#!/usr/bin/env python2
# -*- coding: utf-8 -*-
##################################################
# GNU Radio Python Flow Graph
# Title: Dec Proto Am Ber Top
# GNU Radio version: 3.7.13.5
##################################################
from gnuradio import analog
from gnuradio import blocks
from gnuradio import digital
from gnuradio import eng_notation
from gnuradio import fec
from gnuradio import filter
from gnuradio import gr
from gnuradio.eng_option import eng_option
from gnuradio.filter import firdes
from optparse import OptionParser
import pmt
class dec_proto_am_ber_top(gr.top_block):
def __init__(self, ber_file='0', carrier=1, mod_depth=0.8, signal_strength=2):
gr.top_block.__init__(self, "Dec Proto Am Ber Top")
##################################################
# Parameters
##################################################
self.ber_file = ber_file
self.carrier = carrier
self.mod_depth = mod_depth
self.signal_strength = signal_strength
##################################################
# Variables
##################################################
self.sim_mul = sim_mul = 1e4
self.actual_sampling_rate = actual_sampling_rate = 10
self.sync_tag = sync_tag = gr.tag_utils.python_to_tag((0, pmt.intern("sync"), pmt.from_double(0.0), pmt.intern("correlate_access_code")))
self.samp_rate = samp_rate = actual_sampling_rate*sim_mul
self.pi = pi = 3.141592653589793
self.packet_time_est_tag = packet_time_est_tag = gr.tag_utils.python_to_tag((0, pmt.intern("start"), pmt.from_double(0.0), pmt.intern("packet_vector_source")))
##################################################
# Blocks
##################################################
self.low_pass_filter_0 = filter.fir_filter_ccf(1, firdes.low_pass(
1.0/signal_strength*1000 * 2, samp_rate, 0.2 * sim_mul, 0.05 * sim_mul, firdes.WIN_HAMMING, 6.76))
self.fec_ber_bf_0 = fec.ber_bf(False, 0, -7.0)
self.digital_clock_recovery_mm_xx_0 = digital.clock_recovery_mm_ff(50, 0.001, 0, 0.01, 0.01)
self.digital_binary_slicer_fb_0 = digital.binary_slicer_fb()
self.blocks_vector_source_x_0_0_1_0 = blocks.vector_source_f([1,0]*(4*12)+[1,1,0,1,0,1,0,1]*12+[1,0,1,1,1,1,1,0,0,1]+[1,1,1,1,0,1,1,0,0,1]+[1,0,1,1,1,1,1,0,0,1]+[0,1,1,1,0,1,1,0,1,0]+[0,0,0,0,0,1,0,1,0,1,1,0,0,1,1,1,0,0,0,0]+[0]*128, True, 1, [packet_time_est_tag])
self.blocks_throttle_0 = blocks.throttle(gr.sizeof_float*1, samp_rate,True)
self.blocks_repeat_0 = blocks.repeat(gr.sizeof_float*1, 10*5)
self.blocks_null_source_1 = blocks.null_source(gr.sizeof_float*1)
self.blocks_multiply_xx_0_0 = blocks.multiply_vff(1)
self.blocks_multiply_xx_0 = blocks.multiply_vcc(1)
self.blocks_multiply_const_vxx_1 = blocks.multiply_const_vff((mod_depth, ))
self.blocks_multiply_const_vxx_0 = blocks.multiply_const_vcc((1.0/mod_depth, ))
self.blocks_float_to_complex_0 = blocks.float_to_complex(1)
self.blocks_float_to_char_0 = blocks.float_to_char(1, 1)
self.blocks_file_source_0 = blocks.file_source(gr.sizeof_float*1, '/home/user/research/smart_meter_reset/gm_platform/fw/raw_freq.bin', True)
self.blocks_file_source_0.set_begin_tag(pmt.PMT_NIL)
self.blocks_file_sink_0 = blocks.file_sink(gr.sizeof_float*1, ber_file, False)
self.blocks_file_sink_0.set_unbuffered(False)
self.blocks_delay_0 = blocks.delay(gr.sizeof_float*1, 5)
self.blocks_complex_to_mag_0 = blocks.complex_to_mag(1)
self.blocks_add_xx_0 = blocks.add_vff(1)
self.blocks_add_const_vxx_2_0 = blocks.add_const_vff((-0.5, ))
self.blocks_add_const_vxx_2 = blocks.add_const_vcc((-(1-mod_depth), ))
self.blocks_add_const_vxx_1 = blocks.add_const_vff((1-mod_depth, ))
self.blocks_add_const_vxx_0 = blocks.add_const_vff((-50, ))
self.analog_sig_source_x_0_0 = analog.sig_source_f(samp_rate, analog.GR_COS_WAVE, carrier * sim_mul, signal_strength*1e-3, 0)
self.analog_sig_source_x_0 = analog.sig_source_c(samp_rate, analog.GR_COS_WAVE, -carrier * sim_mul, 1, 0)
##################################################
# Connections
##################################################
self.connect((self.analog_sig_source_x_0, 0), (self.blocks_multiply_xx_0, 1))
self.connect((self.analog_sig_source_x_0_0, 0), (self.blocks_multiply_xx_0_0, 1))
self.connect((self.blocks_add_const_vxx_0, 0), (self.blocks_add_xx_0, 0))
self.connect((self.blocks_add_const_vxx_1, 0), (self.blocks_multiply_xx_0_0, 0))
self.connect((self.blocks_add_const_vxx_2, 0), (self.blocks_multiply_const_vxx_0, 0))
self.connect((self.blocks_add_const_vxx_2_0, 0), (self.digital_clock_recovery_mm_xx_0, 0))
self.connect((self.blocks_add_xx_0, 0), (self.blocks_float_to_complex_0, 0))
self.connect((self.blocks_complex_to_mag_0, 0), (self.blocks_add_const_vxx_2_0, 0))
self.connect((self.blocks_delay_0, 0), (self.blocks_float_to_char_0, 0))
self.connect((self.blocks_file_source_0, 0), (self.blocks_throttle_0, 0))
self.connect((self.blocks_float_to_char_0, 0), (self.fec_ber_bf_0, 1))
self.connect((self.blocks_float_to_complex_0, 0), (self.blocks_multiply_xx_0, 0))
self.connect((self.blocks_multiply_const_vxx_0, 0), (self.blocks_complex_to_mag_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, 0))
self.connect((self.blocks_multiply_xx_0_0, 0), (self.blocks_add_xx_0, 1))
self.connect((self.blocks_null_source_1, 0), (self.blocks_float_to_complex_0, 1))
self.connect((self.blocks_repeat_0, 0), (self.blocks_multiply_const_vxx_1, 0))
self.connect((self.blocks_throttle_0, 0), (self.blocks_add_const_vxx_0, 0))
self.connect((self.blocks_vector_source_x_0_0_1_0, 0), (self.blocks_delay_0, 0))
self.connect((self.blocks_vector_source_x_0_0_1_0, 0), (self.blocks_repeat_0, 0))
self.connect((self.digital_binary_slicer_fb_0, 0), (self.fec_ber_bf_0, 0))
self.connect((self.digital_clock_recovery_mm_xx_0, 0), (self.digital_binary_slicer_fb_0, 0))
self.connect((self.fec_ber_bf_0, 0), (self.blocks_file_sink_0, 0))
self.connect((self.low_pass_filter_0, 0), (self.blocks_add_const_vxx_2, 0))
def get_ber_file(self):
return self.ber_file
def set_ber_file(self, ber_file):
self.ber_file = ber_file
self.blocks_file_sink_0.open(self.ber_file)
def get_carrier(self):
return self.carrier
def set_carrier(self, carrier):
self.carrier = carrier
self.analog_sig_source_x_0_0.set_frequency(self.carrier * self.sim_mul)
self.analog_sig_source_x_0.set_frequency(-self.carrier * self.sim_mul)
def get_mod_depth(self):
return self.mod_depth
def set_mod_depth(self, mod_depth):
self.mod_depth = mod_depth
self.blocks_multiply_const_vxx_1.set_k((self.mod_depth, ))
self.blocks_multiply_const_vxx_0.set_k((1.0/self.mod_depth, ))
self.blocks_add_const_vxx_2.set_k((-(1-self.mod_depth), ))
self.blocks_add_const_vxx_1.set_k((1-self.mod_depth, ))
def get_signal_strength(self):
return self.signal_strength
def set_signal_strength(self, signal_strength):
self.signal_strength = signal_strength
self.low_pass_filter_0.set_taps(firdes.low_pass(1.0/self.signal_strength*1000 * 2, self.samp_rate, 0.2 * self.sim_mul, 0.05 * self.sim_mul, firdes.WIN_HAMMING, 6.76))
self.analog_sig_source_x_0_0.set_amplitude(self.signal_strength*1e-3)
def get_sim_mul(self):
return self.sim_mul
def set_sim_mul(self, sim_mul):
self.sim_mul = sim_mul
self.set_samp_rate(self.actual_sampling_rate*self.sim_mul)
self.low_pass_filter_0.set_taps(firdes.low_pass(1.0/self.signal_strength*1000 * 2, self.samp_rate, 0.2 * self.sim_mul, 0.05 * self.sim_mul, firdes.WIN_HAMMING, 6.76))
self.analog_sig_source_x_0_0.set_frequency(self.carrier * self.sim_mul)
self.analog_sig_source_x_0.set_frequency(-self.carrier * self.sim_mul)
def get_actual_sampling_rate(self):
return self.actual_sampling_rate
def set_actual_sampling_rate(self, actual_sampling_rate):
self.actual_sampling_rate = actual_sampling_rate
self.set_samp_rate(self.actual_sampling_rate*self.sim_mul)
def get_sync_tag(self):
return self.sync_tag
def set_sync_tag(self, sync_tag):
self.sync_tag = sync_tag
def get_samp_rate(self):
return self.samp_rate
def set_samp_rate(self, samp_rate):
self.samp_rate = samp_rate
self.low_pass_filter_0.set_taps(firdes.low_pass(1.0/self.signal_strength*1000 * 2, self.samp_rate, 0.2 * self.sim_mul, 0.05 * self.sim_mul, firdes.WIN_HAMMING, 6.76))
self.blocks_throttle_0.set_sample_rate(self.samp_rate)
self.analog_sig_source_x_0_0.set_sampling_freq(self.samp_rate)
self.analog_sig_source_x_0.set_sampling_freq(self.samp_rate)
def get_pi(self):
return self.pi
def set_pi(self, pi):
self.pi = pi
def get_packet_time_est_tag(self):
return self.packet_time_est_tag
def set_packet_time_est_tag(self, packet_time_est_tag):
self.packet_time_est_tag = packet_time_est_tag
self.blocks_vector_source_x_0_0_1_0.set_data([1,0]*(4*12)+[1,1,0,1,0,1,0,1]*12+[1,0,1,1,1,1,1,0,0,1]+[1,1,1,1,0,1,1,0,0,1]+[1,0,1,1,1,1,1,0,0,1]+[0,1,1,1,0,1,1,0,1,0]+[0,0,0,0,0,1,0,1,0,1,1,0,0,1,1,1,0,0,0,0]+[0]*128, [self.packet_time_est_tag])
def argument_parser():
parser = OptionParser(usage="%prog: [options]", option_class=eng_option)
parser.add_option(
"", "--ber-file", dest="ber_file", type="string", default='0',
help="Set BER data output file [default=%default]")
parser.add_option(
"", "--carrier", dest="carrier", type="eng_float", default=eng_notation.num_to_str(1),
help="Set Carrier frequency in Hz [default=%default]")
parser.add_option(
"", "--mod-depth", dest="mod_depth", type="eng_float", default=eng_notation.num_to_str(0.8),
help="Set Modulation depth (0-1) [default=%default]")
parser.add_option(
"", "--signal-strength", dest="signal_strength", type="eng_float", default=eng_notation.num_to_str(2),
help="Set signal strength in mHz [default=%default]")
return parser
def main(top_block_cls=dec_proto_am_ber_top, options=None):
if options is None:
options, _ = argument_parser().parse_args()
tb = top_block_cls(ber_file=options.ber_file, carrier=options.carrier, mod_depth=options.mod_depth, signal_strength=options.signal_strength)
tb.start()
try:
raw_input('Press Enter to quit: ')
except EOFError:
pass
tb.stop()
tb.wait()
if __name__ == '__main__':
main()