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/**
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*
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* \section COPYRIGHT
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*
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* Copyright 2013-2014 The libLTE Developers. See the
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* COPYRIGHT file at the top-level directory of this distribution.
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*
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* \section LICENSE
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*
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* This file is part of the libLTE library.
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*
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* libLTE is free software: you can redistribute it and/or modify
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* it under the terms of the GNU Lesser General Public License as
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* published by the Free Software Foundation, either version 3 of
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* the License, or (at your option) any later version.
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*
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* libLTE is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU Lesser General Public License for more details.
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*
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* A copy of the GNU Lesser General Public License can be found in
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* the LICENSE file in the top-level directory of this distribution
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* and at http://www.gnu.org/licenses/.
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*
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*/
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <strings.h>
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#include <unistd.h>
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#include <math.h>
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#include <time.h>
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#include <stdbool.h>
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#include "liblte/phy/phy.h"
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#include "liblte/cuhd/cuhd.h"
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#ifndef DISABLE_GRAPHICS
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void init_plots();
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void do_plots(float *corr, float energy, uint32_t size, cf_t ce[PSS_LEN]);
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void do_plots_sss(float *corr_m0, float *corr_m1);
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#endif
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bool disable_plots = false;
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int cell_id = -1;
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char *uhd_args="";
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float uhd_gain=40.0, uhd_freq=-1.0;
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int nof_frames = -1;
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uint32_t fft_size=64;
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float threshold = 0.4;
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int N_id_2_sync = -1;
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lte_cp_t cp=CPNORM;
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void usage(char *prog) {
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printf("Usage: %s [aedgtvnp] -f rx_frequency_hz -i cell_id\n", prog);
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printf("\t-a UHD args [Default %s]\n", uhd_args);
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printf("\t-g UHD Gain [Default %.2f dB]\n", uhd_gain);
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printf("\t-n nof_frames [Default %d]\n", nof_frames);
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printf("\t-l N_id_2 to sync [Default use cell_id]\n");
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printf("\t-e Extended CP [Default Normal]\n", fft_size);
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printf("\t-s symbol_sz [Default %d]\n", fft_size);
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printf("\t-t threshold [Default %.2f]\n", threshold);
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#ifndef DISABLE_GRAPHICS
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printf("\t-d disable plots [Default enabled]\n");
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#else
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printf("\t plots are disabled. Graphics library not available\n");
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#endif
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printf("\t-v verbose\n");
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}
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void parse_args(int argc, char **argv) {
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int opt;
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while ((opt = getopt(argc, argv, "adgetvsfil")) != -1) {
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switch (opt) {
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case 'a':
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uhd_args = argv[optind];
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break;
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case 'g':
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uhd_gain = atof(argv[optind]);
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break;
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case 'f':
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uhd_freq = atof(argv[optind]);
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break;
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case 't':
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threshold = atof(argv[optind]);
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break;
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case 'e':
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cp = CPEXT;
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break;
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case 'i':
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cell_id = atoi(argv[optind]);
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break;
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case 'l':
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N_id_2_sync = atoi(argv[optind]);
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break;
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case 's':
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fft_size = atoi(argv[optind]);
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break;
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case 'n':
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nof_frames = atoi(argv[optind]);
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break;
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case 'd':
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disable_plots = true;
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break;
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case 'v':
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verbose++;
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break;
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default:
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usage(argv[0]);
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exit(-1);
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}
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}
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if (cell_id < 0 || uhd_freq < 0) {
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usage(argv[0]);
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exit(-1);
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}
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}
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float m0_value, m1_value;
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int main(int argc, char **argv) {
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cf_t *buffer;
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int frame_cnt, n;
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void *uhd;
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pss_synch_t pss;
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cfo_t cfocorr, cfocorr64;
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sss_synch_t sss;
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int32_t flen;
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int peak_idx, last_peak;
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float peak_value;
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float mean_peak;
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uint32_t nof_det, nof_nodet, nof_nopeak, nof_nopeakdet;
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cf_t ce[PSS_LEN];
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parse_args(argc, argv);
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if (N_id_2_sync == -1) {
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N_id_2_sync = cell_id%3;
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}
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uint32_t N_id_2 = cell_id%3;
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uint32_t N_id_1 = cell_id/3;
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if (!disable_plots)
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init_plots();
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flen = 4800*(fft_size/64);
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buffer = malloc(sizeof(cf_t) * flen * 2);
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if (!buffer) {
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perror("malloc");
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exit(-1);
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}
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if (pss_synch_init_fft(&pss, flen, fft_size)) {
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fprintf(stderr, "Error initiating PSS\n");
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exit(-1);
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}
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if (pss_synch_set_N_id_2(&pss, N_id_2_sync)) {
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fprintf(stderr, "Error setting N_id_2=%d\n",N_id_2_sync);
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exit(-1);
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}
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cfo_init(&cfocorr, flen);
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cfo_init(&cfocorr64, flen);
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if (sss_synch_init(&sss, fft_size)) {
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fprintf(stderr, "Error initializing SSS object\n");
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return LIBLTE_ERROR;
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}
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sss_synch_set_N_id_2(&sss, N_id_2);
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printf("Opening UHD device...\n");
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if (cuhd_open(uhd_args, &uhd)) {
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fprintf(stderr, "Error opening uhd\n");
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exit(-1);
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}
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printf("N_id_2: %d\n", N_id_2);
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printf("Set RX rate: %.2f MHz\n", cuhd_set_rx_srate(uhd, flen*2*100) / 1000000);
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printf("Set RX gain: %.1f dB\n", cuhd_set_rx_gain(uhd, uhd_gain));
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printf("Set RX freq: %.2f MHz\n", cuhd_set_rx_freq(uhd, uhd_freq) / 1000000);
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cuhd_rx_wait_lo_locked(uhd);
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cuhd_start_rx_stream(uhd);
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printf("Frame length %d samples\n", flen);
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printf("PSS detection threshold: %.2f\n", threshold);
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nof_det = nof_nodet = nof_nopeak = nof_nopeakdet = 0;
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frame_cnt = 0;
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last_peak = 0;
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mean_peak = 0;
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int peak_offset = 0;
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float cfo;
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float mean_cfo = 0;
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uint32_t m0, m1;
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uint32_t sss_error1 = 0, sss_error2 = 0, sss_error3 = 0;
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uint32_t cp_is_norm = 0;
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sync_t ssync;
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bzero(&ssync, sizeof(sync_t));
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ssync.fft_size = fft_size;
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while(frame_cnt < nof_frames || nof_frames == -1) {
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n = cuhd_recv(uhd, buffer, flen - peak_offset, 1);
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if (n < 0) {
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fprintf(stderr, "Error receiving samples\n");
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exit(-1);
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}
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peak_idx = pss_synch_find_pss(&pss, buffer, &peak_value);
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if (peak_idx < 0) {
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fprintf(stderr, "Error finding PSS peak\n");
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exit(-1);
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}
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mean_peak = VEC_CMA(peak_value, mean_peak, frame_cnt);
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if (peak_value >= threshold) {
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nof_det++;
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if (peak_idx >= fft_size) {
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// Estimate CFO
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cfo = pss_synch_cfo_compute(&pss, &buffer[peak_idx-fft_size]);
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mean_cfo = VEC_CMA(cfo, mean_cfo, frame_cnt);
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// Correct CFO
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cfo_correct(&cfocorr, buffer, buffer, -mean_cfo / fft_size);
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// Estimate channel
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if (pss_synch_chest(&pss, &buffer[peak_idx-fft_size], ce)) {
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fprintf(stderr, "Error computing channel estimation\n");
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exit(-1);
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}
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// Find SSS
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int sss_idx = peak_idx-2*fft_size-(CP_ISNORM(cp)?CP(fft_size, CPNORM_LEN):CP(fft_size, CPEXT_LEN));
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if (sss_idx >= 0 && sss_idx < flen-fft_size) {
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sss_synch_m0m1_partial(&sss, &buffer[sss_idx], 3, NULL, &m0, &m0_value, &m1, &m1_value);
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if (sss_synch_N_id_1(&sss, m0, m1) != N_id_1) {
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sss_error2++;
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}
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INFO("Partial N_id_1: %d\n", sss_synch_N_id_1(&sss, m0, m1));
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sss_synch_m0m1_diff(&sss, &buffer[sss_idx], &m0, &m0_value, &m1, &m1_value);
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if (sss_synch_N_id_1(&sss, m0, m1) != N_id_1) {
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sss_error3++;
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}
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INFO("Diff N_id_1: %d\n", sss_synch_N_id_1(&sss, m0, m1));
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sss_synch_m0m1_partial(&sss, &buffer[sss_idx], 1, NULL, &m0, &m0_value, &m1, &m1_value);
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if (sss_synch_N_id_1(&sss, m0, m1) != N_id_1) {
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sss_error1++;
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}
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INFO("Full N_id_1: %d\n", sss_synch_N_id_1(&sss, m0, m1));
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}
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// Estimate CP
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if (peak_idx > 2*(fft_size + CP_EXT(fft_size))) {
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lte_cp_t cp = sync_detect_cp(&ssync, buffer, peak_idx);
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if (CP_ISNORM(cp)) {
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cp_is_norm++;
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}
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}
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} else {
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INFO("No space for CFO computation. Frame starts at \n",peak_idx);
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}
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if (!disable_plots && sss_synch_subframe(m0,m1) == 0)
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do_plots_sss(sss.corr_output_m0, sss.corr_output_m1);
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} else {
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nof_nodet++;
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}
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if (frame_cnt > 100) {
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if (abs(last_peak-peak_idx) > 4) {
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if (peak_value >= threshold) {
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nof_nopeakdet++;
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}
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nof_nopeak++;
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}
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}
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frame_cnt++;
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printf("[%5d]: Pos: %5d, PSR: %4.1f (~%4.1f) Pdet: %4.2f, "
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"FA: %4.2f, CFO: %+4.1f KHz SSSmiss: %4.2f/%4.2f/%4.2f CPNorm: %.0f\%\r",
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frame_cnt,
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peak_idx,
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peak_value, mean_peak,
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(float) nof_det/frame_cnt,
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(float) nof_nopeakdet/frame_cnt, mean_cfo*15,
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(float) sss_error1/nof_det,(float) sss_error2/nof_det,(float) sss_error3/nof_det,
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(float) cp_is_norm/nof_det * 100);
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if (VERBOSE_ISINFO()) {
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printf("\n");
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}
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if (!disable_plots)
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do_plots(pss.conv_output_avg, pss.conv_output_avg[peak_idx], pss.fft_size+pss.frame_size-1, ce);
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last_peak = peak_idx;
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}
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pss_synch_free(&pss);
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free(buffer);
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cuhd_close(uhd);
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printf("Ok\n");
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exit(0);
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}
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extern cf_t *tmp2;
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/**********************************************************************
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* Plotting Functions
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***********************************************************************/
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#ifndef DISABLE_GRAPHICS
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#include "liblte/graphics/plot.h"
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plot_real_t pssout;
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//plot_complex_t pce;
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plot_real_t psss1;//, psss2;
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float tmp[100000];
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cf_t tmpce[PSS_LEN];
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void init_plots() {
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plot_init();
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plot_real_init(&pssout);
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plot_real_setTitle(&pssout, "PSS xCorr");
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plot_real_setLabels(&pssout, "Index", "Absolute value");
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plot_real_setYAxisScale(&pssout, 0, 1);
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/*
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plot_complex_init(&pce);
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plot_complex_setTitle(&pce, "Channel Estimates");
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plot_complex_setYAxisScale(&pce, Ip, -2, 2);
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plot_complex_setYAxisScale(&pce, Q, -2, 2);
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plot_complex_setYAxisScale(&pce, Magnitude, 0, 2);
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plot_complex_setYAxisScale(&pce, Phase, -M_PI, M_PI);
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*/
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plot_real_init(&psss1);
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plot_real_setTitle(&psss1, "SSS xCorr m0");
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plot_real_setLabels(&psss1, "Index", "Absolute value");
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plot_real_setYAxisScale(&psss1, 0, 1);
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/*
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plot_real_init(&psss2);
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plot_real_setTitle(&psss2, "SSS xCorr m1");
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plot_real_setLabels(&psss2, "Index", "Absolute value");
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plot_real_setYAxisScale(&psss2, 0, 1);
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*/
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}
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void do_plots(float *corr, float energy, uint32_t size, cf_t ce[PSS_LEN]) {
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vec_sc_prod_fff(corr,1./energy,tmp, size);
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plot_real_setNewData(&pssout, tmp, size);
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// float norm = vec_avg_power_cf(ce, PSS_LEN);
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// vec_sc_prod_cfc(ce, 1.0/sqrt(norm), tmpce, PSS_LEN);
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//plot_complex_setNewData(&pce, tmpce, PSS_LEN);
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}
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void do_plots_sss(float *corr_m0, float *corr_m1) {
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if (m0_value > 0)
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vec_sc_prod_fff(corr_m0,1./m0_value,corr_m0, N_SSS);
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plot_real_setNewData(&psss1, corr_m0, N_SSS);
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// if (m1_value > 0)
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// vec_sc_prod_fff(corr_m1,1./m1_value,corr_m1, N_SSS);
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// plot_real_setNewData(&psss2, corr_m1, N_SSS);
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}
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#endif
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