def main(args):
nargs = len(args)
if nargs == 0:
short = False
elif nargs == 1 and args[0] == "--short":
short = True
else:
sys.stderr.write("Usage: dvbt-bitrate.py [ --short ]\n");
sys.exit(1)
## Config Options
config = DVBTConfig('dvbt.conf')
# DVB-T Parameters
channel_mhz = config.get_channel_mhz()
mode = config.get_mode()
code_rate = config.get_code_rate()
constellation = config.get_constellation()
guard_interval = config.get_guard_interval()
##
# this is based on the formula found at:
# http://www.dveo.com/broadcast/bit-rate-calculation-for-COFDM-modulation.shtml
#
# DVB-T modulator maximum play rate depends on code rate, constellation, guard interval, bandwidth.
# The maximum bit rate can be calculated as below.
#
# TBandwidth = {6,000,000, 7,000,000, 8,000,000} in Hz for 6MHz, 7MHz, 8MHz
# TCodeRate = {1/2, 2/3, 3/4, 5/6, 7/8}
# TConstellation = {2, 4, 6} <- QPSK = 2, 16QAM=4, 64QAM = 6
# TGuardInterval = {4/5, 8/9, 16/17, 32/33}, 1/4 = 4/5, 1/8 = 8/9, 1/16 => 16/17, 1/32 => 32/33}
# 2K/8K mode does not matter
#
# Maximum bit rate = 1512 / 2048 * 188 / 204 * 64 / 56 * TBandwidth * TcodeRate * TConstellation * TGuardInterval (bps)
# = 423 / 544 * TBandwidth * TCodeRate * TConstellation * TGuardInterval (bps)
#
TBandwidth = channel_mhz * 1000000
TCodeRate = 0.0
if code_rate == dvbt.C1_2:
TCodeRate = 1.0/2.0
elif code_rate == dvbt.C2_3:
TCodeRate = 2.0/3.0
elif code_rate == dvbt.C3_4:
TCodeRate = 3.0/4.0
elif code_rate == dvbt.C5_6:
TCodeRate = 5.0/6.0
elif code_rate == dvbt.C7_8:
TCodeRate = 7.0/8.0
else:
raise ValueError("invalid cod_rate")
TConstellation = 0
if constellation == dvbt.QPSK:
TConstellation = 2
elif constellation == dvbt.QAM16:
TConstellation = 4
elif constellation == dvbt.QAM64:
TConstellation = 6
else:
raise ValueError("invalid constellation")
TGuardInterval = 0.0
if guard_interval == dvbt.G1_32:
TGuardInterval = 32.0/33.0
elif guard_interval == dvbt.G1_16:
TGuardInterval = 16.0/17.0
elif guard_interval == dvbt.G1_8:
TGuardInterval = 8.0/9.0
elif guard_interval == dvbt.G1_4:
TGuardInterval = 4.0/5.0
else:
raise ValueError("invalid guard_interval")
MaxBitrate = 423.0 / 544.0 * TBandwidth * TCodeRate * TConstellation * TGuardInterval
if short:
print("%d" % MaxBitrate)
else:
print("Maximum Bitrate = %d bps (%9.3f kbps, %6.3f Mbps)" % (MaxBitrate, MaxBitrate/1000, MaxBitrate/(1000000)))
def main(args):
nargs = len(args)
if nargs == 1:
infile = args[0]
device = '0'
elif nargs == 2:
infile = args[0]
device = args[1]
else:
sys.stderr.write(
"Usage: dvbt-hackrf.py infile [device-index (default=0)]\n")
sys.exit(1)
gainDBm = '3'
## Config Options
config = DVBTConfig('dvbt.conf')
# DVB-T Parameters
channel_mhz = config.get_channel_mhz()
mode = config.get_mode()
code_rate = config.get_code_rate()
constellation = config.get_constellation()
guard_interval = config.get_guard_interval()
# HF Parameters
center_freq = '%d' % (config.get_center_freq() / 1000)
gain = '%d' % config.get_tsrfsend_gain()
cell_id = '%d' % config.get_tsrfsend_cell_id()
##
# this is based on the formula found at:
# http://www.dveo.com/broadcast/bit-rate-calculation-for-COFDM-modulation.shtml
#
# DVB-T modulator maximum play rate depends on code rate, constellation, guard interval, bandwidth.
# The maximum bit rate can be calculated as below.
#
# TBandwidth = {6,000,000, 7,000,000, 8,000,000} in Hz for 6MHz, 7MHz, 8MHz
# TCodeRate = {1/2, 2/3, 3/4, 5/6, 7/8}
# TConstellation = {2, 4, 6} <- QPSK = 2, 16QAM=4, 64QAM = 6
# TGuardInterval = {4/5, 8/9, 16/17, 32/33}, 1/4 = 4/5, 1/8 = 8/9, 1/16 => 16/17, 1/32 => 32/33}
# 2K/8K mode does not matter
#
# Maximum bit rate = 1512 / 2048 * 188 / 204 * 64 / 56 * TBandwidth * TcodeRate * TConstellation * TGuardInterval (bps)
# = 423 / 544 * TBandwidth * TCodeRate * TConstellation * TGuardInterval (bps)
#
argBW = '%d' % (channel_mhz * 1000)
argCR = '1/2'
if code_rate == dvbt.C1_2:
argCR = '1/2'
elif code_rate == dvbt.C2_3:
argCR = '2/3'
elif code_rate == dvbt.C3_4:
argCR = '3/4'
elif code_rate == dvbt.C5_6:
argCR = '5/6'
elif code_rate == dvbt.C7_8:
argCR = '7/8'
else:
raise ValueError("invalid cod_rate")
argCO = '4'
if constellation == dvbt.QPSK:
argCO = '4'
elif constellation == dvbt.QAM16:
argCO = '16'
elif constellation == dvbt.QAM64:
argCO = '64'
else:
raise ValueError("invalid constellation")
argGI = '1/4'
if guard_interval == dvbt.G1_32:
argGI = '1/32'
elif guard_interval == dvbt.G1_16:
argGI = '1/16'
elif guard_interval == dvbt.G1_8:
argGI = '1/8'
elif guard_interval == dvbt.G1_4:
argGI = '1/4'
else:
raise ValueError("invalid guard_interval")
argMO = '2'
if mode == dvbt.T2k:
argMO = '2'
elif mode == dvbt.T8k:
argMO = '8'
else:
raise ValueError("invalid guard_interval")
os.execl('./tsrfsend', 'tsrfsend', infile, device, center_freq, argBW,
argCO, argCR, argGI, argMO, cell_id, gain)
def main(args):
nargs = len(args)
if nargs == 1:
infile = args[0]
outfile = None
elif nargs == 2:
infile = args[0]
outfile = args[1]
else:
sys.stderr.write("Usage: dvbt-hackrf.py infile [output_file]\n")
sys.exit(1)
## Config Options
config = DVBTConfig('dvbt.conf')
# DVB-T Parameters
channel_mhz = config.get_channel_mhz()
mode = config.get_mode()
code_rate = config.get_code_rate()
constellation = config.get_constellation()
guard_interval = config.get_guard_interval()
# Hack-RF Parameters
center_freq = config.get_center_freq()
rf_gain = config.get_hackrf_rf_gain()
if_gain = config.get_hackrf_if_gain()
bb_gain = config.get_hackrf_bb_gain()
##
samp_rate = 10000000.0
if mode == dvbt.T2k:
factor = 1
carriers = 2048
elif mode == dvbt.T8k:
factor = 4
carriers = 8192
if guard_interval == dvbt.G1_32:
gi = carriers / 32
elif guard_interval == dvbt.G1_16:
gi = carriers / 16
elif guard_interval == dvbt.G1_8:
gi = carriers / 8
elif guard_interval == dvbt.G1_4:
gi = carriers / 4
if channel_mhz == 8:
bandwidth = 8750000
elif channel_mhz == 7:
bandwidth = 7000000
elif channel_mhz == 6:
bandwidth = 6000000
elif channel_mhz == 5:
bandwidth = 5000000
else:
bandwidth = 8750000
log = gr.logger("dvbt-hackrf")
log.set_level("DEBUG")
log.debug("logger initilized")
tb = gr.top_block()
log.debug("top block initialized")
src = blocks.file_source(gr.sizeof_char, infile, True)
log.debug("source block initialized")
dvbt_energy_dispersal = dvbt.energy_dispersal(1 * factor)
dvbt_reed_solomon_enc = dvbt.reed_solomon_enc(2, 8, 0x11d, 255, 239, 8, 51,
(8 * factor))
dvbt_convolutional_interleaver = dvbt.convolutional_interleaver(
(136 * factor), 12, 17)
dvbt_inner_coder = dvbt.inner_coder(1, (1512 * factor), constellation,
dvbt.NH, code_rate)
dvbt_bit_inner_interleaver = dvbt.bit_inner_interleaver(
(1512 * factor), constellation, dvbt.NH, mode)
dvbt_symbol_inner_interleaver = dvbt.symbol_inner_interleaver(
(1512 * factor), mode, 1)
dvbt_dvbt_map = dvbt.dvbt_map((1512 * factor), constellation, dvbt.NH,
mode, 1)
dvbt_reference_signals = dvbt.reference_signals(gr.sizeof_gr_complex,
(1512 * factor), carriers,
constellation, dvbt.NH,
code_rate, code_rate,
dvbt.G1_32, mode, 0, 0)
fft_vxx = fft.fft_vcc(carriers, False, (window.rectangular(carriers)),
True, 10)
digital_ofdm_cyclic_prefixer = digital.ofdm_cyclic_prefixer(
carriers, carriers + (gi), 0, "")
rational_resampler_xxx = filter.rational_resampler_ccc(interpolation=70,
decimation=64,
taps=None,
fractional_bw=None)
blocks_multiply_const_vxx = blocks.multiply_const_vcc((0.0022097087, ))
log.debug("DVB-T blocks initialized")
out = osmosdr.sink(args="numchan=1")
out.set_sample_rate(samp_rate)
out.set_center_freq(center_freq, 0)
out.set_freq_corr(0, 0)
out.set_gain(rf_gain, 0)
out.set_if_gain(if_gain, 0)
out.set_bb_gain(bb_gain, 0)
out.set_antenna("", 0)
out.set_bandwidth(0, 0)
log.debug("Output block initialized")
tb.connect(src, dvbt_energy_dispersal)
tb.connect(dvbt_energy_dispersal, dvbt_reed_solomon_enc)
tb.connect(dvbt_reed_solomon_enc, dvbt_convolutional_interleaver)
tb.connect(dvbt_convolutional_interleaver, dvbt_inner_coder)
tb.connect(dvbt_inner_coder, dvbt_bit_inner_interleaver)
tb.connect(dvbt_bit_inner_interleaver, dvbt_symbol_inner_interleaver)
tb.connect(dvbt_symbol_inner_interleaver, dvbt_dvbt_map)
tb.connect(dvbt_dvbt_map, dvbt_reference_signals)
tb.connect(dvbt_reference_signals, fft_vxx)
tb.connect(fft_vxx, digital_ofdm_cyclic_prefixer)
tb.connect(digital_ofdm_cyclic_prefixer, blocks_multiply_const_vxx)
tb.connect(blocks_multiply_const_vxx, rational_resampler_xxx)
tb.connect(rational_resampler_xxx, out)
log.debug("all blocks connected")
if outfile:
dst = blocks.file_sink(gr.sizeof_gr_complex, outfile)
tb.connect(blocks_multiply_const_vxx, dst)
log.debug("running gnuradio")
tb.run()
def main(args):
nargs = len(args)
if nargs == 1:
infile = args[0]
outfile = None
elif nargs == 2:
infile = args[0]
outfile = args[1]
else:
sys.stderr.write("Usage: dvbt-hackrf.py infile [output_file]\n");
sys.exit(1)
## Config Options
config = DVBTConfig('dvbt.conf')
# DVB-T Parameters
channel_mhz = config.get_channel_mhz()
mode = config.get_mode()
code_rate = config.get_code_rate()
constellation = config.get_constellation()
guard_interval = config.get_guard_interval()
# Hack-RF Parameters
center_freq = config.get_center_freq()
rf_gain = config.get_hackrf_rf_gain()
if_gain = config.get_hackrf_if_gain()
bb_gain = config.get_hackrf_bb_gain()
##
samp_rate = 10000000.0
if mode == dvbt.T2k:
factor = 1
carriers = 2048
elif mode == dvbt.T8k:
factor = 4
carriers = 8192
if guard_interval == dvbt.G1_32:
gi = carriers / 32
elif guard_interval == dvbt.G1_16:
gi = carriers / 16
elif guard_interval == dvbt.G1_8:
gi = carriers / 8
elif guard_interval == dvbt.G1_4:
gi = carriers / 4
if channel_mhz == 8:
bandwidth = 8750000
elif channel_mhz == 7:
bandwidth = 7000000
elif channel_mhz == 6:
bandwidth = 6000000
elif channel_mhz == 5:
bandwidth = 5000000
else:
bandwidth = 8750000
log=gr.logger("dvbt-hackrf")
log.set_level("DEBUG");
log.debug("logger initilized")
tb = gr.top_block()
log.debug("top block initialized")
src = blocks.file_source(gr.sizeof_char, infile, True)
log.debug("source block initialized")
dvbt_energy_dispersal = dvbt.energy_dispersal(1 * factor)
dvbt_reed_solomon_enc = dvbt.reed_solomon_enc(2, 8, 0x11d, 255, 239, 8, 51, (8 * factor))
dvbt_convolutional_interleaver = dvbt.convolutional_interleaver((136 * factor), 12, 17)
dvbt_inner_coder = dvbt.inner_coder(1, (1512 * factor), constellation, dvbt.NH, code_rate)
dvbt_bit_inner_interleaver = dvbt.bit_inner_interleaver((1512 * factor), constellation, dvbt.NH, mode)
dvbt_symbol_inner_interleaver = dvbt.symbol_inner_interleaver((1512 * factor), mode, 1)
dvbt_dvbt_map = dvbt.dvbt_map((1512 * factor), constellation, dvbt.NH, mode, 1)
dvbt_reference_signals = dvbt.reference_signals(gr.sizeof_gr_complex, (1512 * factor), carriers, constellation, dvbt.NH, code_rate, code_rate, dvbt.G1_32, mode, 0, 0)
fft_vxx = fft.fft_vcc(carriers, False, (window.rectangular(carriers)), True, 10)
digital_ofdm_cyclic_prefixer = digital.ofdm_cyclic_prefixer(carriers, carriers+(gi), 0, "")
rational_resampler_xxx = filter.rational_resampler_ccc(interpolation=70, decimation=64, taps=None, fractional_bw=None)
blocks_multiply_const_vxx = blocks.multiply_const_vcc((0.0022097087, ))
log.debug("DVB-T blocks initialized")
out = osmosdr.sink(args="numchan=1")
out.set_sample_rate(samp_rate)
out.set_center_freq(center_freq, 0)
out.set_freq_corr(0, 0)
out.set_gain(rf_gain, 0)
out.set_if_gain(if_gain, 0)
out.set_bb_gain(bb_gain, 0)
out.set_antenna("", 0)
out.set_bandwidth(0, 0)
log.debug("Output block initialized")
tb.connect(src, dvbt_energy_dispersal)
tb.connect(dvbt_energy_dispersal, dvbt_reed_solomon_enc)
tb.connect(dvbt_reed_solomon_enc, dvbt_convolutional_interleaver)
tb.connect(dvbt_convolutional_interleaver, dvbt_inner_coder)
tb.connect(dvbt_inner_coder, dvbt_bit_inner_interleaver)
tb.connect(dvbt_bit_inner_interleaver, dvbt_symbol_inner_interleaver)
tb.connect(dvbt_symbol_inner_interleaver, dvbt_dvbt_map)
tb.connect(dvbt_dvbt_map, dvbt_reference_signals)
tb.connect(dvbt_reference_signals, fft_vxx)
tb.connect(fft_vxx, digital_ofdm_cyclic_prefixer)
tb.connect(digital_ofdm_cyclic_prefixer, blocks_multiply_const_vxx)
tb.connect(blocks_multiply_const_vxx, rational_resampler_xxx)
tb.connect(rational_resampler_xxx, out)
log.debug("all blocks connected")
if outfile:
dst = blocks.file_sink(gr.sizeof_gr_complex, outfile)
tb.connect(blocks_multiply_const_vxx, dst)
log.debug("running gnuradio")
tb.run()
def main(args):
nargs = len(args)
if nargs == 0:
short = False
elif nargs == 1 and args[0] == "--short":
short = True
else:
sys.stderr.write("Usage: dvbt-bitrate.py [ --short ]\n");
sys.exit(1)
## Config Options
config = DVBTConfig('dvbt-hackrf.conf')
# DVB-T Parameters
channel_mhz = config.get_channel_mhz()
mode = config.get_mode()
code_rate = config.get_code_rate()
constellation = config.get_constellation()
guard_interval = config.get_guard_interval()
##
# this is based on the formula found at:
# http://www.dveo.com/broadcast/bit-rate-calculation-for-COFDM-modulation.shtml
#
# DVB-T modulator maximum play rate depends on code rate, constellation, guard interval, bandwidth.
# The maximum bit rate can be calculated as below.
#
# TBandwidth = {6,000,000, 7,000,000, 8,000,000} in Hz for 6MHz, 7MHz, 8MHz
# TCodeRate = {1/2, 2/3, 3/4, 5/6, 7/8}
# TConstellation = {2, 4, 6} <- QPSK = 2, 16QAM=4, 64QAM = 6
# TGuardInterval = {4/5, 8/9, 16/17, 32/33}, 1/4 = 4/5, 1/8 = 8/9, 1/16 => 16/17, 1/32 => 32/33}
# 2K/8K mode does not matter
#
# Maximum bit rate = 1512 / 2048 * 188 / 204 * 64 / 56 * TBandwidth * TcodeRate * TConstellation * TGuardInterval (bps)
# = 423 / 544 * TBandwidth * TCodeRate * TConstellation * TGuardInterval (bps)
#
TBandwidth = channel_mhz * 1000000
TCodeRate = 0.0
if code_rate == dvbt.C1_2:
TCodeRate = 1.0/2.0
elif code_rate == dvbt.C2_3:
TCodeRate = 2.0/3.0
elif code_rate == dvbt.C3_4:
TCodeRate = 3.0/4.0
elif code_rate == dvbt.C5_6:
TCodeRate = 5.0/6.0
elif code_rate == dvbt.C7_8:
TCodeRate = 7.0/8.0
else:
raise ValueError("invalid cod_rate")
TConstellation = 0
if constellation == dvbt.QPSK:
TConstellation = 2
elif constellation == dvbt.QAM16:
TConstellation = 4
elif constellation == dvbt.QAM64:
TConstellation = 6
else:
raise ValueError("invalid constellation")
TGuardInterval = 0.0
if guard_interval == dvbt.G1_32:
TGuardInterval = 32.0/33.0
elif guard_interval == dvbt.G1_16:
TGuardInterval = 16.0/17.0
elif guard_interval == dvbt.G1_8:
TGuardInterval = 8.0/9.0
elif guard_interval == dvbt.G1_4:
TGuardInterval = 4.0/5.0
else:
raise ValueError("invalid guard_interval")
MaxBitrate = 423.0 / 544.0 * TBandwidth * TCodeRate * TConstellation * TGuardInterval
if short:
print "%d" % MaxBitrate
else:
print "Maximum Bitrate = %d bps (%9.3f kbps, %6.3f Mbps)" % (MaxBitrate, MaxBitrate/1000, MaxBitrate/(1000000))
def main(args):
nargs = len(args)
if nargs == 1:
infile = args[0]
device = '0'
elif nargs == 2:
infile = args[0]
device = args[1]
else:
sys.stderr.write("Usage: dvbt-hackrf.py infile [device-index (default=0)]\n");
sys.exit(1)
gainDBm = '3'
## Config Options
config = DVBTConfig('dvbt.conf')
# DVB-T Parameters
channel_mhz = config.get_channel_mhz()
mode = config.get_mode()
code_rate = config.get_code_rate()
constellation = config.get_constellation()
guard_interval = config.get_guard_interval()
# HF Parameters
center_freq = '%d' % (config.get_center_freq()/1000)
gain = '%d' % config.get_tsrfsend_gain()
cell_id = '%d' % config.get_tsrfsend_cell_id()
##
# this is based on the formula found at:
# http://www.dveo.com/broadcast/bit-rate-calculation-for-COFDM-modulation.shtml
#
# DVB-T modulator maximum play rate depends on code rate, constellation, guard interval, bandwidth.
# The maximum bit rate can be calculated as below.
#
# TBandwidth = {6,000,000, 7,000,000, 8,000,000} in Hz for 6MHz, 7MHz, 8MHz
# TCodeRate = {1/2, 2/3, 3/4, 5/6, 7/8}
# TConstellation = {2, 4, 6} <- QPSK = 2, 16QAM=4, 64QAM = 6
# TGuardInterval = {4/5, 8/9, 16/17, 32/33}, 1/4 = 4/5, 1/8 = 8/9, 1/16 => 16/17, 1/32 => 32/33}
# 2K/8K mode does not matter
#
# Maximum bit rate = 1512 / 2048 * 188 / 204 * 64 / 56 * TBandwidth * TcodeRate * TConstellation * TGuardInterval (bps)
# = 423 / 544 * TBandwidth * TCodeRate * TConstellation * TGuardInterval (bps)
#
argBW = '%d' % (channel_mhz * 1000)
argCR = '1/2'
if code_rate == dvbt.C1_2:
argCR = '1/2'
elif code_rate == dvbt.C2_3:
argCR = '2/3'
elif code_rate == dvbt.C3_4:
argCR = '3/4'
elif code_rate == dvbt.C5_6:
argCR = '5/6'
elif code_rate == dvbt.C7_8:
argCR = '7/8'
else:
raise ValueError("invalid cod_rate")
argCO = '4'
if constellation == dvbt.QPSK:
argCO = '4'
elif constellation == dvbt.QAM16:
argCO = '16'
elif constellation == dvbt.QAM64:
argCO = '64'
else:
raise ValueError("invalid constellation")
argGI = '1/4'
if guard_interval == dvbt.G1_32:
argGI = '1/32'
elif guard_interval == dvbt.G1_16:
argGI = '1/16'
elif guard_interval == dvbt.G1_8:
argGI = '1/8'
elif guard_interval == dvbt.G1_4:
argGI = '1/4'
else:
raise ValueError("invalid guard_interval")
argMO = '2'
if mode == dvbt.T2k:
argMO = '2'
elif mode == dvbt.T8k:
argMO = '8'
else:
raise ValueError("invalid guard_interval")
os.execl('./tsrfsend', 'tsrfsend', infile, device, center_freq, argBW, argCO, argCR, argGI, argMO, cell_id, gain)
