#!/usr/bin/env python3 # -*- coding: utf-8 -*- # # SPDX-License-Identifier: GPL-3.0 # # GNU Radio Python Flow Graph # Title: QAM # Author: Pross Naoki, Halter Sara Cinzia # GNU Radio version: 3.8.2.0 from gnuradio import blocks from gnuradio import channels from gnuradio.filter import firdes from gnuradio import digital from gnuradio import gr import sys import signal from argparse import ArgumentParser from gnuradio.eng_arg import eng_float, intx from gnuradio import eng_notation import fadingui class qam_nogui(gr.top_block): def __init__(self): gr.top_block.__init__(self, "QAM") ################################################## # Variables ################################################## self.sps = sps = 4 self.nfilts = nfilts = 32 self.excess_bw = excess_bw = 350e-3 self.variable_4 = variable_4 = 0 self.timing_loop_bw = timing_loop_bw = 2 * 3.141592653589793 / 100 self.time_offset = time_offset = 1 self.samp_rate = samp_rate = 32000 self.rrc_taps = rrc_taps = firdes.root_raised_cosine(nfilts, nfilts, 1.0/float(sps), excess_bw, 45*nfilts) self.qam_const = qam_const = digital.constellation_rect([(-3-3j), (-1-3j), (1-3j), (3-3j), (-3-1j), (-1-1j), (1-1j), (3-1j), (-3+1j), (-1+1j), (1+1j), (3+1j), (-3+3j), (-1+3j), (1+3j), (3+3j)], [0, 4, 12, 8, 1, 5, 13, 9, 3, 7, 15, 11, 2, 6, 14, 10], 4, 1, 1, 1, 1).base() self.phase_bw = phase_bw = 2 * 3.141592653589793 / 100 self.noise_volt = noise_volt = 100e-6 self.freq_offset = freq_offset = 0 self.eq_ntaps = eq_ntaps = 15 self.eq_mod = eq_mod = 1 self.eq_gain = eq_gain = 10e-3 self.const = const = digital.constellation_16qam().base() self.chn_taps = chn_taps = [1.0 + 0.0j, ] ################################################## # Blocks ################################################## self.fadingui_dearpygui_sink_0 = fadingui.dearpygui_sink(sock_addr='udp://localhost:31415', ui_element_id=0) self.fadingui_datasource_0 = fadingui.datasource(vec_len=2037, header_len=11, sock_addr='udp://', file_list=["./lena512color.tiff"]) self.digital_pfb_clock_sync_xxx_0 = digital.pfb_clock_sync_ccf(sps, timing_loop_bw, rrc_taps, nfilts, nfilts/2, 1.5, 1) self.digital_map_bb_0 = digital.map_bb([0, 1, 3, 2]) self.digital_diff_decoder_bb_0 = digital.diff_decoder_bb(4) self.digital_costas_loop_cc_0 = digital.costas_loop_cc(phase_bw, 4, False) self.digital_constellation_modulator_0 = digital.generic_mod( constellation=const, differential=True, samples_per_symbol=sps, pre_diff_code=True, excess_bw=excess_bw, verbose=False, log=False) self.digital_constellation_decoder_cb_0 = digital.constellation_decoder_cb(const) self.digital_cma_equalizer_cc_0 = digital.cma_equalizer_cc(eq_ntaps, eq_mod, eq_gain, 1) self.channels_channel_model_0 = channels.channel_model( noise_voltage=noise_volt, frequency_offset=freq_offset, epsilon=time_offset, taps=chn_taps, noise_seed=0, block_tags=False) self.blocks_vector_to_stream_0 = blocks.vector_to_stream(gr.sizeof_char*1, 2048) self.blocks_throttle_0 = blocks.throttle(gr.sizeof_gr_complex*1, samp_rate,True) self.blocks_null_sink_0 = blocks.null_sink(gr.sizeof_char*1) ################################################## # Connections ################################################## self.connect((self.blocks_throttle_0, 0), (self.channels_channel_model_0, 0)) self.connect((self.blocks_vector_to_stream_0, 0), (self.digital_constellation_modulator_0, 0)) self.connect((self.channels_channel_model_0, 0), (self.digital_pfb_clock_sync_xxx_0, 0)) self.connect((self.digital_cma_equalizer_cc_0, 0), (self.digital_costas_loop_cc_0, 0)) self.connect((self.digital_constellation_decoder_cb_0, 0), (self.digital_diff_decoder_bb_0, 0)) self.connect((self.digital_constellation_modulator_0, 0), (self.blocks_throttle_0, 0)) self.connect((self.digital_costas_loop_cc_0, 0), (self.digital_constellation_decoder_cb_0, 0)) self.connect((self.digital_costas_loop_cc_0, 0), (self.fadingui_dearpygui_sink_0, 0)) self.connect((self.digital_diff_decoder_bb_0, 0), (self.digital_map_bb_0, 0)) self.connect((self.digital_map_bb_0, 0), (self.blocks_null_sink_0, 0)) self.connect((self.digital_pfb_clock_sync_xxx_0, 0), (self.digital_cma_equalizer_cc_0, 0)) self.connect((self.fadingui_datasource_0, 0), (self.blocks_vector_to_stream_0, 0)) def get_sps(self): return self.sps def set_sps(self, sps): self.sps = sps self.set_rrc_taps(firdes.root_raised_cosine(self.nfilts, self.nfilts, 1.0/float(self.sps), self.excess_bw, 45*self.nfilts)) def get_nfilts(self): return self.nfilts def set_nfilts(self, nfilts): self.nfilts = nfilts self.set_rrc_taps(firdes.root_raised_cosine(self.nfilts, self.nfilts, 1.0/float(self.sps), self.excess_bw, 45*self.nfilts)) def get_excess_bw(self): return self.excess_bw def set_excess_bw(self, excess_bw): self.excess_bw = excess_bw self.set_rrc_taps(firdes.root_raised_cosine(self.nfilts, self.nfilts, 1.0/float(self.sps), self.excess_bw, 45*self.nfilts)) def get_variable_4(self): return self.variable_4 def set_variable_4(self, variable_4): self.variable_4 = variable_4 def get_timing_loop_bw(self): return self.timing_loop_bw def set_timing_loop_bw(self, timing_loop_bw): self.timing_loop_bw = timing_loop_bw self.digital_pfb_clock_sync_xxx_0.set_loop_bandwidth(self.timing_loop_bw) def get_time_offset(self): return self.time_offset def set_time_offset(self, time_offset): self.time_offset = time_offset self.channels_channel_model_0.set_timing_offset(self.time_offset) def get_samp_rate(self): return self.samp_rate def set_samp_rate(self, samp_rate): self.samp_rate = samp_rate self.blocks_throttle_0.set_sample_rate(self.samp_rate) def get_rrc_taps(self): return self.rrc_taps def set_rrc_taps(self, rrc_taps): self.rrc_taps = rrc_taps self.digital_pfb_clock_sync_xxx_0.update_taps(self.rrc_taps) def get_qam_const(self): return self.qam_const def set_qam_const(self, qam_const): self.qam_const = qam_const def get_phase_bw(self): return self.phase_bw def set_phase_bw(self, phase_bw): self.phase_bw = phase_bw self.digital_costas_loop_cc_0.set_loop_bandwidth(self.phase_bw) def get_noise_volt(self): return self.noise_volt def set_noise_volt(self, noise_volt): self.noise_volt = noise_volt self.channels_channel_model_0.set_noise_voltage(self.noise_volt) def get_freq_offset(self): return self.freq_offset def set_freq_offset(self, freq_offset): self.freq_offset = freq_offset self.channels_channel_model_0.set_frequency_offset(self.freq_offset) def get_eq_ntaps(self): return self.eq_ntaps def set_eq_ntaps(self, eq_ntaps): self.eq_ntaps = eq_ntaps def get_eq_mod(self): return self.eq_mod def set_eq_mod(self, eq_mod): self.eq_mod = eq_mod self.digital_cma_equalizer_cc_0.set_modulus(self.eq_mod) def get_eq_gain(self): return self.eq_gain def set_eq_gain(self, eq_gain): self.eq_gain = eq_gain self.digital_cma_equalizer_cc_0.set_gain(self.eq_gain) def get_const(self): return self.const def set_const(self, const): self.const = const def get_chn_taps(self): return self.chn_taps def set_chn_taps(self, chn_taps): self.chn_taps = chn_taps self.channels_channel_model_0.set_taps(self.chn_taps) def main(top_block_cls=qam_nogui, options=None): if gr.enable_realtime_scheduling() != gr.RT_OK: print("Error: failed to enable real-time scheduling.") tb = top_block_cls() def sig_handler(sig=None, frame=None): tb.stop() tb.wait() sys.exit(0) signal.signal(signal.SIGINT, sig_handler) signal.signal(signal.SIGTERM, sig_handler) tb.start() try: input('Press Enter to quit: ') except EOFError: pass tb.stop() tb.wait() if __name__ == '__main__': main()