=False,
            num_inputs=1,
            trig_mode=wxgui.TRIG_MODE_STRIPCHART,
            y_axis_label='Amp',
        )
        self.Add(self.wxgui_scopesink2_1_0_0.win)
        self.rtlsdr_source_0 = osmosdr.source(args="numchan=" + str(1) + " " +
                                              '')
        self.rtlsdr_source_0.set_sample_rate(samp_rate * 64)
        self.rtlsdr_source_0.set_center_freq(rtl_freq, 0)
        self.rtlsdr_source_0.set_freq_corr(0, 0)
        self.rtlsdr_source_0.set_dc_offset_mode(0, 0)
        self.rtlsdr_source_0.set_iq_balance_mode(0, 0)
        self.rtlsdr_source_0.set_gain_mode(False, 0)
        self.rtlsdr_source_0.set_gain(rtl_gain, 0)
        self.rtlsdr_source_0.set_if_gain(20, 0)
        self.rtlsdr_source_0.set_bb_gain(20, 0)
        self.rtlsdr_source_0.set_antenna('', 0)
        self.rtlsdr_source_0.set_bandwidth(0, 0)

        self.pfb_decimator_ccf_0 = pfb.decimator_ccf(
            64, (firdes.low_pass(1, samp_rate * 64, 16e3, 200e3)), 0, 100,
            True, True)
        self.pfb_decimator_ccf_0.declare_sample_delay(0)

        _morse_vol_sizer = wx.BoxSizer(wx.VERTICAL)
        self._morse_vol_text_box = forms.text_box(
            parent=self.GetWin(),
            sizer=_morse_vol_sizer,
            value=self.morse_vol,
            callback=self.set_morse_vol,
            label='Morse Volume (dB):',
            converter=forms.float_converter(),
            proportion=0,
        )
        self._morse_vol_slider = forms.slider(
            parent=self.GetWin(),
            sizer=_morse_vol_sizer,
            value=self.morse_vol,
            callback=self.set_morse_vol,
            minimum=-25,
            maximum=25,
            num_steps=1000,
            style=wx.SL_HORIZONTAL,
            cast=float,
            proportion=1,
        )
        self.Add(_morse_vol_sizer)

        def _morse_amp_level_probe():
            while True:
                val = self.morse_amp.level()
                try:
                    self.set_morse_amp_level(val)
                except AttributeError:
                    pass
                time.sleep(1.0 / (25))

        _morse_amp_level_thread = threading.Thread(
            target=_morse_amp_level_probe)
        _morse_amp_level_thread.daemon = True
        _morse_amp_level_thread.start()

        self.hilbert_fc_0 = filter.hilbert_fc(64, firdes.WIN_HAMMING, 6.76)
        self.goertzel_fc_0_0 = fft.goertzel_fc(samp_rate, 3200, 30)
        self.goertzel_fc_0 = fft.goertzel_fc(samp_rate, 3200, 30)
        self.freq_xlating_fft_filter_ccc_0 = filter.freq_xlating_fft_filter_ccc(
            1, (firdes.low_pass(1, samp_rate, 480 * 2, 500 * 2)), 9960,
            samp_rate)
        self.freq_xlating_fft_filter_ccc_0.set_nthreads(1)
        self.freq_xlating_fft_filter_ccc_0.declare_sample_delay(0)
        self.blocks_tcp_server_sink_0 = blocks.tcp_server_sink(
            gr.sizeof_gr_complex * 1, '0.0.0.0', 20000, True)
        self.blocks_multiply_const_vxx_0 = blocks.multiply_const_vff(
            (morse_gain, ))
        self.blocks_multiply_conjugate_cc_0 = blocks.multiply_conjugate_cc(1)
        self.blocks_integrate_xx_1 = blocks.integrate_ff(1600, 1)
        self.blocks_integrate_xx_0 = blocks.integrate_cc(8, 1)
        self.blocks_complex_to_mag_squared_0 = blocks.complex_to_mag_squared(1)
        self.blocks_complex_to_mag_0 = blocks.complex_to_mag(1)
        self.band_pass_filter_0 = filter.fir_filter_fcc(
            1,
            firdes.complex_band_pass(1, samp_rate, 1010, 1030, 100,
                                     firdes.WIN_HAMMING, 6.76))
        self.audio_sink_0_0 = audio.sink(samp_rate, '', True)
        self.analog_wfm_rcv_0 = analog.wfm_rcv(
            quad_rate=samp_rate,
            audio_decimation=1,
        )
        self.analog_agc3_xx_0 = analog.agc3_cc(1e-3, 1e-4, 1.0, 1.0, 1)
        self.analog_agc3_xx_0.set_max_gain(65536)

        ##################################################
        # Connections
        ##################################################
        self.connect((self.analog_agc3_xx_0, 0),
                     (self.blocks_complex_to_mag_0, 0))
        self.connect((self.analog_wfm_rcv_0, 0), (self.goertzel_fc_0_0, 0))
        self.connect((self.band_pass_filter_0, 0),
                     (self.blocks_complex_to_mag_squared_0, 0))
        self.connect((self.blocks_complex_to_mag_0, 0),
                     (self.band_pass_filter_0, 0))
        self.connect((self.blocks_complex_to_mag_0, 0),
                     (self.goertzel_fc_0, 0))
        self.connect((self.blocks_complex_to_mag_0, 0), (self.hilbert_fc_0, 0))
        self.connect((self.blocks_complex_to_mag_squared_0, 0),
                     (self.blocks_integrate_xx_1, 0))
        self.connect((self.blocks_complex_to_mag_squared_0, 0),
                     (self.blocks_multiply_const_vxx_0, 0))
        self.connect((self.blocks_integrate_xx_0, 0),
                     (self.blocks_tcp_server_sink_0, 0))
        self.connect((self.blocks_integrate_xx_1, 0),
                     (self.wxgui_scopesink2_1_0_0, 0))
        self.connect((self.blocks_multiply_conjugate_cc_0, 0),
                     (self.blocks_integrate_xx_0, 0))
        self.connect((self.blocks_multiply_const_vxx_0, 0),
                     (self.audio_sink_0_0, 0))
        self.connect((self.freq_xlating_fft_filter_ccc_0, 0),
                     (self.analog_wfm_rcv_0, 0))
        self.connect((self.goertzel_fc_0, 0),
                     (self.blocks_multiply_conjugate_cc_0, 0))
        self.connect((self.goertzel_fc_0_0, 0),
                     (self.blocks_multiply_conjugate_cc_0, 1))
        self.connect((self.hilbert_fc_0, 0),
                     (self.freq_xlating_fft_filter_ccc_0, 0))
        self.connect((self.pfb_decimator_ccf_0, 0), (self.analog_agc3_xx_0, 0))
        self.connect((self.rtlsdr_source_0, 0), (self.pfb_decimator_ccf_0, 0))
コード例 #33
0
ファイル: top_block.py プロジェクト: ofenerci/dspira
    def __init__(self):
        gr.top_block.__init__(self, "Top Block")
        Qt.QWidget.__init__(self)
        self.setWindowTitle("Top Block")
        qtgui.util.check_set_qss()
        try:
            self.setWindowIcon(Qt.QIcon.fromTheme('gnuradio-grc'))
        except:
            pass
        self.top_scroll_layout = Qt.QVBoxLayout()
        self.setLayout(self.top_scroll_layout)
        self.top_scroll = Qt.QScrollArea()
        self.top_scroll.setFrameStyle(Qt.QFrame.NoFrame)
        self.top_scroll_layout.addWidget(self.top_scroll)
        self.top_scroll.setWidgetResizable(True)
        self.top_widget = Qt.QWidget()
        self.top_scroll.setWidget(self.top_widget)
        self.top_layout = Qt.QVBoxLayout(self.top_widget)
        self.top_grid_layout = Qt.QGridLayout()
        self.top_layout.addLayout(self.top_grid_layout)

        self.settings = Qt.QSettings("GNU Radio", "top_block")

        try:
            if StrictVersion(Qt.qVersion()) < StrictVersion("5.0.0"):
                self.restoreGeometry(self.settings.value("geometry").toByteArray())
            else:
                self.restoreGeometry(self.settings.value("geometry"))
        except:
            pass

        ##################################################
        # Variables
        ##################################################
        self.vec_length = vec_length = 65536
        self.sinc_sample_locations = sinc_sample_locations = np.arange(-np.pi*4/2.0, np.pi*4/2.0, np.pi/vec_length)
        self.timenow = timenow = datetime.now().strftime("%Y-%m-%d_%H.%M.%S")
        self.sinc = sinc = np.sinc(sinc_sample_locations/np.pi)
        self.prefix = prefix = "/Users/kbandura/grc_data/"
        self.samp_rate = samp_rate = 2.4e6
        self.recfile = recfile = prefix + timenow + ".h5"
        self.integration_time = integration_time = 2
        self.freq = freq = 1420.5e6
        self.display_integration = display_integration = 0.5
        self.custom_window = custom_window = sinc*np.hamming(4*vec_length)

        ##################################################
        # Blocks
        ##################################################
        self.radio_astro_hdf5_sink_1 = radio_astro.hdf5_sink(vec_length, recfile, 'testing', freq - samp_rate/2, samp_rate/vec_length, 'testing')
        self.qtgui_vector_sink_f_0 = qtgui.vector_sink_f(
            vec_length,
            freq - samp_rate/2,
            samp_rate/vec_length,
            "Frequency",
            "PSD",
            "Spectrum",
            1 # Number of inputs
        )
        self.qtgui_vector_sink_f_0.set_update_time(0.10)
        self.qtgui_vector_sink_f_0.set_y_axis(0, 3000)
        self.qtgui_vector_sink_f_0.enable_autoscale(True)
        self.qtgui_vector_sink_f_0.enable_grid(True)
        self.qtgui_vector_sink_f_0.set_x_axis_units("Hz")
        self.qtgui_vector_sink_f_0.set_y_axis_units("arb")
        self.qtgui_vector_sink_f_0.set_ref_level(0)

        labels = ['', '', '', '', '',
                  '', '', '', '', '']
        widths = [1, 1, 1, 1, 1,
                  1, 1, 1, 1, 1]
        colors = ["blue", "red", "green", "black", "cyan",
                  "magenta", "yellow", "dark red", "dark green", "dark blue"]
        alphas = [1.0, 1.0, 1.0, 1.0, 1.0,
                  1.0, 1.0, 1.0, 1.0, 1.0]
        for i in xrange(1):
            if len(labels[i]) == 0:
                self.qtgui_vector_sink_f_0.set_line_label(i, "Data {0}".format(i))
            else:
                self.qtgui_vector_sink_f_0.set_line_label(i, labels[i])
            self.qtgui_vector_sink_f_0.set_line_width(i, widths[i])
            self.qtgui_vector_sink_f_0.set_line_color(i, colors[i])
            self.qtgui_vector_sink_f_0.set_line_alpha(i, alphas[i])

        self._qtgui_vector_sink_f_0_win = sip.wrapinstance(self.qtgui_vector_sink_f_0.pyqwidget(), Qt.QWidget)
        self.top_layout.addWidget(self._qtgui_vector_sink_f_0_win)
        self.qtgui_time_sink_x_0 = qtgui.time_sink_f(
        	vec_length, #size
        	samp_rate, #samp_rate
        	"", #name
        	1 #number of inputs
        )
        self.qtgui_time_sink_x_0.set_update_time(0.10)
        self.qtgui_time_sink_x_0.set_y_axis(-1, 1)

        self.qtgui_time_sink_x_0.set_y_label('Amplitude', "")

        self.qtgui_time_sink_x_0.enable_tags(-1, True)
        self.qtgui_time_sink_x_0.set_trigger_mode(qtgui.TRIG_MODE_FREE, qtgui.TRIG_SLOPE_POS, 0.0, 0, 0, "")
        self.qtgui_time_sink_x_0.enable_autoscale(True)
        self.qtgui_time_sink_x_0.enable_grid(False)
        self.qtgui_time_sink_x_0.enable_axis_labels(False)
        self.qtgui_time_sink_x_0.enable_control_panel(True)

        if not True:
          self.qtgui_time_sink_x_0.disable_legend()

        labels = ['', '', '', '', '',
                  '', '', '', '', '']
        widths = [1, 1, 1, 1, 1,
                  1, 1, 1, 1, 1]
        colors = ["blue", "red", "green", "black", "cyan",
                  "magenta", "yellow", "dark red", "dark green", "blue"]
        styles = [1, 1, 1, 1, 1,
                  1, 1, 1, 1, 1]
        markers = [-1, -1, -1, -1, -1,
                   -1, -1, -1, -1, -1]
        alphas = [1.0, 1.0, 1.0, 1.0, 1.0,
                  1.0, 1.0, 1.0, 1.0, 1.0]

        for i in xrange(1):
            if len(labels[i]) == 0:
                self.qtgui_time_sink_x_0.set_line_label(i, "Data {0}".format(i))
            else:
                self.qtgui_time_sink_x_0.set_line_label(i, labels[i])
            self.qtgui_time_sink_x_0.set_line_width(i, widths[i])
            self.qtgui_time_sink_x_0.set_line_color(i, colors[i])
            self.qtgui_time_sink_x_0.set_line_style(i, styles[i])
            self.qtgui_time_sink_x_0.set_line_marker(i, markers[i])
            self.qtgui_time_sink_x_0.set_line_alpha(i, alphas[i])

        self._qtgui_time_sink_x_0_win = sip.wrapinstance(self.qtgui_time_sink_x_0.pyqwidget(), Qt.QWidget)
        self.top_layout.addWidget(self._qtgui_time_sink_x_0_win)
        self.fft_vxx_0 = fft.fft_vcc(vec_length, True, (window.rectangular(vec_length)), True, 1)
        self.blocks_vector_to_stream_0 = blocks.vector_to_stream(gr.sizeof_float*1, vec_length)
        self.blocks_stream_to_vector_0_2 = blocks.stream_to_vector(gr.sizeof_gr_complex*1, vec_length)
        self.blocks_stream_to_vector_0_1 = blocks.stream_to_vector(gr.sizeof_gr_complex*1, vec_length)
        self.blocks_stream_to_vector_0_0 = blocks.stream_to_vector(gr.sizeof_gr_complex*1, vec_length)
        self.blocks_stream_to_vector_0 = blocks.stream_to_vector(gr.sizeof_gr_complex*1, vec_length)
        self.blocks_nlog10_ff_0_0 = blocks.nlog10_ff(10, vec_length, 0)
        self.blocks_nlog10_ff_0 = blocks.nlog10_ff(10, 1, 0)
        self.blocks_multiply_const_vxx_0_2 = blocks.multiply_const_vcc((custom_window[-vec_length:]))
        self.blocks_multiply_const_vxx_0_1 = blocks.multiply_const_vcc((custom_window[2*vec_length:3*vec_length]))
        self.blocks_multiply_const_vxx_0_0 = blocks.multiply_const_vcc((custom_window[vec_length:2*vec_length]))
        self.blocks_multiply_const_vxx_0 = blocks.multiply_const_vcc((custom_window[0:vec_length]))
        self.blocks_multiply_conjugate_cc_0 = blocks.multiply_conjugate_cc(vec_length)
        self.blocks_integrate_xx_0_0 = blocks.integrate_ff(int(display_integration*samp_rate/vec_length), vec_length)
        self.blocks_integrate_xx_0 = blocks.integrate_ff(int((integration_time)*samp_rate/vec_length)/int(display_integration*samp_rate/vec_length), vec_length)
        self.blocks_delay_0_0_0_0 = blocks.delay(gr.sizeof_gr_complex*1, 3*vec_length)
        self.blocks_delay_0_0_0 = blocks.delay(gr.sizeof_gr_complex*1, 2*vec_length)
        self.blocks_delay_0_0 = blocks.delay(gr.sizeof_gr_complex*1, vec_length)
        self.blocks_complex_to_real_0_0 = blocks.complex_to_real(vec_length)
        self.blocks_add_xx_0 = blocks.add_vcc(vec_length)
        self.analog_fastnoise_source_x_0 = analog.fastnoise_source_c(analog.GR_GAUSSIAN, 1, 0, 8192)

        ##################################################
        # Connections
        ##################################################
        self.connect((self.analog_fastnoise_source_x_0, 0), (self.blocks_delay_0_0, 0))
        self.connect((self.analog_fastnoise_source_x_0, 0), (self.blocks_delay_0_0_0, 0))
        self.connect((self.analog_fastnoise_source_x_0, 0), (self.blocks_delay_0_0_0_0, 0))
        self.connect((self.analog_fastnoise_source_x_0, 0), (self.blocks_stream_to_vector_0, 0))
        self.connect((self.blocks_add_xx_0, 0), (self.fft_vxx_0, 0))
        self.connect((self.blocks_complex_to_real_0_0, 0), (self.blocks_integrate_xx_0_0, 0))
        self.connect((self.blocks_delay_0_0, 0), (self.blocks_stream_to_vector_0_0, 0))
        self.connect((self.blocks_delay_0_0_0, 0), (self.blocks_stream_to_vector_0_2, 0))
        self.connect((self.blocks_delay_0_0_0_0, 0), (self.blocks_stream_to_vector_0_1, 0))
        self.connect((self.blocks_integrate_xx_0, 0), (self.blocks_vector_to_stream_0, 0))
        self.connect((self.blocks_integrate_xx_0, 0), (self.radio_astro_hdf5_sink_1, 0))
        self.connect((self.blocks_integrate_xx_0_0, 0), (self.blocks_integrate_xx_0, 0))
        self.connect((self.blocks_integrate_xx_0_0, 0), (self.blocks_nlog10_ff_0_0, 0))
        self.connect((self.blocks_multiply_conjugate_cc_0, 0), (self.blocks_complex_to_real_0_0, 0))
        self.connect((self.blocks_multiply_const_vxx_0, 0), (self.blocks_add_xx_0, 3))
        self.connect((self.blocks_multiply_const_vxx_0_0, 0), (self.blocks_add_xx_0, 2))
        self.connect((self.blocks_multiply_const_vxx_0_1, 0), (self.blocks_add_xx_0, 1))
        self.connect((self.blocks_multiply_const_vxx_0_2, 0), (self.blocks_add_xx_0, 0))
        self.connect((self.blocks_nlog10_ff_0, 0), (self.qtgui_time_sink_x_0, 0))
        self.connect((self.blocks_nlog10_ff_0_0, 0), (self.qtgui_vector_sink_f_0, 0))
        self.connect((self.blocks_stream_to_vector_0, 0), (self.blocks_multiply_const_vxx_0_2, 0))
        self.connect((self.blocks_stream_to_vector_0_0, 0), (self.blocks_multiply_const_vxx_0_1, 0))
        self.connect((self.blocks_stream_to_vector_0_1, 0), (self.blocks_multiply_const_vxx_0, 0))
        self.connect((self.blocks_stream_to_vector_0_2, 0), (self.blocks_multiply_const_vxx_0_0, 0))
        self.connect((self.blocks_vector_to_stream_0, 0), (self.blocks_nlog10_ff_0, 0))
        self.connect((self.fft_vxx_0, 0), (self.blocks_multiply_conjugate_cc_0, 0))
        self.connect((self.fft_vxx_0, 0), (self.blocks_multiply_conjugate_cc_0, 1))
コード例 #34
0
    def __init__(self,
                 decimation_factor=4,
                 fast_integration=0.0005,
                 freq=1.4205e9,
                 giant_prefix="/home/dspradio/giantPulses/",
                 prefix="/data/",
                 samp_rate=2.5e6,
                 vec_length=1024):
        gr.top_block.__init__(self, "Headless Usrp Giantpulse")

        ##################################################
        # Parameters
        ##################################################
        self.decimation_factor = decimation_factor
        self.fast_integration = fast_integration
        self.freq = freq
        self.giant_prefix = giant_prefix
        self.prefix = prefix
        self.samp_rate = samp_rate
        self.vec_length = vec_length

        ##################################################
        # Variables
        ##################################################
        self.sinc_sample_locations = sinc_sample_locations = np.arange(
            -np.pi * 4 / 2.0, np.pi * 4 / 2.0, np.pi / vec_length)
        self.timenow = timenow = datetime.utcnow().strftime(
            "%Y-%m-%d_%H.%M.%S")
        self.sinc = sinc = np.sinc(sinc_sample_locations / np.pi)
        self.timeUTC = timeUTC = datetime.utcnow()
        self.recfile = recfile = prefix + timenow + "_Drift.h5"
        self.integration_time = integration_time = 10
        self.giantout_bin = giantout_bin = giant_prefix + timenow + ".bin"
        self.custom_window = custom_window = sinc * np.hamming(4 * vec_length)

        ##################################################
        # Blocks
        ##################################################
        self.uhd_usrp_source_1 = uhd.usrp_source(
            ",".join(("", "")),
            uhd.stream_args(
                cpu_format="fc32",
                args='',
                channels=list(range(0, 1)),
            ),
        )
        self.uhd_usrp_source_1.set_center_freq(freq, 0)
        self.uhd_usrp_source_1.set_gain(35, 0)
        self.uhd_usrp_source_1.set_antenna('TX/RX', 0)
        self.uhd_usrp_source_1.set_samp_rate(samp_rate)
        self.uhd_usrp_source_1.set_time_now(uhd.time_spec(time.time()),
                                            uhd.ALL_MBOARDS)
        self.radio_astro_hdf5_sink_1 = radio_astro.hdf5_sink(
            float, 1, vec_length, "True", recfile, 'A180E55',
            freq - samp_rate / 2, samp_rate / vec_length,
            'amber:39.659,-79.872.  horn3b, lna V3 mod, thin, 5.2/5.2cm probe, 20,12,10'
        )
        self.fft_vxx_0 = fft.fft_vcc(vec_length, True,
                                     window.rectangular(vec_length), True, 1)
        self.blocks_vector_to_stream_0 = blocks.vector_to_stream(
            gr.sizeof_float * 1, vec_length)
        self.blocks_stream_to_vector_1 = blocks.stream_to_vector(
            gr.sizeof_float * 1, vec_length // decimation_factor)
        self.blocks_stream_to_vector_0_2 = blocks.stream_to_vector(
            gr.sizeof_gr_complex * 1, vec_length)
        self.blocks_stream_to_vector_0_1 = blocks.stream_to_vector(
            gr.sizeof_gr_complex * 1, vec_length)
        self.blocks_stream_to_vector_0_0 = blocks.stream_to_vector(
            gr.sizeof_gr_complex * 1, vec_length)
        self.blocks_stream_to_vector_0 = blocks.stream_to_vector(
            gr.sizeof_gr_complex * 1, vec_length)
        self.blocks_multiply_const_vxx_0_2 = blocks.multiply_const_vcc(
            custom_window[-vec_length:])
        self.blocks_multiply_const_vxx_0_1 = blocks.multiply_const_vcc(
            custom_window[2 * vec_length:3 * vec_length])
        self.blocks_multiply_const_vxx_0_0 = blocks.multiply_const_vcc(
            custom_window[vec_length:2 * vec_length])
        self.blocks_multiply_const_vxx_0 = blocks.multiply_const_vcc(
            custom_window[0:vec_length])
        self.blocks_multiply_conjugate_cc_0 = blocks.multiply_conjugate_cc(
            vec_length)
        self.blocks_integrate_xx_1 = blocks.integrate_ff(decimation_factor, 1)
        self.blocks_integrate_xx_0_0 = blocks.integrate_ff(
            int(fast_integration * samp_rate / vec_length), vec_length)
        self.blocks_integrate_xx_0 = blocks.integrate_ff(
            int((integration_time) * samp_rate / vec_length) //
            int(fast_integration * samp_rate / vec_length), vec_length)
        self.blocks_file_sink_0 = blocks.file_sink(
            gr.sizeof_float * vec_length // decimation_factor, giantout_bin,
            False)
        self.blocks_file_sink_0.set_unbuffered(False)
        self.blocks_delay_0_0_0_0 = blocks.delay(gr.sizeof_gr_complex * 1,
                                                 3 * vec_length)
        self.blocks_delay_0_0_0 = blocks.delay(gr.sizeof_gr_complex * 1,
                                               2 * vec_length)
        self.blocks_delay_0_0 = blocks.delay(gr.sizeof_gr_complex * 1,
                                             vec_length)
        self.blocks_complex_to_real_0_0 = blocks.complex_to_real(vec_length)
        self.blocks_add_xx_0 = blocks.add_vcc(vec_length)

        ##################################################
        # Connections
        ##################################################
        self.connect((self.blocks_add_xx_0, 0), (self.fft_vxx_0, 0))
        self.connect((self.blocks_complex_to_real_0_0, 0),
                     (self.blocks_integrate_xx_0_0, 0))
        self.connect((self.blocks_delay_0_0, 0),
                     (self.blocks_stream_to_vector_0_0, 0))
        self.connect((self.blocks_delay_0_0_0, 0),
                     (self.blocks_stream_to_vector_0_2, 0))
        self.connect((self.blocks_delay_0_0_0_0, 0),
                     (self.blocks_stream_to_vector_0_1, 0))
        self.connect((self.blocks_integrate_xx_0, 0),
                     (self.radio_astro_hdf5_sink_1, 0))
        self.connect((self.blocks_integrate_xx_0_0, 0),
                     (self.blocks_integrate_xx_0, 0))
        self.connect((self.blocks_integrate_xx_0_0, 0),
                     (self.blocks_vector_to_stream_0, 0))
        self.connect((self.blocks_integrate_xx_1, 0),
                     (self.blocks_stream_to_vector_1, 0))
        self.connect((self.blocks_multiply_conjugate_cc_0, 0),
                     (self.blocks_complex_to_real_0_0, 0))
        self.connect((self.blocks_multiply_const_vxx_0, 0),
                     (self.blocks_add_xx_0, 3))
        self.connect((self.blocks_multiply_const_vxx_0_0, 0),
                     (self.blocks_add_xx_0, 2))
        self.connect((self.blocks_multiply_const_vxx_0_1, 0),
                     (self.blocks_add_xx_0, 1))
        self.connect((self.blocks_multiply_const_vxx_0_2, 0),
                     (self.blocks_add_xx_0, 0))
        self.connect((self.blocks_stream_to_vector_0, 0),
                     (self.blocks_multiply_const_vxx_0_2, 0))
        self.connect((self.blocks_stream_to_vector_0_0, 0),
                     (self.blocks_multiply_const_vxx_0_1, 0))
        self.connect((self.blocks_stream_to_vector_0_1, 0),
                     (self.blocks_multiply_const_vxx_0, 0))
        self.connect((self.blocks_stream_to_vector_0_2, 0),
                     (self.blocks_multiply_const_vxx_0_0, 0))
        self.connect((self.blocks_stream_to_vector_1, 0),
                     (self.blocks_file_sink_0, 0))
        self.connect((self.blocks_vector_to_stream_0, 0),
                     (self.blocks_integrate_xx_1, 0))
        self.connect((self.fft_vxx_0, 0),
                     (self.blocks_multiply_conjugate_cc_0, 1))
        self.connect((self.fft_vxx_0, 0),
                     (self.blocks_multiply_conjugate_cc_0, 0))
        self.connect((self.uhd_usrp_source_1, 0), (self.blocks_delay_0_0, 0))
        self.connect((self.uhd_usrp_source_1, 0), (self.blocks_delay_0_0_0, 0))
        self.connect((self.uhd_usrp_source_1, 0),
                     (self.blocks_delay_0_0_0_0, 0))
        self.connect((self.uhd_usrp_source_1, 0),
                     (self.blocks_stream_to_vector_0, 0))
コード例 #35
0
ファイル: receiver.py プロジェクト: lachesis/ham2mon
    def __init__(self, ask_samp_rate=4E6, num_demod=4, type_demod=0,
                 hw_args="uhd", freq_correction=0, record=True):
        # Call the initialization method from the parent class
        gr.top_block.__init__(self, "Receiver")

        # Default values
        self.center_freq = 144E6
        self.gain_db = 10
        self.squelch_db = -70
        self.volume_db = 0
        audio_rate = 8000

        # Setup the USRP source, or use the USRP sim
        self.src = osmosdr.source(args="numchan=" + str(1) + " " + hw_args)
        self.src.set_sample_rate(ask_samp_rate)
        self.src.set_gain(self.gain_db)
        self.src.set_center_freq(self.center_freq)
        self.src.set_freq_corr(freq_correction)

        # Get the sample rate and center frequency from the hardware
        self.samp_rate = self.src.get_sample_rate()
        self.center_freq = self.src.get_center_freq()

        # Set the I/Q bandwidth to 80 % of sample rate
        self.src.set_bandwidth(0.8 * self.samp_rate)

        # NBFM channel is about 10 KHz wide
        # Want  about 3 FFT bins to span a channel
        # Use length FFT so 4 Msps / 1024 = 3906.25 Hz/bin
        # This also means 3906.25 vectors/second
        # Using below formula keeps FFT size a power of two
        # Also keeps bin size constant for power of two sampling rates
        # Use of 256 sets 3906.25 Hz/bin; increase to reduce bin size
        samp_ratio = self.samp_rate / 1E6
        fft_length = 256 * int(pow(2, np.ceil(np.log(samp_ratio)/np.log(2))))

        # -----------Flow for FFT--------------

        # Convert USRP steam to vector
        stream_to_vector = blocks.stream_to_vector(gr.sizeof_gr_complex*1,
                                                   fft_length)

        # Want about 1000 vector/sec
        amount = int(round(self.samp_rate/fft_length/1000))
        keep_one_in_n = blocks.keep_one_in_n(gr.sizeof_gr_complex*
                                             fft_length, amount)

        # Take FFT
        fft_vcc = fft.fft_vcc(fft_length, True,
                              window.blackmanharris(fft_length), True, 1)

        # Compute the power
        complex_to_mag_squared = blocks.complex_to_mag_squared(fft_length)

        # Video average and decimate from 1000 vector/sec to 10 vector/sec
        integrate_ff = blocks.integrate_ff(100, fft_length)

        # Probe vector
        self.probe_signal_vf = blocks.probe_signal_vf(fft_length)

        # Connect the blocks
        self.connect(self.src, stream_to_vector, keep_one_in_n,
                     fft_vcc, complex_to_mag_squared,
                     integrate_ff, self.probe_signal_vf)

        # -----------Flow for Demod--------------

        # Create N parallel demodulators as a list of objects
        # Default to NBFM demod
        self.demodulators = []
        for idx in range(num_demod):
            if type_demod == 1:
                self.demodulators.append(TunerDemodAM(self.samp_rate,
                                                      audio_rate, record))
            else:
                self.demodulators.append(TunerDemodNBFM(self.samp_rate,
                                                        audio_rate, record))

        # Create an adder
        add_ff = blocks.add_ff(1)

        # Connect the demodulators between the source and adder
        for idx, demodulator in enumerate(self.demodulators):
            self.connect(self.src, demodulator, (add_ff, idx))

        # Audio sink
        audio_sink = audio.sink(audio_rate)

         # Connect the blocks for the demod
        self.connect(add_ff, audio_sink)
コード例 #36
0
ファイル: top_block.py プロジェクト: tshrjn/EE304P
	def __init__(self):
		grc_wxgui.top_block_gui.__init__(self, title="Top Block")
		_icon_path = "/usr/share/icons/hicolor/32x32/apps/gnuradio-grc.png"
		self.SetIcon(wx.Icon(_icon_path, wx.BITMAP_TYPE_ANY))

		##################################################
		# Variables
		##################################################
		self.sliderFc = sliderFc = 20000
		self.sliderBeta = sliderBeta = 1
		self.samp_rate = samp_rate = 200000

		##################################################
		# Blocks
		##################################################
		_sliderFc_sizer = wx.BoxSizer(wx.VERTICAL)
		self._sliderFc_text_box = forms.text_box(
			parent=self.GetWin(),
			sizer=_sliderFc_sizer,
			value=self.sliderFc,
			callback=self.set_sliderFc,
			label='sliderFc',
			converter=forms.float_converter(),
			proportion=0,
		)
		self._sliderFc_slider = forms.slider(
			parent=self.GetWin(),
			sizer=_sliderFc_sizer,
			value=self.sliderFc,
			callback=self.set_sliderFc,
			minimum=0,
			maximum=100000,
			num_steps=100,
			style=wx.SL_HORIZONTAL,
			cast=float,
			proportion=1,
		)
		self.Add(_sliderFc_sizer)
		self.wxgui_scopesink2_0 = scopesink2.scope_sink_f(
			self.GetWin(),
			title="Scope Plot",
			sample_rate=samp_rate,
			v_scale=0,
			v_offset=0,
			t_scale=0,
			ac_couple=False,
			xy_mode=False,
			num_inputs=1,
			trig_mode=gr.gr_TRIG_MODE_AUTO,
			y_axis_label="Counts",
		)
		self.Add(self.wxgui_scopesink2_0.win)
		self.wxgui_fftsink2_0 = fftsink2.fft_sink_f(
			self.GetWin(),
			baseband_freq=0,
			y_per_div=10,
			y_divs=10,
			ref_level=0,
			ref_scale=2.0,
			sample_rate=samp_rate,
			fft_size=1024,
			fft_rate=15,
			average=False,
			avg_alpha=None,
			title="FFT Plot",
			peak_hold=False,
		)
		self.Add(self.wxgui_fftsink2_0.win)
		_sliderBeta_sizer = wx.BoxSizer(wx.VERTICAL)
		self._sliderBeta_text_box = forms.text_box(
			parent=self.GetWin(),
			sizer=_sliderBeta_sizer,
			value=self.sliderBeta,
			callback=self.set_sliderBeta,
			label='sliderBeta',
			converter=forms.float_converter(),
			proportion=0,
		)
		self._sliderBeta_slider = forms.slider(
			parent=self.GetWin(),
			sizer=_sliderBeta_sizer,
			value=self.sliderBeta,
			callback=self.set_sliderBeta,
			minimum=0,
			maximum=100,
			num_steps=100,
			style=wx.SL_HORIZONTAL,
			cast=float,
			proportion=1,
		)
		self.Add(_sliderBeta_sizer)
		self.blocks_transcendental_0_0 = blocks.transcendental("sin", "float")
		self.blocks_transcendental_0 = blocks.transcendental("cos", "float")
		self.blocks_throttle_0 = blocks.throttle(gr.sizeof_float*1, samp_rate)
		self.blocks_sub_xx_0 = blocks.sub_ff(1)
		self.blocks_multiply_xx_0_0 = blocks.multiply_vff(1)
		self.blocks_multiply_xx_0 = blocks.multiply_vff(1)
		self.blocks_integrate_xx_0 = blocks.integrate_ff(1)
		self.analog_sig_source_x_0_0_0 = analog.sig_source_f(samp_rate, analog.GR_COS_WAVE, sliderFc, 1, 0)
		self.analog_sig_source_x_0_0 = analog.sig_source_f(samp_rate, analog.GR_SIN_WAVE, sliderFc, 1, 0)
		self.analog_sig_source_x_0 = analog.sig_source_f(samp_rate, analog.GR_SIN_WAVE, 1000, 1, 0)
		self.Beta = blocks.multiply_const_vff((sliderBeta, ))

		##################################################
		# Connections
		##################################################
		self.connect((self.analog_sig_source_x_0, 0), (self.blocks_throttle_0, 0))
		self.connect((self.blocks_throttle_0, 0), (self.blocks_integrate_xx_0, 0))
		self.connect((self.blocks_integrate_xx_0, 0), (self.Beta, 0))
		self.connect((self.Beta, 0), (self.blocks_transcendental_0, 0))
		self.connect((self.Beta, 0), (self.blocks_transcendental_0_0, 0))
		self.connect((self.analog_sig_source_x_0_0, 0), (self.blocks_multiply_xx_0, 1))
		self.connect((self.blocks_transcendental_0_0, 0), (self.blocks_multiply_xx_0, 0))
		self.connect((self.analog_sig_source_x_0_0_0, 0), (self.blocks_multiply_xx_0_0, 0))
		self.connect((self.blocks_transcendental_0, 0), (self.blocks_multiply_xx_0_0, 1))
		self.connect((self.blocks_multiply_xx_0_0, 0), (self.blocks_sub_xx_0, 0))
		self.connect((self.blocks_multiply_xx_0, 0), (self.blocks_sub_xx_0, 1))
		self.connect((self.blocks_sub_xx_0, 0), (self.wxgui_scopesink2_0, 0))
		self.connect((self.blocks_sub_xx_0, 0), (self.wxgui_fftsink2_0, 0))
コード例 #37
0
ファイル: top_block.py プロジェクト: madengr/fmt
    def __init__(self):
        gr.top_block.__init__(self, "Top Block")
        Qt.QWidget.__init__(self)
        self.setWindowTitle("Top Block")
        try:
             self.setWindowIcon(Qt.QIcon.fromTheme('gnuradio-grc'))
        except:
             pass
        self.top_scroll_layout = Qt.QVBoxLayout()
        self.setLayout(self.top_scroll_layout)
        self.top_scroll = Qt.QScrollArea()
        self.top_scroll.setFrameStyle(Qt.QFrame.NoFrame)
        self.top_scroll_layout.addWidget(self.top_scroll)
        self.top_scroll.setWidgetResizable(True)
        self.top_widget = Qt.QWidget()
        self.top_scroll.setWidget(self.top_widget)
        self.top_layout = Qt.QVBoxLayout(self.top_widget)
        self.top_grid_layout = Qt.QGridLayout()
        self.top_layout.addLayout(self.top_grid_layout)

        self.settings = Qt.QSettings("GNU Radio", "top_block")
        self.restoreGeometry(self.settings.value("geometry").toByteArray())


        ##################################################
        # Variables
        ##################################################
        self.offset_tune_freq = offset_tune_freq = -10E3
        self.band_freq = band_freq = 7.055E6
        self.usrp_clk_rate = usrp_clk_rate = 200E6
        self.usrp_ask_freq = usrp_ask_freq = band_freq+offset_tune_freq
        self.usrp_DDC_freq = usrp_DDC_freq = np.round(usrp_ask_freq/usrp_clk_rate* 2**32)/2**32 * usrp_clk_rate
        self.fine_tuner_freq = fine_tuner_freq = 0
        self.coarse_tuner_freq = coarse_tuner_freq = 0
        self.samp_rate = samp_rate = 250000
        self.lo_freq = lo_freq = usrp_DDC_freq + coarse_tuner_freq + fine_tuner_freq - offset_tune_freq
        self.record_check_box = record_check_box = False
        self.file_name_string = file_name_string = str(int(time.mktime(time.gmtime())))+"UTC_"+'{:.6f}'.format(lo_freq)+"Hz"+"_"+str(int(samp_rate/100))+"sps"+".raw"
        self.variable_function_probe_0 = variable_function_probe_0 = 0
        self.file_name = file_name = file_name_string if record_check_box==True else "/dev/null"
        self.volume = volume = 5.0
        self.rx_power_label = rx_power_label = '{:.1f}'.format(variable_function_probe_0)
        self.lo_freq_label = lo_freq_label = '{:.6f}'.format(lo_freq)
        self.gain_offset_dB = gain_offset_dB = 18.86
        self.filter_taps = filter_taps = firdes.low_pass(1.0,2.5,0.1,0.02,firdes.WIN_HAMMING)
        self.filename_label = filename_label = file_name
        self.cw_filter_bw = cw_filter_bw = 1000
        self.RX_power_offset_dB = RX_power_offset_dB = -35.2

        ##################################################
        # Blocks
        ##################################################
        self._volume_layout = Qt.QVBoxLayout()
        self._volume_knob = Qwt.QwtKnob()
        self._volume_knob.setRange(0, 10.0, 1.0)
        self._volume_knob.setValue(self.volume)
        self._volume_knob.valueChanged.connect(self.set_volume)
        self._volume_layout.addWidget(self._volume_knob)
        self._volume_label = Qt.QLabel("Volume")
        self._volume_label.setAlignment(Qt.Qt.AlignTop | Qt.Qt.AlignHCenter)
        self._volume_layout.addWidget(self._volume_label)
        self.top_grid_layout.addLayout(self._volume_layout, 5,6,1,1)
        self._cw_filter_bw_options = (100, 500, 1000, )
        self._cw_filter_bw_labels = ("100 Hz", "500 Hz", "1 kHz", )
        self._cw_filter_bw_tool_bar = Qt.QToolBar(self)
        self._cw_filter_bw_tool_bar.addWidget(Qt.QLabel("CW Filter BW"+": "))
        self._cw_filter_bw_combo_box = Qt.QComboBox()
        self._cw_filter_bw_tool_bar.addWidget(self._cw_filter_bw_combo_box)
        for label in self._cw_filter_bw_labels: self._cw_filter_bw_combo_box.addItem(label)
        self._cw_filter_bw_callback = lambda i: Qt.QMetaObject.invokeMethod(self._cw_filter_bw_combo_box, "setCurrentIndex", Qt.Q_ARG("int", self._cw_filter_bw_options.index(i)))
        self._cw_filter_bw_callback(self.cw_filter_bw)
        self._cw_filter_bw_combo_box.currentIndexChanged.connect(
        	lambda i: self.set_cw_filter_bw(self._cw_filter_bw_options[i]))
        self.top_grid_layout.addWidget(self._cw_filter_bw_tool_bar, 5,5,1,1)
        self.blocks_probe_signal_x_0 = blocks.probe_signal_f()
        def _variable_function_probe_0_probe():
            while True:
                val = self.blocks_probe_signal_x_0.level()
                try:
                    self.set_variable_function_probe_0(val)
                except AttributeError:
                    pass
                time.sleep(1.0 / (5))
        _variable_function_probe_0_thread = threading.Thread(target=_variable_function_probe_0_probe)
        _variable_function_probe_0_thread.daemon = True
        _variable_function_probe_0_thread.start()
        self.uhd_usrp_source_0 = uhd.usrp_source(
        	",".join(("", "addr=192.168.40.2")),
        	uhd.stream_args(
        		cpu_format="fc32",
        		channels=range(1),
        	),
        )
        self.uhd_usrp_source_0.set_subdev_spec("B:A", 0)
        self.uhd_usrp_source_0.set_samp_rate(samp_rate)
        self.uhd_usrp_source_0.set_center_freq(usrp_ask_freq, 0)
        self.uhd_usrp_source_0.set_gain(6, 0)
        self._rx_power_label_tool_bar = Qt.QToolBar(self)
        
        if None:
          self._rx_power_label_formatter = None
        else:
          self._rx_power_label_formatter = lambda x: x
        
        self._rx_power_label_tool_bar.addWidget(Qt.QLabel("RX Power (dBm)"+": "))
        self._rx_power_label_label = Qt.QLabel(str(self._rx_power_label_formatter(self.rx_power_label)))
        self._rx_power_label_tool_bar.addWidget(self._rx_power_label_label)
        self.top_grid_layout.addWidget(self._rx_power_label_tool_bar, 4,7,1,1)
          
        _record_check_box_check_box = Qt.QCheckBox("Record")
        self._record_check_box_choices = {True: True, False: False}
        self._record_check_box_choices_inv = dict((v,k) for k,v in self._record_check_box_choices.iteritems())
        self._record_check_box_callback = lambda i: Qt.QMetaObject.invokeMethod(_record_check_box_check_box, "setChecked", Qt.Q_ARG("bool", self._record_check_box_choices_inv[i]))
        self._record_check_box_callback(self.record_check_box)
        _record_check_box_check_box.stateChanged.connect(lambda i: self.set_record_check_box(self._record_check_box_choices[bool(i)]))
        self.top_grid_layout.addWidget(_record_check_box_check_box, 6,5,1,1)
        self.rational_resampler_xxx_0 = filter.rational_resampler_fff(
                interpolation=48000,
                decimation=2500,
                taps=None,
                fractional_bw=None,
        )
        self.qtgui_waterfall_sink_x_0 = qtgui.waterfall_sink_c(
        	4096, #size
        	firdes.WIN_BLACKMAN_hARRIS, #wintype
        	usrp_DDC_freq, #fc
        	samp_rate, #bw
        	"Band Waterfall", #name
                1 #number of inputs
        )
        self.qtgui_waterfall_sink_x_0.set_update_time(0.10)
        self.qtgui_waterfall_sink_x_0.enable_grid(False)
        
        if complex == type(float()):
          self.qtgui_waterfall_sink_x_0.set_plot_pos_half(not True)
        
        labels = ["", "", "", "", "",
                  "", "", "", "", ""]
        colors = [5, 0, 0, 0, 0,
                  0, 0, 0, 0, 0]
        alphas = [1.0, 1.0, 1.0, 1.0, 1.0,
                  1.0, 1.0, 1.0, 1.0, 1.0]
        for i in xrange(1):
            if len(labels[i]) == 0:
                self.qtgui_waterfall_sink_x_0.set_line_label(i, "Data {0}".format(i))
            else:
                self.qtgui_waterfall_sink_x_0.set_line_label(i, labels[i])
            self.qtgui_waterfall_sink_x_0.set_color_map(i, colors[i])
            self.qtgui_waterfall_sink_x_0.set_line_alpha(i, alphas[i])
        
        self.qtgui_waterfall_sink_x_0.set_intensity_range(-100, -70)
        
        self._qtgui_waterfall_sink_x_0_win = sip.wrapinstance(self.qtgui_waterfall_sink_x_0.pyqwidget(), Qt.QWidget)
        self.top_grid_layout.addWidget(self._qtgui_waterfall_sink_x_0_win, 4,0,3,5)
        self.qtgui_freq_sink_x_0_0 = qtgui.freq_sink_c(
        	1024, #size
        	firdes.WIN_BLACKMAN_hARRIS, #wintype
        	lo_freq, #fc
        	samp_rate/100, #bw
        	str(samp_rate/100) + " Hz Channel Spectrum", #name
        	2 #number of inputs
        )
        self.qtgui_freq_sink_x_0_0.set_update_time(0.10)
        self.qtgui_freq_sink_x_0_0.set_y_axis(-120, -70)
        self.qtgui_freq_sink_x_0_0.set_trigger_mode(qtgui.TRIG_MODE_FREE, 0.0, 0, "")
        self.qtgui_freq_sink_x_0_0.enable_autoscale(False)
        self.qtgui_freq_sink_x_0_0.enable_grid(True)
        self.qtgui_freq_sink_x_0_0.set_fft_average(1.0)
        
        if complex == type(float()):
          self.qtgui_freq_sink_x_0_0.set_plot_pos_half(not True)
        
        labels = ["", "", "", "", "",
                  "", "", "", "", ""]
        widths = [1, 1, 1, 1, 1,
                  1, 1, 1, 1, 1]
        colors = ["blue", "red", "green", "black", "cyan",
                  "magenta", "yellow", "dark red", "dark green", "dark blue"]
        alphas = [1.0, 1.0, 1.0, 1.0, 1.0,
                  1.0, 1.0, 1.0, 1.0, 1.0]
        for i in xrange(2):
            if len(labels[i]) == 0:
                self.qtgui_freq_sink_x_0_0.set_line_label(i, "Data {0}".format(i))
            else:
                self.qtgui_freq_sink_x_0_0.set_line_label(i, labels[i])
            self.qtgui_freq_sink_x_0_0.set_line_width(i, widths[i])
            self.qtgui_freq_sink_x_0_0.set_line_color(i, colors[i])
            self.qtgui_freq_sink_x_0_0.set_line_alpha(i, alphas[i])
        
        self._qtgui_freq_sink_x_0_0_win = sip.wrapinstance(self.qtgui_freq_sink_x_0_0.pyqwidget(), Qt.QWidget)
        self.top_grid_layout.addWidget(self._qtgui_freq_sink_x_0_0_win, 0,5,3,5)
        self.qtgui_freq_sink_x_0 = qtgui.freq_sink_c(
        	4096, #size
        	firdes.WIN_BLACKMAN_hARRIS, #wintype
        	usrp_DDC_freq, #fc
        	samp_rate, #bw
        	"Band Spectrum", #name
        	1 #number of inputs
        )
        self.qtgui_freq_sink_x_0.set_update_time(0.10)
        self.qtgui_freq_sink_x_0.set_y_axis(-110, -60)
        self.qtgui_freq_sink_x_0.set_trigger_mode(qtgui.TRIG_MODE_FREE, 0.0, 0, "")
        self.qtgui_freq_sink_x_0.enable_autoscale(False)
        self.qtgui_freq_sink_x_0.enable_grid(True)
        self.qtgui_freq_sink_x_0.set_fft_average(0.2)
        
        if complex == type(float()):
          self.qtgui_freq_sink_x_0.set_plot_pos_half(not True)
        
        labels = ["", "", "", "", "",
                  "", "", "", "", ""]
        widths = [1, 1, 1, 1, 1,
                  1, 1, 1, 1, 1]
        colors = ["blue", "red", "green", "black", "cyan",
                  "magenta", "yellow", "dark red", "dark green", "dark blue"]
        alphas = [1.0, 1.0, 1.0, 1.0, 1.0,
                  1.0, 1.0, 1.0, 1.0, 1.0]
        for i in xrange(1):
            if len(labels[i]) == 0:
                self.qtgui_freq_sink_x_0.set_line_label(i, "Data {0}".format(i))
            else:
                self.qtgui_freq_sink_x_0.set_line_label(i, labels[i])
            self.qtgui_freq_sink_x_0.set_line_width(i, widths[i])
            self.qtgui_freq_sink_x_0.set_line_color(i, colors[i])
            self.qtgui_freq_sink_x_0.set_line_alpha(i, alphas[i])
        
        self._qtgui_freq_sink_x_0_win = sip.wrapinstance(self.qtgui_freq_sink_x_0.pyqwidget(), Qt.QWidget)
        self.top_grid_layout.addWidget(self._qtgui_freq_sink_x_0_win, 0,0,3,5)
        self.low_pass_filter_0_0 = filter.fir_filter_ccf(1, firdes.low_pass(
        	1, samp_rate/100, 0.9*cw_filter_bw, 0.1*cw_filter_bw, firdes.WIN_BLACKMAN, 6.76))
        self.low_pass_filter_0 = filter.fir_filter_ccf(1, firdes.low_pass(
        	10**(gain_offset_dB/20), samp_rate, 100E3, 20E3, firdes.WIN_HAMMING, 6.76))
        self._lo_freq_label_tool_bar = Qt.QToolBar(self)
        
        if None:
          self._lo_freq_label_formatter = None
        else:
          self._lo_freq_label_formatter = lambda x: x
        
        self._lo_freq_label_tool_bar.addWidget(Qt.QLabel("LO Freq (Hz)"+": "))
        self._lo_freq_label_label = Qt.QLabel(str(self._lo_freq_label_formatter(self.lo_freq_label)))
        self._lo_freq_label_tool_bar.addWidget(self._lo_freq_label_label)
        self.top_grid_layout.addWidget(self._lo_freq_label_tool_bar, 4,6,1,1)
          
        self.hilbert_fc_0_0 = filter.hilbert_fc(65, firdes.WIN_HAMMING, 6.76)
        self.hilbert_fc_0 = filter.hilbert_fc(65, firdes.WIN_HAMMING, 6.76)
        self.freq_xlating_fir_filter_xxx_0 = filter.freq_xlating_fir_filter_ccc(10, (filter_taps), lo_freq - usrp_DDC_freq, samp_rate)
        self.fir_filter_xxx_0_0_0 = filter.fir_filter_ccc(10, (filter_taps))
        self.fir_filter_xxx_0_0_0.declare_sample_delay(0)
        self._fine_tuner_freq_layout = Qt.QVBoxLayout()
        self._fine_tuner_freq_tool_bar = Qt.QToolBar(self)
        self._fine_tuner_freq_layout.addWidget(self._fine_tuner_freq_tool_bar)
        self._fine_tuner_freq_tool_bar.addWidget(Qt.QLabel("Fine Tuner (Hz)"+": "))
        class qwt_counter_pyslot(Qwt.QwtCounter):
            def __init__(self, parent=None):
                Qwt.QwtCounter.__init__(self, parent)
            @pyqtSlot('double')
            def setValue(self, value):
                super(Qwt.QwtCounter, self).setValue(value)
        self._fine_tuner_freq_counter = qwt_counter_pyslot()
        self._fine_tuner_freq_counter.setRange(-500, 500, 1)
        self._fine_tuner_freq_counter.setNumButtons(2)
        self._fine_tuner_freq_counter.setValue(self.fine_tuner_freq)
        self._fine_tuner_freq_tool_bar.addWidget(self._fine_tuner_freq_counter)
        self._fine_tuner_freq_counter.valueChanged.connect(self.set_fine_tuner_freq)
        self._fine_tuner_freq_slider = Qwt.QwtSlider(None, Qt.Qt.Horizontal, Qwt.QwtSlider.BottomScale, Qwt.QwtSlider.BgSlot)
        self._fine_tuner_freq_slider.setRange(-500, 500, 1)
        self._fine_tuner_freq_slider.setValue(self.fine_tuner_freq)
        self._fine_tuner_freq_slider.setMinimumWidth(200)
        self._fine_tuner_freq_slider.valueChanged.connect(self.set_fine_tuner_freq)
        self._fine_tuner_freq_layout.addWidget(self._fine_tuner_freq_slider)
        self.top_grid_layout.addLayout(self._fine_tuner_freq_layout, 3,5,1,5)
        self._filename_label_tool_bar = Qt.QToolBar(self)
        
        if None:
          self._filename_label_formatter = None
        else:
          self._filename_label_formatter = lambda x: x
        
        self._filename_label_tool_bar.addWidget(Qt.QLabel("File Name"+": "))
        self._filename_label_label = Qt.QLabel(str(self._filename_label_formatter(self.filename_label)))
        self._filename_label_tool_bar.addWidget(self._filename_label_label)
        self.top_grid_layout.addWidget(self._filename_label_tool_bar, 6,6,1,3)
          
        self._coarse_tuner_freq_layout = Qt.QVBoxLayout()
        self._coarse_tuner_freq_tool_bar = Qt.QToolBar(self)
        self._coarse_tuner_freq_layout.addWidget(self._coarse_tuner_freq_tool_bar)
        self._coarse_tuner_freq_tool_bar.addWidget(Qt.QLabel("Coarse Tuner (Hz)"+": "))
        class qwt_counter_pyslot(Qwt.QwtCounter):
            def __init__(self, parent=None):
                Qwt.QwtCounter.__init__(self, parent)
            @pyqtSlot('double')
            def setValue(self, value):
                super(Qwt.QwtCounter, self).setValue(value)
        self._coarse_tuner_freq_counter = qwt_counter_pyslot()
        self._coarse_tuner_freq_counter.setRange(-samp_rate/2, samp_rate/2, 100)
        self._coarse_tuner_freq_counter.setNumButtons(2)
        self._coarse_tuner_freq_counter.setValue(self.coarse_tuner_freq)
        self._coarse_tuner_freq_tool_bar.addWidget(self._coarse_tuner_freq_counter)
        self._coarse_tuner_freq_counter.valueChanged.connect(self.set_coarse_tuner_freq)
        self._coarse_tuner_freq_slider = Qwt.QwtSlider(None, Qt.Qt.Horizontal, Qwt.QwtSlider.BottomScale, Qwt.QwtSlider.BgSlot)
        self._coarse_tuner_freq_slider.setRange(-samp_rate/2, samp_rate/2, 100)
        self._coarse_tuner_freq_slider.setValue(self.coarse_tuner_freq)
        self._coarse_tuner_freq_slider.setMinimumWidth(50)
        self._coarse_tuner_freq_slider.valueChanged.connect(self.set_coarse_tuner_freq)
        self._coarse_tuner_freq_layout.addWidget(self._coarse_tuner_freq_slider)
        self.top_grid_layout.addLayout(self._coarse_tuner_freq_layout, 3,0,1,5)
        self.blocks_null_sink_1_0_0 = blocks.null_sink(gr.sizeof_float*1)
        self.blocks_null_sink_1_0 = blocks.null_sink(gr.sizeof_float*1)
        self.blocks_nlog10_ff_0 = blocks.nlog10_ff(10, 1, RX_power_offset_dB)
        self.blocks_multiply_xx_0 = blocks.multiply_vcc(1)
        self.blocks_integrate_xx_0 = blocks.integrate_ff(500)
        self.blocks_file_sink_0 = blocks.file_sink(gr.sizeof_gr_complex*1, file_name, False)
        self.blocks_file_sink_0.set_unbuffered(False)
        self.blocks_complex_to_mag_squared_0 = blocks.complex_to_mag_squared(1)
        self.blocks_complex_to_float_1_0 = blocks.complex_to_float(1)
        self.blocks_complex_to_float_0_0 = blocks.complex_to_float(1)
        self.blocks_complex_to_float_0 = blocks.complex_to_float(1)
        self.blocks_add_xx_0 = blocks.add_vff(1)
        self._band_freq_options = [1.84E6, 3.598E6, 7.055E6, 2.5E6, 5.0E6, 10.0E6]
        self._band_freq_labels = ["160m", "80m", "40m", "2.5 MHz", "5 MHz", "10 MHz"]
        self._band_freq_tool_bar = Qt.QToolBar(self)
        self._band_freq_tool_bar.addWidget(Qt.QLabel("Band"+": "))
        self._band_freq_combo_box = Qt.QComboBox()
        self._band_freq_tool_bar.addWidget(self._band_freq_combo_box)
        for label in self._band_freq_labels: self._band_freq_combo_box.addItem(label)
        self._band_freq_callback = lambda i: Qt.QMetaObject.invokeMethod(self._band_freq_combo_box, "setCurrentIndex", Qt.Q_ARG("int", self._band_freq_options.index(i)))
        self._band_freq_callback(self.band_freq)
        self._band_freq_combo_box.currentIndexChanged.connect(
        	lambda i: self.set_band_freq(self._band_freq_options[i]))
        self.top_grid_layout.addWidget(self._band_freq_tool_bar, 4,5,1,1)
        self.audio_sink_0 = audio.sink(48000, "", True)
        self.analog_sig_source_x_0 = analog.sig_source_c(samp_rate/100, analog.GR_COS_WAVE, 600, 1, 0)
        self.analog_agc3_xx_0 = analog.agc3_cc(1e-1, 1e-4, volume/100, 1, 1)
        self.analog_agc3_xx_0.set_max_gain(2**16)

        ##################################################
        # Connections
        ##################################################
        self.connect((self.freq_xlating_fir_filter_xxx_0, 0), (self.fir_filter_xxx_0_0_0, 0))
        self.connect((self.uhd_usrp_source_0, 0), (self.low_pass_filter_0, 0))
        self.connect((self.fir_filter_xxx_0_0_0, 0), (self.blocks_file_sink_0, 0))
        self.connect((self.low_pass_filter_0, 0), (self.qtgui_freq_sink_x_0, 0))
        self.connect((self.low_pass_filter_0, 0), (self.freq_xlating_fir_filter_xxx_0, 0))
        self.connect((self.fir_filter_xxx_0_0_0, 0), (self.low_pass_filter_0_0, 0))
        self.connect((self.analog_sig_source_x_0, 0), (self.blocks_multiply_xx_0, 0))
        self.connect((self.low_pass_filter_0_0, 0), (self.blocks_multiply_xx_0, 1))
        self.connect((self.low_pass_filter_0_0, 0), (self.blocks_complex_to_mag_squared_0, 0))
        self.connect((self.blocks_complex_to_mag_squared_0, 0), (self.blocks_integrate_xx_0, 0))
        self.connect((self.blocks_integrate_xx_0, 0), (self.blocks_nlog10_ff_0, 0))
        self.connect((self.blocks_nlog10_ff_0, 0), (self.blocks_probe_signal_x_0, 0))
        self.connect((self.low_pass_filter_0, 0), (self.qtgui_waterfall_sink_x_0, 0))
        self.connect((self.blocks_multiply_xx_0, 0), (self.analog_agc3_xx_0, 0))
        self.connect((self.analog_agc3_xx_0, 0), (self.blocks_complex_to_float_1_0, 0))
        self.connect((self.fir_filter_xxx_0_0_0, 0), (self.qtgui_freq_sink_x_0_0, 0))
        self.connect((self.blocks_add_xx_0, 0), (self.rational_resampler_xxx_0, 0))
        self.connect((self.rational_resampler_xxx_0, 0), (self.audio_sink_0, 0))
        self.connect((self.blocks_complex_to_float_0, 0), (self.blocks_add_xx_0, 1))
        self.connect((self.blocks_complex_to_float_0_0, 1), (self.blocks_add_xx_0, 0))
        self.connect((self.blocks_complex_to_float_0_0, 0), (self.blocks_null_sink_1_0_0, 0))
        self.connect((self.blocks_complex_to_float_0, 1), (self.blocks_null_sink_1_0, 0))
        self.connect((self.blocks_complex_to_float_1_0, 1), (self.hilbert_fc_0, 0))
        self.connect((self.hilbert_fc_0, 0), (self.blocks_complex_to_float_0, 0))
        self.connect((self.blocks_complex_to_float_1_0, 0), (self.hilbert_fc_0_0, 0))
        self.connect((self.hilbert_fc_0_0, 0), (self.blocks_complex_to_float_0_0, 0))
        self.connect((self.low_pass_filter_0_0, 0), (self.qtgui_freq_sink_x_0_0, 1))
コード例 #38
0
  def __init__(self):
    gr.top_block.__init__(self)

    options = get_options()

    bitrate = 8000
    channel_bw = options.channel_bandwidth
    chan0_freq = 358400000
    self.rfgain = options.gain

    self.channels = [ int(ch) for ch in options.channels.split(',') if ch ]
    self.ch_freqs = [ ch * channel_bw + chan0_freq for ch in self.channels ]
    self.ch_freqs.extend(
            [ int(f) for f in options.channels_by_freq.split(',') if f ])
    while len(self.channels) < len(self.ch_freqs):
        self.channels.append(-1)

    if options.frequency is None:
        self.ifreq = (max(self.ch_freqs) + min(self.ch_freqs)) / 2
    else:
        self.ifreq = options.frequency

    self.src = osmosdr.source(options.args)
    self.src.set_center_freq(self.ifreq)
    self.src.set_sample_rate(options.sample_rate)
    self.src.set_freq_corr(options.ppm, 0)

    if self.rfgain is None:
        self.src.set_gain_mode(True, 0)
        self.iagc = 1
        self.rfgain = 0
    else:
        self.iagc = 0
        self.src.set_gain_mode(False)
        self.src.set_gain(self.rfgain)
        self.src.set_if_gain(37)

    # may differ from the requested rate
    sample_rate = int(self.src.get_sample_rate())
    sys.stderr.write("sample rate: %d\n" % (sample_rate))

    first_decim = int(options.sample_rate / bitrate / 2)
    sys.stderr.write("decim: %d\n" % (first_decim))

    out_sample_rate=sample_rate/first_decim
    sys.stderr.write("output sample rate: %d\n" % (out_sample_rate))

    sps=out_sample_rate/bitrate
    sys.stderr.write("samples per symbol: %d\n" % (sps))

    self.tuners = []
    self.afc_probes = []
    if len(self.channels) != 1:
        if options.output_file:
            if options.output_file.find('%%') == -1:
                raise ValueError('Output name template missing "%%".')
        elif options.output_pipe:
            if options.output_pipe.find('%%') == -1:
                raise ValueError('Output name template missing "%%".')
        else:
            raise ValueError('WTF')
    for ch in range(0,len(self.channels)):
        bw = (9200 + options.afc_ppm_threshold)/2
        taps = filter.firdes.low_pass(1.0, sample_rate, bw, bw*options.transition_width, filter.firdes.WIN_HANN)
        offset = self.ch_freqs[ch] - self.ifreq
        sys.stderr.write("channel[%d]: %d frequency=%d, offset=%d Hz\n" % (ch, self.channels[ch], self.ch_freqs[ch], offset))


        tuner = filter.freq_xlating_fir_filter_ccc(first_decim, taps, offset, sample_rate)
        self.tuners.append(tuner)

        demod = digital.gmsk_demod(samples_per_symbol=sps)

        fname = self.channels[ch]
        if fname == -1:
            fname = self.ch_freqs[ch]
        if options.output_pipe is None:
            file = options.output_file.replace('%%', str(fname))
            output = blocks.file_sink(gr.sizeof_char, file)
        else:
            cmd = options.output_pipe.replace('%%', str(fname))
            pipe = subprocess.Popen(cmd, stdin=subprocess.PIPE, shell=True)
            fd = pipe.stdin.fileno()
            output = blocks.file_descriptor_sink(gr.sizeof_char, fd)

        self.connect((self.src, 0), (tuner, 0))
        self.connect((tuner, 0), (demod, 0))
        self.connect((demod, 0), (output, 0))

        afc_decimation = 32000
        afc_demod = analog.quadrature_demod_cf(sample_rate/first_decim/(2*math.pi*afc_decimation))
        integrate = blocks.integrate_ff(afc_decimation)
        afc_probe = blocks.probe_signal_f()
        self.afc_probes.append(afc_probe)

        self.connect((tuner, 0), (afc_demod,0))
        self.connect((afc_demod, 0), (integrate,0))
        self.connect((integrate, 0), (afc_probe, 0))

    def _variable_function_probe_0_probe():
        while True:
            time.sleep(options.afc_period)
            for ch in range(0,len(self.channels)):
                err = self.afc_probes[ch].level()
                if abs(err) < options.afc_ppm_threshold:
                    continue
                freq = self.tuners[ch].center_freq() + err * options.afc_gain
                self.tuners[ch].set_center_freq(freq)
                if self.channels[ch] == -1:
                    sys.stderr.write("Freq %d freq err: %5.0f\tfreq: %f\n" % (self.ch_freqs[ch], err, freq))
                else:
                    sys.stderr.write("Chan %d freq err: %5.0f\tfreq: %f\n" % (self.channels[ch], err, freq))
            sys.stderr.write("\n")
    _variable_function_probe_0_thread = threading.Thread(target=_variable_function_probe_0_probe)
    _variable_function_probe_0_thread.daemon = True
    _variable_function_probe_0_thread.start()
コード例 #39
0
    def __init__(self):
        gr.top_block.__init__(self, "Top Block")
        Qt.QWidget.__init__(self)
        self.setWindowTitle("Top Block")
        try:
            self.setWindowIcon(Qt.QIcon.fromTheme('gnuradio-grc'))
        except:
            pass
        self.top_scroll_layout = Qt.QVBoxLayout()
        self.setLayout(self.top_scroll_layout)
        self.top_scroll = Qt.QScrollArea()
        self.top_scroll.setFrameStyle(Qt.QFrame.NoFrame)
        self.top_scroll_layout.addWidget(self.top_scroll)
        self.top_scroll.setWidgetResizable(True)
        self.top_widget = Qt.QWidget()
        self.top_scroll.setWidget(self.top_widget)
        self.top_layout = Qt.QVBoxLayout(self.top_widget)
        self.top_grid_layout = Qt.QGridLayout()
        self.top_layout.addLayout(self.top_grid_layout)

        self.settings = Qt.QSettings("GNU Radio", "top_block")
        self.restoreGeometry(self.settings.value("geometry").toByteArray())

        ##################################################
        # Variables
        ##################################################
        self.samp_rate = samp_rate = 15e6
        self.if_bandwidth_1 = if_bandwidth_1 = 2e6
        self.sdr_gain = sdr_gain = 60
        self.integration_bandwidth = integration_bandwidth = 5e3
        self.if_filter_decimation_rate = if_filter_decimation_rate = int(samp_rate/(1.1*if_bandwidth_1))
        self.sdr_power_offset = sdr_power_offset = 1.0
        self.sdr_gain_lin = sdr_gain_lin = 10**(sdr_gain/20)
        self.num_channels = num_channels = int((samp_rate/if_filter_decimation_rate)/integration_bandwidth)
        self.lna_gain_measured = lna_gain_measured = 33.33
        self.integration_time = integration_time = 10
        self.if_samp_rate = if_samp_rate = samp_rate/if_filter_decimation_rate
        self.cable_loss = cable_loss = 0.25
        self.variable_function_probe = variable_function_probe = 0
        self.sdr_frequency = sdr_frequency = 1420.406e6
        self.output_vector_bandwidth = output_vector_bandwidth = samp_rate/if_filter_decimation_rate
        self.offset_frequency = offset_frequency = if_bandwidth_1/2+1e5
        self.integration_scale_factor = integration_scale_factor = np.full((num_channels),float(1.0/(integration_time*integration_bandwidth*50)),dtype=float)
        self.integration_dec_rate = integration_dec_rate = int(integration_time*if_samp_rate/num_channels)
        self.if_filter_gain = if_filter_gain = 1/(lna_gain_measured*cable_loss*sdr_gain_lin*sdr_power_offset)
        self.if_bandwidth_0 = if_bandwidth_0 = 5.5e6
        self.channel_skirt = channel_skirt = integration_bandwidth/100
        self.channel_map = channel_map = range(int(num_channels/2.0+1.0),num_channels,1)+range(0,int(num_channels/2.0+1.0),1)
        self.antenna_gain_estimated = antenna_gain_estimated = 173

        ##################################################
        # Blocks
        ##################################################
        self.probe_signal = blocks.probe_signal_vf(num_channels)
        
        def _variable_function_probe_probe():
            while True:
                val = self.probe_signal.level()
                try:
                    self.set_variable_function_probe(val)
                except AttributeError:
                    pass
                time.sleep(1.0 / (10))
        _variable_function_probe_thread = threading.Thread(target=_variable_function_probe_probe)
        _variable_function_probe_thread.daemon = True
        _variable_function_probe_thread.start()
            
        self.pfb_channelizer_ccf_0 = pfb.channelizer_ccf(
              num_channels,
              (firdes.low_pass(1, if_samp_rate, (integration_bandwidth/2-channel_skirt), channel_skirt, firdes.WIN_HAMMING)),
              1.0,
              0)
        self.pfb_channelizer_ccf_0.set_channel_map((channel_map))
        self.pfb_channelizer_ccf_0.declare_sample_delay(0)
            
        self.low_pass_filter_1 = filter.fir_filter_ccf(if_filter_decimation_rate, firdes.low_pass(
            if_filter_gain, samp_rate, if_bandwidth_1/2, 1e5, firdes.WIN_HAMMING, 6.76))
        self.limesdr_source_2 = limesdr.source('0009060B00471B22',
                     2,
                     1,
                     0,
                     0,
                     '',
                     sdr_frequency-offset_frequency,
                     samp_rate,
                     0,
                     1,
                     15e6,
                     0,
                     10e6,
                     3,
                     2,
                     2,
                     1,
                     if_bandwidth_0,
                     1,
                     5e6,
                     1,
                     if_bandwidth_0,
                     0,
                     0,
                     sdr_gain,
                     30,
                     0,
                     0,
                     0,
                     0)
        self.blocks_streams_to_vector_0 = blocks.streams_to_vector(gr.sizeof_gr_complex*1, num_channels)
        self.blocks_multiply_xx_1 = blocks.multiply_vcc(1)
        self.blocks_multiply_const_vxx_0 = blocks.multiply_const_vff((integration_scale_factor))
        self.blocks_integrate_xx_0_0 = blocks.integrate_ff(integration_dec_rate, num_channels)
        self.blocks_file_sink_0 = blocks.file_sink(gr.sizeof_gr_complex*1, '/home/w1xm-admin/Documents/DSP/data_out/recieve_block_sink', False)
        self.blocks_file_sink_0.set_unbuffered(False)
        self.blocks_copy_0_0 = blocks.copy(gr.sizeof_gr_complex*1)
        self.blocks_copy_0_0.set_enabled(False)
        self.blocks_copy_0 = blocks.copy(gr.sizeof_gr_complex*1)
        self.blocks_copy_0.set_enabled(True)
        self.blocks_complex_to_mag_squared_0 = blocks.complex_to_mag_squared(num_channels)
        self.analog_sig_source_x_0 = analog.sig_source_c(samp_rate, analog.GR_SIN_WAVE, -offset_frequency, 1, 0)

        ##################################################
        # Connections
        ##################################################
        self.connect((self.analog_sig_source_x_0, 0), (self.blocks_multiply_xx_1, 1))    
        self.connect((self.blocks_complex_to_mag_squared_0, 0), (self.blocks_integrate_xx_0_0, 0))    
        self.connect((self.blocks_copy_0, 0), (self.blocks_multiply_xx_1, 0))    
        self.connect((self.blocks_copy_0_0, 0), (self.blocks_file_sink_0, 0))    
        self.connect((self.blocks_integrate_xx_0_0, 0), (self.blocks_multiply_const_vxx_0, 0))    
        self.connect((self.blocks_multiply_const_vxx_0, 0), (self.probe_signal, 0))    
        self.connect((self.blocks_multiply_xx_1, 0), (self.low_pass_filter_1, 0))    
        self.connect((self.blocks_streams_to_vector_0, 0), (self.blocks_complex_to_mag_squared_0, 0))    
        self.connect((self.limesdr_source_2, 0), (self.blocks_copy_0, 0))    
        self.connect((self.limesdr_source_2, 0), (self.blocks_copy_0_0, 0))    
        self.connect((self.low_pass_filter_1, 0), (self.pfb_channelizer_ccf_0, 0))    
        
        for i in range(num_channels):
            self.connect((self.pfb_channelizer_ccf_0, i), (self.blocks_streams_to_vector_0, i))
コード例 #40
0
ファイル: top_block.py プロジェクト: CRL-Purdue/vip-sdr
    def __init__(self):
        gr.top_block.__init__(self, "Top Block")
        Qt.QWidget.__init__(self)
        self.setWindowTitle("Top Block")
        try:
             self.setWindowIcon(Qt.QIcon.fromTheme('gnuradio-grc'))
        except:
             pass
        self.top_scroll_layout = Qt.QVBoxLayout()
        self.setLayout(self.top_scroll_layout)
        self.top_scroll = Qt.QScrollArea()
        self.top_scroll.setFrameStyle(Qt.QFrame.NoFrame)
        self.top_scroll_layout.addWidget(self.top_scroll)
        self.top_scroll.setWidgetResizable(True)
        self.top_widget = Qt.QWidget()
        self.top_scroll.setWidget(self.top_widget)
        self.top_layout = Qt.QVBoxLayout(self.top_widget)
        self.top_grid_layout = Qt.QGridLayout()
        self.top_layout.addLayout(self.top_grid_layout)

        self.settings = Qt.QSettings("GNU Radio", "top_block")
        self.restoreGeometry(self.settings.value("geometry").toByteArray())


        ##################################################
        # Variables
        ##################################################
        self.samp_rate = samp_rate = 16000
        self.repeat = repeat = samp_rate/80

        ##################################################
        # Blocks
        ##################################################
        self.qtgui_time_sink_x_0_0 = qtgui.time_sink_f(
        	1024, #size
        	samp_rate, #samp_rate
        	"", #name
        	1 #number of inputs
        )
        self.qtgui_time_sink_x_0_0.set_update_time(0.10)
        self.qtgui_time_sink_x_0_0.set_y_axis(-1, 1)
        
        self.qtgui_time_sink_x_0_0.set_y_label("Amplitude", "")
        
        self.qtgui_time_sink_x_0_0.enable_tags(-1, True)
        self.qtgui_time_sink_x_0_0.set_trigger_mode(qtgui.TRIG_MODE_FREE, qtgui.TRIG_SLOPE_POS, 0.0, 0, 0, "")
        self.qtgui_time_sink_x_0_0.enable_autoscale(True)
        self.qtgui_time_sink_x_0_0.enable_grid(False)
        
        labels = ["", "", "", "", "",
                  "", "", "", "", ""]
        widths = [1, 1, 1, 1, 1,
                  1, 1, 1, 1, 1]
        colors = ["blue", "red", "green", "black", "cyan",
                  "magenta", "yellow", "dark red", "dark green", "blue"]
        styles = [1, 1, 1, 1, 1,
                  1, 1, 1, 1, 1]
        markers = [-1, -1, -1, -1, -1,
                   -1, -1, -1, -1, -1]
        alphas = [1.0, 1.0, 1.0, 1.0, 1.0,
                  1.0, 1.0, 1.0, 1.0, 1.0]
        
        for i in xrange(1):
            if len(labels[i]) == 0:
                self.qtgui_time_sink_x_0_0.set_line_label(i, "Data {0}".format(i))
            else:
                self.qtgui_time_sink_x_0_0.set_line_label(i, labels[i])
            self.qtgui_time_sink_x_0_0.set_line_width(i, widths[i])
            self.qtgui_time_sink_x_0_0.set_line_color(i, colors[i])
            self.qtgui_time_sink_x_0_0.set_line_style(i, styles[i])
            self.qtgui_time_sink_x_0_0.set_line_marker(i, markers[i])
            self.qtgui_time_sink_x_0_0.set_line_alpha(i, alphas[i])
        
        self._qtgui_time_sink_x_0_0_win = sip.wrapinstance(self.qtgui_time_sink_x_0_0.pyqwidget(), Qt.QWidget)
        self.top_layout.addWidget(self._qtgui_time_sink_x_0_0_win)
        self.blocks_unpacked_to_packed_xx_1 = blocks.unpacked_to_packed_bb(8, gr.GR_MSB_FIRST)
        self.blocks_unpack_k_bits_bb_0 = blocks.unpack_k_bits_bb(8)
        self.blocks_uchar_to_float_0_0_0 = blocks.uchar_to_float()
        self.blocks_uchar_to_float_0 = blocks.uchar_to_float()
        self.blocks_throttle_0 = blocks.throttle(gr.sizeof_char*1, samp_rate,True)
        self.blocks_short_to_float_0 = blocks.short_to_float(1, 1)
        self.blocks_short_to_char_0 = blocks.short_to_char(1)
        self.blocks_rms_xx_0_0 = blocks.rms_ff(1)
        self.blocks_rms_xx_0 = blocks.rms_ff(1)
        self.blocks_repeat_0 = blocks.repeat(gr.sizeof_char*1, repeat)
        self.blocks_repack_bits_bb_0 = blocks.repack_bits_bb(1, 8, "", False, gr.GR_MSB_FIRST)
        self.blocks_null_sink_1 = blocks.null_sink(gr.sizeof_short*1)
        self.blocks_null_sink_0 = blocks.null_sink(gr.sizeof_float*1)
        self.blocks_multiply_xx_0_2 = blocks.multiply_vff(1)
        self.blocks_multiply_xx_0_1 = blocks.multiply_vff(1)
        self.blocks_multiply_xx_0_0 = blocks.multiply_vff(1)
        self.blocks_multiply_xx_0 = blocks.multiply_vff(1)
        self.blocks_multiply_const_vxx_0 = blocks.multiply_const_vss((256, ))
        self.blocks_integrate_xx_1 = blocks.integrate_ff(repeat)
        self.blocks_integrate_xx_0_1 = blocks.integrate_ff(repeat)
        self.blocks_integrate_xx_0_0 = blocks.integrate_ff(repeat)
        self.blocks_integrate_xx_0 = blocks.integrate_ff(repeat)
        self.blocks_float_to_uchar_0 = blocks.float_to_uchar()
        self.blocks_file_source_0 = blocks.file_source(gr.sizeof_short*1, "/home/sidekiq/Documents/Documentation_SDR/sdr.in", True)
        self.blocks_file_sink_0_0 = blocks.file_sink(gr.sizeof_char*1, "/home/sidekiq/Documents/Documentation_SDR/text_output", False)
        self.blocks_file_sink_0_0.set_unbuffered(True)
        self.blocks_complex_to_float_0 = blocks.complex_to_float(1)
        self.blocks_argmax_xx_0 = blocks.argmax_fs(1)
        self.blocks_add_xx_0_0 = blocks.add_vff(1)
        self.blocks_add_xx_0 = blocks.add_vff(1)
        self.blocks_add_const_vxx_0 = blocks.add_const_vff((1, ))
        self.blocks_abs_xx_0_2 = blocks.abs_ff(1)
        self.blocks_abs_xx_0_1 = blocks.abs_ff(1)
        self.blocks_abs_xx_0_0 = blocks.abs_ff(1)
        self.blocks_abs_xx_0 = blocks.abs_ff(1)
        self.blks2_packet_encoder_0 = grc_blks2.packet_mod_b(grc_blks2.packet_encoder(
        		samples_per_symbol=1,
        		bits_per_symbol=1,
        		preamble="11111000",
        		access_code="11111111",
        		pad_for_usrp=False,
        	),
        	payload_length=1,
        )
        self.blks2_packet_decoder_0 = grc_blks2.packet_demod_b(grc_blks2.packet_decoder(
        		access_code="",
        		threshold=-1,
        		callback=lambda ok, payload: self.blks2_packet_decoder_0.recv_pkt(ok, payload),
        	),
        )
        self.audio_sink_1 = audio.sink(16000, "", True)
        self.analog_sig_source_x_1 = analog.sig_source_f(samp_rate, analog.GR_COS_WAVE, 1330, 1, 0)
        self.analog_sig_source_x_0_1 = analog.sig_source_f(samp_rate, analog.GR_SIN_WAVE, 1330, 1, 0)
        self.analog_sig_source_x_0_0 = analog.sig_source_f(samp_rate, analog.GR_SIN_WAVE, 2720, 1, 0)
        self.analog_sig_source_x_0 = analog.sig_source_f(samp_rate, analog.GR_COS_WAVE, 2720, 1, 0)
        self.analog_frequency_modulator_fc_0 = analog.frequency_modulator_fc(100)

        ##################################################
        # Connections
        ##################################################
        self.connect((self.analog_frequency_modulator_fc_0, 0), (self.blocks_complex_to_float_0, 0))    
        self.connect((self.analog_sig_source_x_0, 0), (self.blocks_multiply_xx_0_0, 0))    
        self.connect((self.analog_sig_source_x_0_0, 0), (self.blocks_multiply_xx_0_2, 0))    
        self.connect((self.analog_sig_source_x_0_1, 0), (self.blocks_multiply_xx_0_1, 0))    
        self.connect((self.analog_sig_source_x_1, 0), (self.blocks_multiply_xx_0, 0))    
        self.connect((self.blks2_packet_decoder_0, 0), (self.blocks_unpacked_to_packed_xx_1, 0))    
        self.connect((self.blks2_packet_encoder_0, 0), (self.blocks_unpack_k_bits_bb_0, 0))    
        self.connect((self.blocks_abs_xx_0, 0), (self.blocks_add_xx_0, 0))    
        self.connect((self.blocks_abs_xx_0_0, 0), (self.blocks_add_xx_0_0, 0))    
        self.connect((self.blocks_abs_xx_0_1, 0), (self.blocks_add_xx_0, 1))    
        self.connect((self.blocks_abs_xx_0_2, 0), (self.blocks_add_xx_0_0, 1))    
        self.connect((self.blocks_add_const_vxx_0, 0), (self.analog_frequency_modulator_fc_0, 0))    
        self.connect((self.blocks_add_xx_0, 0), (self.blocks_rms_xx_0, 0))    
        self.connect((self.blocks_add_xx_0_0, 0), (self.blocks_rms_xx_0_0, 0))    
        self.connect((self.blocks_argmax_xx_0, 0), (self.blocks_null_sink_1, 0))    
        self.connect((self.blocks_argmax_xx_0, 1), (self.blocks_short_to_float_0, 0))    
        self.connect((self.blocks_complex_to_float_0, 1), (self.audio_sink_1, 0))    
        self.connect((self.blocks_complex_to_float_0, 1), (self.blocks_multiply_xx_0, 1))    
        self.connect((self.blocks_complex_to_float_0, 1), (self.blocks_multiply_xx_0_0, 1))    
        self.connect((self.blocks_complex_to_float_0, 1), (self.blocks_multiply_xx_0_1, 1))    
        self.connect((self.blocks_complex_to_float_0, 1), (self.blocks_multiply_xx_0_2, 1))    
        self.connect((self.blocks_complex_to_float_0, 0), (self.blocks_null_sink_0, 0))    
        self.connect((self.blocks_file_source_0, 0), (self.blocks_multiply_const_vxx_0, 0))    
        self.connect((self.blocks_float_to_uchar_0, 0), (self.blks2_packet_decoder_0, 0))    
        self.connect((self.blocks_integrate_xx_0, 0), (self.blocks_abs_xx_0_2, 0))    
        self.connect((self.blocks_integrate_xx_0_0, 0), (self.blocks_abs_xx_0, 0))    
        self.connect((self.blocks_integrate_xx_0_1, 0), (self.blocks_abs_xx_0_0, 0))    
        self.connect((self.blocks_integrate_xx_1, 0), (self.blocks_abs_xx_0_1, 0))    
        self.connect((self.blocks_multiply_const_vxx_0, 0), (self.blocks_short_to_char_0, 0))    
        self.connect((self.blocks_multiply_xx_0, 0), (self.blocks_integrate_xx_0, 0))    
        self.connect((self.blocks_multiply_xx_0_0, 0), (self.blocks_integrate_xx_1, 0))    
        self.connect((self.blocks_multiply_xx_0_1, 0), (self.blocks_integrate_xx_0_1, 0))    
        self.connect((self.blocks_multiply_xx_0_2, 0), (self.blocks_integrate_xx_0_0, 0))    
        self.connect((self.blocks_repack_bits_bb_0, 0), (self.blks2_packet_encoder_0, 0))    
        self.connect((self.blocks_repack_bits_bb_0, 0), (self.blocks_uchar_to_float_0_0_0, 0))    
        self.connect((self.blocks_repeat_0, 0), (self.blocks_throttle_0, 0))    
        self.connect((self.blocks_rms_xx_0, 0), (self.blocks_argmax_xx_0, 1))    
        self.connect((self.blocks_rms_xx_0_0, 0), (self.blocks_argmax_xx_0, 0))    
        self.connect((self.blocks_short_to_char_0, 0), (self.blocks_repack_bits_bb_0, 0))    
        self.connect((self.blocks_short_to_float_0, 0), (self.blocks_float_to_uchar_0, 0))    
        self.connect((self.blocks_throttle_0, 0), (self.blocks_uchar_to_float_0, 0))    
        self.connect((self.blocks_uchar_to_float_0, 0), (self.blocks_add_const_vxx_0, 0))    
        self.connect((self.blocks_uchar_to_float_0_0_0, 0), (self.qtgui_time_sink_x_0_0, 0))    
        self.connect((self.blocks_unpack_k_bits_bb_0, 0), (self.blocks_repeat_0, 0))    
        self.connect((self.blocks_unpacked_to_packed_xx_1, 0), (self.blocks_file_sink_0_0, 0))    
コード例 #41
0
    def __init__(self,
                 ask_samp_rate=4E6,
                 num_demod=4,
                 hw_args="uhd",
                 record=True):
        # Call the initialization method from the parent class
        gr.top_block.__init__(self, "Receiver")

        # Default values
        self.center_freq = 144E6
        self.gain_db = 10
        self.squelch_db = -70
        self.volume_db = 0
        audio_rate = 8000

        # Setup the USRP source, or use the USRP sim
        self.src = osmosdr.source(args="numchan=" + str(1) + " " + hw_args)
        self.src.set_sample_rate(ask_samp_rate)
        self.src.set_gain(self.gain_db)
        self.src.set_center_freq(self.center_freq)

        # Get the sample rate and center frequency from the hardware
        self.samp_rate = self.src.get_sample_rate()
        self.center_freq = self.src.get_center_freq()

        # Set the I/Q bandwidth to 80 % of sample rate
        self.src.set_bandwidth(0.8 * self.samp_rate)

        # NBFM channel is about 10 KHz wide
        # Want  about 3 FFT bins to span a channel
        # Use length FFT so 4 Msps / 1024 = 3906.25 Hz/bin
        # This also means 3906.25 vectors/second
        # Using below formula keeps FFT size a power of two
        # Also keeps bin size constant for power of two sampling rates
        # Use of 256 sets 3906.25 Hz/bin; increase to reduce bin size
        samp_ratio = self.samp_rate / 1E6
        fft_length = 256 * int(pow(2, np.ceil(np.log(samp_ratio) / np.log(2))))

        # -----------Flow for FFT--------------

        # Convert USRP steam to vector
        stream_to_vector = blocks.stream_to_vector(gr.sizeof_gr_complex * 1,
                                                   fft_length)

        # Want about 1000 vector/sec
        amount = int(round(self.samp_rate / fft_length / 1000))
        keep_one_in_n = blocks.keep_one_in_n(gr.sizeof_gr_complex * fft_length,
                                             amount)

        # Take FFT
        fft_vcc = fft.fft_vcc(fft_length, True,
                              window.blackmanharris(fft_length), True, 1)

        # Compute the power
        complex_to_mag_squared = blocks.complex_to_mag_squared(fft_length)

        # Video average and decimate from 1000 vector/sec to 10 vector/sec
        integrate_ff = blocks.integrate_ff(100, fft_length)

        # Probe vector
        self.probe_signal_vf = blocks.probe_signal_vf(fft_length)

        # Connect the blocks
        self.connect(self.src, stream_to_vector, keep_one_in_n, fft_vcc,
                     complex_to_mag_squared, integrate_ff,
                     self.probe_signal_vf)

        # -----------Flow for Demod--------------

        # Create N parallel demodulators as a list of objects
        self.demodulators = []
        for idx in range(num_demod):
            self.demodulators.append(
                TunerDemod(self.samp_rate, audio_rate, record))

        # Create an adder
        add_ff = blocks.add_ff(1)

        # Connect the demodulators between the source and adder
        for idx, demodulator in enumerate(self.demodulators):
            self.connect(self.src, demodulator, (add_ff, idx))

        # Audio sink
        audio_sink = audio.sink(audio_rate)

        # Connect the blocks for the demod
        self.connect(add_ff, audio_sink)
コード例 #42
0
ファイル: demod2.py プロジェクト: jswo/tetrapol-kit
  def __init__(self):
    gr.top_block.__init__(self)

    bitrate = 8000
    channel_bw = 12500
    chan0_freq = 358400000


    options = get_options()

    self.rfgain = options.gain

    self.channels = [ int(ch) for ch in options.channels.split(',') if ch ]
    self.ch_freqs = [ ch * channel_bw + chan0_freq for ch in self.channels ]
    self.ch_freqs.extend(
            [ int(f) for f in options.channels_by_freq.split(',') if f ])
    while len(self.channels) < len(self.ch_freqs):
        self.channels.append(-1)

    if options.frequency is None:
        self.ifreq = (max(self.ch_freqs) + min(self.ch_freqs)) / 2 / channel_bw * channel_bw
    else:
        self.ifreq = options.frequency

    ch0 = (self.ifreq - chan0_freq ) / channel_bw
    n = options.sample_rate / channel_bw
    s = options.sample_rate / bitrate / 2
    c = ''
    for ch in range(0,len(self.channels)):
        c = c + '%i,'%((self.channels[ch] - ch0)%n)
    c=c[:-1]

    self.src = osmosdr.source(options.args)
    self.src.set_center_freq(self.ifreq)
    self.src.set_sample_rate(options.sample_rate)
    self.src.set_freq_corr(options.ppm, 0)

    fcl_args = ['./fcl', '-n', '%i'%n, '-s', '%i'%s, '-t', '2', '-c', '%s'%c, '-f', './fir.py %i 7900 2000 rcos'%options.sample_rate, '-o', '/dev/stdout']
    sys.stderr.write(string.join(fcl_args))
    self.fcl = subprocess.Popen(fcl_args, stdin=subprocess.PIPE, stdout=subprocess.PIPE)
    self.fcl_in = blocks.file_descriptor_sink(gr.sizeof_gr_complex*1, self.fcl.stdin.fileno())
    self.fcl_out = blocks.file_descriptor_source(gr.sizeof_gr_complex*1, self.fcl.stdout.fileno(), False)
    self.deinterleave = blocks.deinterleave(gr.sizeof_gr_complex*1, 1)

    self.connect((self.src, 0), (self.fcl_in, 0))
    self.connect((self.fcl_out, 0), (self.deinterleave, 0))

    if self.rfgain is None:
        self.src.set_gain_mode(True, 0)
        self.iagc = 1
        self.rfgain = 0
    else:
        self.iagc = 0
        self.src.set_gain_mode(False)
        self.src.set_gain(-9.7)
        self.src.set_gain(self.rfgain)
        self.src.set_if_gain(37)

    # may differ from the requested rate
    sample_rate = int(self.src.get_sample_rate())
    sys.stderr.write("sample rate: %d\n" % (sample_rate))

    first_decim = int(options.sample_rate / bitrate / 2)
    sys.stderr.write("decim: %d\n" % (first_decim))

    out_sample_rate=sample_rate/first_decim
    sys.stderr.write("output sample rate: %d\n" % (out_sample_rate))

    sps=out_sample_rate/bitrate
    sys.stderr.write("samples per symbol: %d\n" % (sps))

    self.tuners = []
    self.afc_probes = []
    if len(self.channels) != 1:
        if options.output_file:
            if options.output_file.find('%%') == -1:
                raise ValueError('Output name template missing "%%".')
        elif options.output_pipe:
            if options.output_pipe.find('%%') == -1:
                raise ValueError('Output name template missing "%%".')
        else:
            raise ValueError('WTF')
    for ch in range(0,len(self.channels)):
        bw = (9200 + options.afc_ppm_threshold)/2
        taps = filter.firdes.low_pass(1.0,out_sample_rate, bw, bw*options.transition_width, filter.firdes.WIN_HANN)
#        offset = self.ch_freqs[ch] - self.ifreq
        offset = 0
        sys.stderr.write("channel[%d]: %d frequency=%d, offset=%d Hz\n" % (ch, self.channels[ch], self.ch_freqs[ch], offset))


        tuner = filter.freq_xlating_fir_filter_ccc(1, taps, offset, out_sample_rate)
        self.tuners.append(tuner)

        demod = digital.gmsk_demod(samples_per_symbol=sps)

        fname = self.channels[ch]
        if fname == -1:
            fname = self.ch_freqs[ch]
        if options.output_pipe is None:
            file = options.output_file.replace('%%', str(fname))
            output = blocks.file_sink(gr.sizeof_char, file)
        else:
            cmd = options.output_pipe.replace('%%', str(fname))
            pipe = subprocess.Popen(cmd, stdin=subprocess.PIPE, shell=True)
            fd = pipe.stdin.fileno()
            output = blocks.file_descriptor_sink(gr.sizeof_char, fd)

        self.connect((self.deinterleave, ch), (tuner, 0))
        self.connect((tuner, 0), (demod, 0))
        self.connect((demod, 0), (output, 0))

        afc_decimation = 32000
        afc_demod = analog.quadrature_demod_cf(sample_rate/first_decim/(2*math.pi*afc_decimation))
        integrate = blocks.integrate_ff(afc_decimation)
        afc_probe = blocks.probe_signal_f()
        self.afc_probes.append(afc_probe)

        self.connect((tuner, 0), (afc_demod,0))
        self.connect((afc_demod, 0), (integrate,0))
        self.connect((integrate, 0), (afc_probe, 0))

    def _variable_function_probe_0_probe():
        while True:
            time.sleep(options.afc_period)
            for ch in range(0,len(self.channels)):
                err = self.afc_probes[ch].level()
                if abs(err) < options.afc_ppm_threshold:
                    continue
                freq = self.tuners[ch].center_freq() + err * options.afc_gain
                self.tuners[ch].set_center_freq(freq)
                if self.channels[ch] == -1:
                    sys.stderr.write("Freq %d freq err: %5.0f\tfreq: %f\n" % (self.ch_freqs[ch], err, freq))
                else:
                    sys.stderr.write("Chan %d freq err: %5.0f\tfreq: %f\n" % (self.channels[ch], err, freq))
            sys.stderr.write("\n")
    _variable_function_probe_0_thread = threading.Thread(target=_variable_function_probe_0_probe)
    _variable_function_probe_0_thread.daemon = True
    _variable_function_probe_0_thread.start()