Ejemplos de extract_occupied_tones_vcvc en Python

Ejemplo n.º 1

    def __init__(self, fftl):
        """
        This hierarchical block has a complex input and complex output stream. The actual data remains unchanged.
        The N_id_2 or cell ID number is calculated.
        Based on the position of the PSS the frame structure is calculated on a half frame basis and tagged to the output stream together with N_id_2
        A tag with the slot number within a half frame is tagged at the beginning of every slot. (key = slot)
        A tag with the N_id_2 is tagged at the beginning of every half frame. (Corresponds to slot 0) (key = N_id_2)
        The input data must be tagged with information for symbols. (key = symbol)
        the tag propagation policy is set to TPP_DONT.
	    """
        gr.hier_block2.__init__(
            self,
            "hier_pss_sync_cc",
            gr.io_signature(1, 1, gr.sizeof_gr_complex),  # Input signature
            gr.io_signature(1, 1, gr.sizeof_gr_complex))  # Output signature

        # This is a fixed value due to the fact that the PSS is always located at the 62 center carriers.
        N_rb_dl = 6

        self.tag = lte.pss_tagging_cc(fftl)

        self.sel = lte.pss_selector_cvc(fftl)
        self.fft = gr.fft_vcc(fftl, True, window.rectangular(fftl), False, 1)
        self.ext = lte.extract_occupied_tones_vcvc(N_rb_dl, fftl)
        self.calc = lte.pss_calc_vc(self.tag, self.sel, fftl)

        # Define blocks
        self.connect(self, self.tag, self)
        self.connect(self, self.sel, self.fft, self.ext, self.calc)

Ejemplo n.º 2

Archivo: hier_pss_sync_cc.py Proyecto: a4a881d4/gr-lte

    def __init__(self, fftl):
        """
        This hierarchical block has a complex input and complex output stream. The actual data remains unchanged.
        The N_id_2 or cell ID number is calculated.
        Based on the position of the PSS the frame structure is calculated on a half frame basis and tagged to the output stream together with N_id_2
        A tag with the slot number within a half frame is tagged at the beginning of every slot. (key = slot)
        A tag with the N_id_2 is tagged at the beginning of every half frame. (Corresponds to slot 0) (key = N_id_2)
        The input data must be tagged with information for symbols. (key = symbol)
        the tag propagation policy is set to TPP_DONT.
	    """
        gr.hier_block2.__init__(self, "hier_pss_sync_cc",
				gr.io_signature(1,1, gr.sizeof_gr_complex),  # Input signature
				gr.io_signature(1,1, gr.sizeof_gr_complex)) # Output signature

        
        # This is a fixed value due to the fact that the PSS is always located at the 62 center carriers.
        N_rb_dl = 6;
        
        
        
        self.tag = lte.pss_tagging_cc(fftl)
        
        self.sel  = lte.pss_selector_cvc(fftl)
        self.fft  = gr.fft_vcc(fftl,True,window.rectangular(fftl),False,1)
        self.ext  = lte.extract_occupied_tones_vcvc(N_rb_dl,fftl)
        self.calc = lte.pss_calc_vc(self.tag,self.sel,fftl)
        
        # Define blocks
        self.connect(self, self.tag, self)
        self.connect(self, self.sel, self.fft, self.ext, self.calc)

Ejemplo n.º 3

Archivo: qa_lte_extract_occupied_tones_vcvc.py Proyecto: armuk/gr-lte

 def setUp (self):
     self.tb = gr.top_block ()
     
     self.N_rb_dl = N_rb_dl = 6
     self.fftl = fftl = 512
             
     intu1 = range(fftl)
     self.src = gr.vector_source_c(intu1,False,fftl)
     self.ext = lte_swig.extract_occupied_tones_vcvc(N_rb_dl,fftl)
     self.snk = gr.vector_sink_c(12*N_rb_dl)
     
     self.tb.connect(self.src,self.ext,self.snk)

Ejemplo n.º 4

Archivo: hier_sss_sync2_vcvc.py Proyecto: vidyadharreddy/gr-lte

    def __init__(self, daemon, fftl):
        """
        This is a hierarchical block to structure the SSS synchronization
        This version of the SSS Sync is meant to operate after the FFT
	    """
        gr.hier_block2.__init__(
            self,
            "hier_sss_sync2_vcvc",
            gr.io_signature(1, 1, (gr.sizeof_gr_complex) * fftl),  # Input signature
            gr.io_signature(1, 1, (gr.sizeof_gr_complex) * fftl),
        )  # Output signature

        # self.message_port_register_hier_in("cell_id")
        # Define blocks
        N_rb_dl = 6
        self.tag = lte.sss_tagging2_vcvc(fftl)
        self.ext = lte.extract_occupied_tones_vcvc(N_rb_dl, fftl)
        self.calc = lte.sss_calc2_vc(self.tag, daemon, fftl)

        self.connect(self, self.tag, self)
        self.connect(self, self.ext, self.calc)

Ejemplo n.º 5

Archivo: qa_lte_pss_calc_vc.py Proyecto: armuk/gr-lte

 def setUp (self):
     self.tb = gr.top_block ()
     
     #print os.getpid()
     #raw_input("Press the ANY key!")
     
     offset = 43223  #sample15 = 21839 #sample20 = 43223
     fftl = 512
     cell_id = 124
     N_rb_dl = 6
     
     intu = [1.0] * 100 * fftl        
     self.src  = gr.vector_source_c(intu,False,1)
     self.tag  = lte_swig.tag_symbol_cc(offset,fftl)
     self.sel  = lte_swig.pss_selector_cvc(fftl)
     self.fft  = gr.fft_vcc(fftl,True,window.rectangular(fftl),False,1)
     self.ext  = lte_swig.extract_occupied_tones_vcvc(N_rb_dl,fftl)
     
     self.tagp = lte.pss_tagging_cc(fftl) # Dummy
     self.calc = lte.pss_calc_vc(self.tagp,self.sel,fftl)
     #self.snk = gr.vector_sink_c(fftl)
     
     self.tb.connect(self.src, self.tag, self.sel, self.fft, self.ext, self.calc)

Ejemplo n.º 6

Archivo: LTE_flowgraph.py Proyecto: LucaBongiorni/gr-lte

	def __init__(self):
		gr.top_block.__init__(self, "LTE flowgraph")
		Qt.QWidget.__init__(self)
		self.setWindowTitle("LTE flowgraph")
		self.setWindowIcon(Qt.QIcon.fromTheme('gnuradio-grc'))
		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)


		##################################################
		# Variables
		##################################################
		self.fftlen = fftlen = 512
		self.cpl0 = cpl0 = 160*fftlen/2048
		self.cpl = cpl = 144*fftlen/2048
		self.slotl = slotl = 7*fftlen+6*cpl+cpl0
		self.samp_rate = samp_rate = slotl/0.0005
		self.style = style = "tx_diversity"
		self.interp_val = interp_val = int(samp_rate/1e4)
		self.N_rb_dl = N_rb_dl = 6

		##################################################
		# Blocks
		##################################################
		self.eq = lte.linear_OFDM_equalizer_hier_vcvc(N_rb_dl)
		self.descr = lte.descrambling_vfvf()
		self.demux = lte.pbch_demux_vcvc(N_rb_dl)
		self.daemon = lte.cell_id_daemon(self.eq.eq, self.demux, self.descr)
		self.qtgui_sink_x_0 = qtgui.sink_c(
			1024, #fftsize
			firdes.WIN_BLACKMAN_hARRIS, #wintype
			0, #fc
			samp_rate, #bw
			"QT GUI Plot", #name
			True, #plotfreq
			True, #plotwaterfall
			True, #plottime
			True, #plotconst
		)
		self._qtgui_sink_x_0_win = sip.wrapinstance(self.qtgui_sink_x_0.pyqwidget(), Qt.QWidget)
		self.top_layout.addWidget(self._qtgui_sink_x_0_win)
		self.lte_viterbi_vfvb_0 = lte.viterbi_vfvb()
		self.lte_remove_cp_cvc_1 = lte.remove_cp_cvc(fftlen)
		self.lte_rate_unmatch_vff_0 = lte.rate_unmatch_vff()
		self.lte_qpsk_soft_demod_vcvf_0 = lte.qpsk_soft_demod_vcvf()
		self.lte_pss_sync_hier_cc_0 = lte.pss_sync_hier_cc(fftlen)
		self.lte_pre_decoder_vcvc_0_0 = lte.pre_decoder_vcvc(2, style)
		self.lte_pre_decoder_vcvc_0 = lte.pre_decoder_vcvc(1, style)
		self.lte_mib_unpack_vb_0 = lte.mib_unpack_vb()
		self.lte_layer_demapper_vcvc_0_0 = lte.layer_demapper_vcvc(2, style)
		self.lte_layer_demapper_vcvc_0 = lte.layer_demapper_vcvc(1, style)
		self.lte_hier_sss_sync_cc_0 = lte.hier_sss_sync_cc(self.daemon, fftlen)
		self.lte_hier_freq_estimate_cc_0 = lte.hier_freq_estimate_cc(fftlen)
		self.lte_extract_occupied_tones_vcvc_0 = lte.extract_occupied_tones_vcvc(N_rb_dl,fftlen)
		self.lte_crc_calculator_vbvb_0 = lte.crc_calculator_vbvb()
		self.lte_cp_time_freq_sync_cc_0 = lte.cp_time_freq_sync_cc(fftlen)
		self.gr_vector_to_stream_0 = gr.vector_to_stream(gr.sizeof_gr_complex*1, 240)
		self.gr_throttle_0 = gr.throttle(gr.sizeof_gr_complex*1, samp_rate)
		self.gr_interleave_0 = gr.interleave(gr.sizeof_gr_complex*240)
		self.gr_file_source_0 = gr.file_source(gr.sizeof_gr_complex*1, "/home/demel/Dokumente/Messungen_31_10_2012/samples_12.5MSps_20dB.iq", False)
		self.fft_vxx_0 = fft.fft_vcc(fftlen, True, (window.rectangular(fftlen)), False, 1)
		self.blks2_rational_resampler_xxx_0 = blks2.rational_resampler_ccc(
			interpolation=interp_val,
			decimation=1250,
			taps=None,
			fractional_bw=None,
		)

		##################################################
		# Connections
		##################################################
		self.connect((self.gr_file_source_0, 0), (self.blks2_rational_resampler_xxx_0, 0))
		self.connect((self.blks2_rational_resampler_xxx_0, 0), (self.gr_throttle_0, 0))
		self.connect((self.lte_hier_freq_estimate_cc_0, 0), (self.lte_hier_sss_sync_cc_0, 0))
		self.connect((self.lte_pss_sync_hier_cc_0, 0), (self.lte_hier_freq_estimate_cc_0, 0))
		self.connect((self.lte_cp_time_freq_sync_cc_0, 0), (self.lte_pss_sync_hier_cc_0, 0))
		self.connect((self.gr_throttle_0, 0), (self.lte_cp_time_freq_sync_cc_0, 0))
		self.connect((self.lte_hier_sss_sync_cc_0, 0), (self.lte_remove_cp_cvc_1, 0))
		self.connect((self.fft_vxx_0, 0), (self.lte_extract_occupied_tones_vcvc_0, 0))
		self.connect((self.lte_remove_cp_cvc_1, 0), (self.fft_vxx_0, 0))
		self.connect((self.lte_extract_occupied_tones_vcvc_0, 0), (self.eq, 0))
		self.connect((self.lte_pre_decoder_vcvc_0, 0), (self.lte_layer_demapper_vcvc_0, 0))
		self.connect((self.eq, 0), (self.demux, 0))
		self.connect((self.eq, 1), (self.demux, 1))
		self.connect((self.eq, 2), (self.demux, 2))
		self.connect((self.lte_pre_decoder_vcvc_0_0, 0), (self.lte_layer_demapper_vcvc_0_0, 0))
		self.connect((self.lte_layer_demapper_vcvc_0_0, 0), (self.gr_interleave_0, 1))
		self.connect((self.demux, 1), (self.lte_pre_decoder_vcvc_0_0, 1))
		self.connect((self.demux, 1), (self.lte_pre_decoder_vcvc_0, 1))
		self.connect((self.demux, 0), (self.lte_pre_decoder_vcvc_0, 0))
		self.connect((self.demux, 2), (self.lte_pre_decoder_vcvc_0_0, 2))
		self.connect((self.demux, 0), (self.lte_pre_decoder_vcvc_0_0, 0))
		self.connect((self.lte_qpsk_soft_demod_vcvf_0, 0), (self.descr, 0))
		self.connect((self.gr_interleave_0, 0), (self.lte_qpsk_soft_demod_vcvf_0, 0))
		self.connect((self.lte_layer_demapper_vcvc_0, 0), (self.gr_interleave_0, 0))
		self.connect((self.descr, 0), (self.lte_rate_unmatch_vff_0, 0))
		self.connect((self.lte_crc_calculator_vbvb_0, 1), (self.lte_mib_unpack_vb_0, 1))
		self.connect((self.lte_crc_calculator_vbvb_0, 0), (self.lte_mib_unpack_vb_0, 0))
		self.connect((self.lte_viterbi_vfvb_0, 0), (self.lte_crc_calculator_vbvb_0, 0))
		self.connect((self.lte_rate_unmatch_vff_0, 0), (self.lte_viterbi_vfvb_0, 0))
		self.connect((self.gr_interleave_0, 0), (self.gr_vector_to_stream_0, 0))
		self.connect((self.gr_vector_to_stream_0, 0), (self.qtgui_sink_x_0, 0))

Ejemplo n.º 7

Archivo: LTE_flowgraph.py Proyecto: HounD/gr-lte

	def __init__(self):
		gr.top_block.__init__(self, "LTE flowgraph")

		##################################################
		# Variables
		##################################################
		self.fftlen = fftlen = 2048
		self.cpl0 = cpl0 = 160*fftlen/2048
		self.cpl = cpl = 144*fftlen/2048
		self.slotl = slotl = 7*fftlen+6*cpl+cpl0
		self.samp_rate = samp_rate = slotl/0.0005
		self.style = style = "tx_diversity"
		self.interp_val = interp_val = int(samp_rate/1e4)
		self.N_rb_dl = N_rb_dl = 6

		##################################################
		# Blocks
		##################################################
		self.eq = lte.linear_OFDM_estimator_hier_vcvc(N_rb_dl)
		self.descr = lte.descrambling_vfvf()
		self.demux = lte.pbch_demux_vcvc(N_rb_dl)
		self.daemon = lte.cell_id_daemon(self.eq.eq, self.demux, self.descr)
		self.lte_viterbi_vfvb_0 = lte.viterbi_vfvb()
		self.lte_remove_cp_cvc_1 = lte.remove_cp_cvc(fftlen)
		self.lte_rate_unmatch_vff_0 = lte.rate_unmatch_vff()
		self.lte_qpsk_soft_demod_vcvf_0 = lte.qpsk_soft_demod_vcvf()
		self.lte_pre_decoder_vcvc_0_0 = lte.pre_decoder_vcvc(2, style)
		self.lte_pre_decoder_vcvc_0 = lte.pre_decoder_vcvc(1, style)
		self.lte_mib_unpack_vb_0 = lte.mib_unpack_vb()
		self.lte_layer_demapper_vcvc_0_0 = lte.layer_demapper_vcvc(2, style)
		self.lte_layer_demapper_vcvc_0 = lte.layer_demapper_vcvc(1, style)
		self.lte_hier_sss_sync_cc_0 = lte.hier_sss_sync_cc(self.daemon, fftlen)
		self.lte_hier_pss_sync_cc_0 = lte.hier_pss_sync_cc(fftlen)
		self.lte_hier_freq_estimate_cc_0 = lte.hier_freq_estimate_cc(fftlen)
		self.lte_extract_occupied_tones_vcvc_0 = lte.extract_occupied_tones_vcvc(N_rb_dl,fftlen)
		self.lte_crc_calculator_vbvb_0 = lte.crc_calculator_vbvb()
		self.lte_cp_time_freq_sync_cc_0 = lte.cp_time_freq_sync_cc(fftlen)
		self.gr_throttle_0 = gr.throttle(gr.sizeof_gr_complex*1, samp_rate)
		self.gr_interleave_0 = gr.interleave(gr.sizeof_gr_complex*240)
		self.gr_file_source_0 = gr.file_source(gr.sizeof_gr_complex*1, "/home/demel/Dokumente/Messungen/Messung_LTE_2012-05-23_12:47:32.dat", False)
		self.fft_vxx_0 = fft.fft_vcc(fftlen, True, (window.rectangular(fftlen)), False, 1)
		self.blks2_rational_resampler_xxx_0 = blks2.rational_resampler_ccc(
			interpolation=interp_val,
			decimation=1000,
			taps=None,
			fractional_bw=None,
		)

		##################################################
		# Connections
		##################################################
		self.connect((self.gr_file_source_0, 0), (self.blks2_rational_resampler_xxx_0, 0))
		self.connect((self.blks2_rational_resampler_xxx_0, 0), (self.gr_throttle_0, 0))
		self.connect((self.lte_hier_freq_estimate_cc_0, 0), (self.lte_hier_sss_sync_cc_0, 0))
		self.connect((self.gr_throttle_0, 0), (self.lte_cp_time_freq_sync_cc_0, 0))
		self.connect((self.lte_hier_sss_sync_cc_0, 0), (self.lte_remove_cp_cvc_1, 0))
		self.connect((self.fft_vxx_0, 0), (self.lte_extract_occupied_tones_vcvc_0, 0))
		self.connect((self.lte_remove_cp_cvc_1, 0), (self.fft_vxx_0, 0))
		self.connect((self.lte_pre_decoder_vcvc_0, 0), (self.lte_layer_demapper_vcvc_0, 0))
		self.connect((self.lte_pre_decoder_vcvc_0_0, 0), (self.lte_layer_demapper_vcvc_0_0, 0))
		self.connect((self.lte_layer_demapper_vcvc_0_0, 0), (self.gr_interleave_0, 1))
		self.connect((self.demux, 1), (self.lte_pre_decoder_vcvc_0_0, 1))
		self.connect((self.demux, 1), (self.lte_pre_decoder_vcvc_0, 1))
		self.connect((self.demux, 0), (self.lte_pre_decoder_vcvc_0, 0))
		self.connect((self.demux, 2), (self.lte_pre_decoder_vcvc_0_0, 2))
		self.connect((self.demux, 0), (self.lte_pre_decoder_vcvc_0_0, 0))
		self.connect((self.lte_qpsk_soft_demod_vcvf_0, 0), (self.descr, 0))
		self.connect((self.gr_interleave_0, 0), (self.lte_qpsk_soft_demod_vcvf_0, 0))
		self.connect((self.lte_layer_demapper_vcvc_0, 0), (self.gr_interleave_0, 0))
		self.connect((self.descr, 0), (self.lte_rate_unmatch_vff_0, 0))
		self.connect((self.lte_crc_calculator_vbvb_0, 1), (self.lte_mib_unpack_vb_0, 1))
		self.connect((self.lte_crc_calculator_vbvb_0, 0), (self.lte_mib_unpack_vb_0, 0))
		self.connect((self.lte_viterbi_vfvb_0, 0), (self.lte_crc_calculator_vbvb_0, 0))
		self.connect((self.lte_rate_unmatch_vff_0, 0), (self.lte_viterbi_vfvb_0, 0))
		self.connect((self.lte_cp_time_freq_sync_cc_0, 0), (self.lte_hier_pss_sync_cc_0, 0))
		self.connect((self.lte_hier_pss_sync_cc_0, 0), (self.lte_hier_freq_estimate_cc_0, 0))
		self.connect((self.lte_extract_occupied_tones_vcvc_0, 0), (self.eq, 0))
		self.connect((self.eq, 0), (self.demux, 0))
		self.connect((self.eq, 1), (self.demux, 1))
		self.connect((self.eq, 2), (self.demux, 2))

Ejemplo n.º 8

Archivo: LTE_flowgraph.py Proyecto: a4a881d4/gr-lte

	def __init__(self):
		gr.top_block.__init__(self, "LTE flowgraph")

		##################################################
		# Variables
		##################################################
		self.fftlen = fftlen = 2048
		self.cpl0 = cpl0 = 160*fftlen/2048
		self.cpl = cpl = 144*fftlen/2048
		self.slotl = slotl = 7*fftlen+6*cpl+cpl0
		self.samp_rate = samp_rate = slotl/0.0005
		self.style = style = "tx_diversity"
		self.interp_val = interp_val = int(samp_rate/1e4)
		self.N_rb_dl = N_rb_dl = 6

		##################################################
		# Blocks
		##################################################
		self.lte_viterbi_vfvb_0 = lte.viterbi_vfvb()
		self.lte_remove_cp_cvc_1 = lte.remove_cp_cvc(fftlen)
		self.lte_rate_unmatch_vff_0 = lte.rate_unmatch_vff()
		self.lte_qpsk_soft_demod_vcvf_0 = lte.qpsk_soft_demod_vcvf()
		self.lte_pre_decoder_vcvc_0_0 = lte.pre_decoder_vcvc(2, style)
		self.lte_pre_decoder_vcvc_0 = lte.pre_decoder_vcvc(1, style)
		self.lte_mib_unpack_vb_0 = lte.mib_unpack_vb()
		self.lte_layer_demapper_vcvc_0_0 = lte.layer_demapper_vcvc(2, style)
		self.lte_layer_demapper_vcvc_0 = lte.layer_demapper_vcvc(1, style)
		self.lte_hier_sss_sync_cc_1 = lte.hier_sss_sync_cc(fftlen)
		self.lte_hier_pss_sync_cc_0 = lte.hier_pss_sync_cc(fftlen)
		self.lte_hier_freq_estimate_cc_0 = lte.hier_freq_estimate_cc(fftlen)
		self.lte_extract_occupied_tones_vcvc_0 = lte.extract_occupied_tones_vcvc(N_rb_dl,fftlen)
		self.lte_crc_calculator_vbvb_0 = lte.crc_calculator_vbvb()
		self.lte_cp_time_freq_sync_cc_0 = lte.cp_time_freq_sync_cc(fftlen)
		self.lte_channel_estimator_0 = lte.channel_estimator(N_rb_dl)
		self.gr_throttle_0 = gr.throttle(gr.sizeof_gr_complex*1, samp_rate/4)
		self.gr_interleave_0 = gr.interleave(gr.sizeof_gr_complex*240)
		self.gr_file_source_0_0 = gr.file_source(gr.sizeof_gr_complex*1, "/home/demel/gr-lte/data/Messung_Resampled_3072MSps.dat", False)
		self.fft_vxx_0 = fft.fft_vcc(fftlen, True, (window.rectangular(fftlen)), False, 1)
		self.descr = lte.descrambling_vfvf()
		self.demux = lte.pbch_demux_vcvc(N_rb_dl)

		##################################################
		# Connections
		##################################################
		self.connect((self.lte_cp_time_freq_sync_cc_0, 0), (self.lte_hier_pss_sync_cc_0, 0))
		self.connect((self.lte_hier_pss_sync_cc_0, 0), (self.lte_hier_freq_estimate_cc_0, 0))
		self.connect((self.gr_throttle_0, 0), (self.lte_cp_time_freq_sync_cc_0, 0))
		self.connect((self.gr_file_source_0_0, 0), (self.gr_throttle_0, 0))
		self.connect((self.fft_vxx_0, 0), (self.lte_extract_occupied_tones_vcvc_0, 0))
		self.connect((self.lte_remove_cp_cvc_1, 0), (self.fft_vxx_0, 0))
		self.connect((self.descr, 0), (self.lte_rate_unmatch_vff_0, 0))
		self.connect((self.lte_qpsk_soft_demod_vcvf_0, 0), (self.descr, 0))
		self.connect((self.demux, 2), (self.lte_pre_decoder_vcvc_0_0, 2))
		self.connect((self.demux, 1), (self.lte_pre_decoder_vcvc_0_0, 1))
		self.connect((self.demux, 0), (self.lte_pre_decoder_vcvc_0_0, 0))
		self.connect((self.demux, 1), (self.lte_pre_decoder_vcvc_0, 1))
		self.connect((self.demux, 0), (self.lte_pre_decoder_vcvc_0, 0))
		self.connect((self.lte_channel_estimator_0, 2), (self.demux, 2))
		self.connect((self.lte_channel_estimator_0, 1), (self.demux, 1))
		self.connect((self.lte_channel_estimator_0, 0), (self.demux, 0))
		self.connect((self.lte_extract_occupied_tones_vcvc_0, 0), (self.lte_channel_estimator_0, 0))
		self.connect((self.lte_rate_unmatch_vff_0, 0), (self.lte_viterbi_vfvb_0, 0))
		self.connect((self.lte_viterbi_vfvb_0, 0), (self.lte_crc_calculator_vbvb_0, 0))
		self.connect((self.lte_crc_calculator_vbvb_0, 0), (self.lte_mib_unpack_vb_0, 0))
		self.connect((self.lte_crc_calculator_vbvb_0, 1), (self.lte_mib_unpack_vb_0, 1))
		self.connect((self.lte_layer_demapper_vcvc_0, 0), (self.gr_interleave_0, 0))
		self.connect((self.gr_interleave_0, 0), (self.lte_qpsk_soft_demod_vcvf_0, 0))
		self.connect((self.lte_layer_demapper_vcvc_0_0, 0), (self.gr_interleave_0, 1))
		self.connect((self.lte_pre_decoder_vcvc_0_0, 0), (self.lte_layer_demapper_vcvc_0_0, 0))
		self.connect((self.lte_pre_decoder_vcvc_0, 0), (self.lte_layer_demapper_vcvc_0, 0))
		self.connect((self.lte_hier_freq_estimate_cc_0, 0), (self.lte_hier_sss_sync_cc_1, 0))
		self.connect((self.lte_hier_sss_sync_cc_1, 0), (self.lte_remove_cp_cvc_1, 0))

		##################################################
		# Asynch Message Connections
		##################################################
		self.msg_connect(self.lte_hier_sss_sync_cc_1, "cell_id", self.demux, "cell_id")
		self.msg_connect(self.lte_hier_sss_sync_cc_1, "cell_id", self.descr, "cell_id")
		self.msg_connect(self.lte_hier_sss_sync_cc_1, "cell_id", self.lte_channel_estimator_0, "cell_id")

Ejemplo n.º 9

Archivo: LTE_flowgraph.py Proyecto: armuk/gr-lte

	def __init__(self):
		gr.top_block.__init__(self, "LTE flowgraph")
		Qt.QWidget.__init__(self)
		self.setWindowTitle("LTE flowgraph")
		self.setWindowIcon(Qt.QIcon.fromTheme('gnuradio-grc'))
		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)


		##################################################
		# Variables
		##################################################
		self.fft_len = fft_len = 2048
		self.cpl0 = cpl0 = 160*fft_len/2048
		self.cpl = cpl = 144*fft_len/2048
		self.cell_id = cell_id = 364
		self.N_rb_dl = N_rb_dl = 50
		self.slotl = slotl = 7*fft_len+6*cpl+cpl0
		self.frame_pilots_1 = frame_pilots_1 = lte.frame_pilot_value_and_position(N_rb_dl, cell_id, 1, 1)
		self.frame_pilots_0 = frame_pilots_0 = lte.frame_pilot_value_and_position(N_rb_dl, cell_id, 1, 0)
		self.tag_key = tag_key = "symbol"
		self.samp_rate = samp_rate = int(slotl/0.0005)
		self.pilot_symbols = pilot_symbols = frame_pilots_0[1]
		self.pilot_carriers_p1 = pilot_carriers_p1 = frame_pilots_1[0]
		self.pilot_carriers_p0 = pilot_carriers_p0 = frame_pilots_0[0]

		##################################################
		# Blocks
		##################################################
		self.lte_source_c_0 = lte_source_c(
			samp_rate=samp_rate,
		)
		self.lte_remove_cp_cvc_0 = lte.remove_cp_cvc(fft_len, tag_key)
		self.lte_pbch_demux_vcvc_1 = lte.pbch_demux_vcvc(N_rb_dl)
		self.lte_mib_unpack_vb_0 = lte.mib_unpack_vb()
		self.lte_hier_sss_sync_cc_1 = lte.hier_sss_sync_cc(fft_len)
		self.lte_hier_pss_sync_cc_0 = lte.hier_pss_sync_cc(fft_len)
		self.lte_hier_freq_estimate_cc_0 = lte.hier_freq_estimate_cc(fft_len)
		self.lte_extract_occupied_tones_vcvc_0 = lte.extract_occupied_tones_vcvc(N_rb_dl,fft_len)
		self.lte_estimator_parameterizer_msg_0_0 = lte.estimator_parameterizer_msg("cell_id", "pilots", N_rb_dl, 1)
		self.lte_estimator_parameterizer_msg_0 = lte.estimator_parameterizer_msg("cell_id", "pilots", N_rb_dl, 0)
		self.lte_decode_pcfich_vcm_0 = lte.decode_pcfich_vcm(N_rb_dl, tag_key, "subframe", "cell_id", "N_ant", "CFI")
		self.lte_decode_pbch_vcvf_0 = lte.decode_pbch_vcvf()
		self.lte_decode_bch_hier_0 = lte_decode_bch_hier()
		self.lte_cp_time_freq_sync_cc_0 = lte.cp_time_freq_sync_cc(fft_len)
		self.lte_channel_estimator_ant_1 = lte.channel_estimator_vcvc(12*N_rb_dl, tag_key, "pilots", pilot_carriers_p1, pilot_symbols)
		self.lte_channel_estimator_ant_0 = lte.channel_estimator_vcvc(12*N_rb_dl, tag_key, "pilots", pilot_carriers_p0, pilot_symbols)
		self.fft_vxx_0 = fft.fft_vcc(fft_len, True, (window.rectangular(fft_len)), False, 1)

		##################################################
		# Connections
		##################################################
		self.connect((self.lte_extract_occupied_tones_vcvc_0, 0), (self.lte_pbch_demux_vcvc_1, 0))
		self.connect((self.fft_vxx_0, 0), (self.lte_extract_occupied_tones_vcvc_0, 0))
		self.connect((self.lte_hier_freq_estimate_cc_0, 0), (self.lte_hier_sss_sync_cc_1, 0))
		self.connect((self.lte_pbch_demux_vcvc_1, 1), (self.lte_decode_pbch_vcvf_0, 1))
		self.connect((self.lte_pbch_demux_vcvc_1, 2), (self.lte_decode_pbch_vcvf_0, 2))
		self.connect((self.lte_remove_cp_cvc_0, 0), (self.fft_vxx_0, 0))
		self.connect((self.lte_hier_sss_sync_cc_1, 0), (self.lte_remove_cp_cvc_0, 0))
		self.connect((self.lte_hier_pss_sync_cc_0, 0), (self.lte_hier_freq_estimate_cc_0, 0))
		self.connect((self.lte_cp_time_freq_sync_cc_0, 0), (self.lte_hier_pss_sync_cc_0, 0))
		self.connect((self.lte_pbch_demux_vcvc_1, 0), (self.lte_decode_pbch_vcvf_0, 0))
		self.connect((self.lte_source_c_0, 0), (self.lte_cp_time_freq_sync_cc_0, 0))
		self.connect((self.lte_decode_pbch_vcvf_0, 0), (self.lte_decode_bch_hier_0, 0))
		self.connect((self.lte_decode_bch_hier_0, 0), (self.lte_mib_unpack_vb_0, 0))
		self.connect((self.lte_decode_bch_hier_0, 1), (self.lte_mib_unpack_vb_0, 1))
		self.connect((self.lte_extract_occupied_tones_vcvc_0, 0), (self.lte_channel_estimator_ant_0, 0))
		self.connect((self.lte_extract_occupied_tones_vcvc_0, 0), (self.lte_channel_estimator_ant_1, 0))
		self.connect((self.lte_channel_estimator_ant_0, 0), (self.lte_pbch_demux_vcvc_1, 1))
		self.connect((self.lte_channel_estimator_ant_1, 0), (self.lte_pbch_demux_vcvc_1, 2))
		self.connect((self.lte_channel_estimator_ant_0, 0), (self.lte_decode_pcfich_vcm_0, 1))
		self.connect((self.lte_channel_estimator_ant_1, 0), (self.lte_decode_pcfich_vcm_0, 2))
		self.connect((self.lte_extract_occupied_tones_vcvc_0, 0), (self.lte_decode_pcfich_vcm_0, 0))

		##################################################
		# Asynch Message Connections
		##################################################
		self.msg_connect(self.lte_hier_sss_sync_cc_1, "cell_id", self.lte_pbch_demux_vcvc_1, "cell_id")
		self.msg_connect(self.lte_hier_sss_sync_cc_1, "cell_id", self.lte_decode_pbch_vcvf_0, "cell_id")
		self.msg_connect(self.lte_estimator_parameterizer_msg_0, "pilots", self.lte_channel_estimator_ant_0, "pilots")
		self.msg_connect(self.lte_estimator_parameterizer_msg_0_0, "pilots", self.lte_channel_estimator_ant_1, "pilots")
		self.msg_connect(self.lte_hier_sss_sync_cc_1, "cell_id", self.lte_estimator_parameterizer_msg_0, "cell_id")
		self.msg_connect(self.lte_hier_sss_sync_cc_1, "cell_id", self.lte_estimator_parameterizer_msg_0_0, "cell_id")
		self.msg_connect(self.lte_hier_sss_sync_cc_1, "cell_id", self.lte_decode_pcfich_vcm_0, "cell_id")
		self.msg_connect(self.lte_mib_unpack_vb_0, "N_ant", self.lte_decode_pcfich_vcm_0, "N_ant")