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/**
* Copyright 2013-2022 Software Radio Systems Limited
*
* This file is part of srsRAN.
*
* srsRAN is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as
* published by the Free Software Foundation, either version 3 of
* the License, or (at your option) any later version.
*
* srsRAN is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Affero General Public License for more details.
*
* A copy of the GNU Affero General Public License can be found in
* the LICENSE file in the top-level directory of this distribution
* and at http://www.gnu.org/licenses/.
*
*/
/******************************************************************************
* File: npss.h
*
* Description: Narrowband Primary synchronization signal (NPSS) generation and detection.
*
* The srsran_npss_synch_t object provides functions for fast
* computation of the crosscorrelation between the NPSS and received
* signal and CFO estimation. Also, the function srsran_npss_synch_tperiodic()
* is designed to be called periodically every subframe, taking
* care of the correct data alignment with respect to the NPSS sequence.
*
* The object is designed to work with signals sampled at ?.? Mhz
* centered at the carrier frequency. Thus, downsampling is required
* if the signal is sampled at higher frequencies.
*
* Reference: 3GPP TS 36.211 version 13.2.0 Release 13 Sec. 10.x.x
*****************************************************************************/
#ifndef SRSRAN_NPSS_H
#define SRSRAN_NPSS_H
#include <stdbool.h>
#include <stdint.h>
#include "srsran/config.h"
#include "srsran/phy/common/phy_common.h"
#include "srsran/phy/utils/convolution.h"
#define CONVOLUTION_FFT
#define SRSRAN_NPSS_RETURN_PSR
#define SRSRAN_NPSS_LEN 11
#define SRSRAN_NPSS_NUM_OFDM_SYMS 11
#define SRSRAN_NPSS_TOT_LEN (SRSRAN_NPSS_LEN * SRSRAN_NPSS_NUM_OFDM_SYMS)
#define SRSRAN_NPSS_CORR_FILTER_LEN \
((SRSRAN_NPSS_NUM_OFDM_SYMS * SRSRAN_NBIOT_FFT_SIZE) + \
(SRSRAN_NPSS_NUM_OFDM_SYMS - 1) * SRSRAN_CP_LEN_NORM(1, SRSRAN_NBIOT_FFT_SIZE) + \
SRSRAN_CP_LEN_NORM(0, SRSRAN_NBIOT_FFT_SIZE))
// The below value corresponds to the time-domain representation of the first
// three OFDM-symbols plus cyclic prefix that are not transmitted in the sub-frame
// carrying the NPSS
#define SRSRAN_NPSS_CORR_OFFSET (SRSRAN_SF_LEN(SRSRAN_NBIOT_FFT_SIZE) - SRSRAN_NPSS_CORR_FILTER_LEN)
// CFO estimation based on the NPSS is done using the second slot of the sub-frame
#define SRSRAN_NPSS_CFO_OFFSET (SRSRAN_SF_LEN(SRSRAN_NBIOT_FFT_SIZE) / 2 - SRSRAN_NPSS_CORR_OFFSET)
#define SRSRAN_NPSS_CFO_NUM_SYMS 6 // number of symbols for CFO estimation
#define SRSRAN_NPSS_CFO_NUM_SAMPS \
((SRSRAN_NPSS_CFO_NUM_SYMS * SRSRAN_NBIOT_FFT_SIZE) + \
(SRSRAN_NPSS_CFO_NUM_SYMS - 1) * SRSRAN_CP_LEN_NORM(1, SRSRAN_NBIOT_FFT_SIZE) + \
SRSRAN_CP_LEN_NORM(0, SRSRAN_NBIOT_FFT_SIZE)) // resulting number of samples
// NPSS processing options
#define SRSRAN_NPSS_ACCUMULATE_ABS // If enabled, accumulates the correlation absolute value on consecutive calls to
// srsran_pss_synch_find_pss
#define SRSRAN_NPSS_ABS_SQUARE // If enabled, compute abs square, otherwise computes absolute value only
#define SRSRAN_NPSS_RETURN_PSR // If enabled returns peak to side-lobe ratio, otherwise returns absolute peak value
/* Low-level API */
typedef struct SRSRAN_API {
#ifdef CONVOLUTION_FFT
srsran_conv_fft_cc_t conv_fft;
#endif
uint32_t frame_size, max_frame_size;
uint32_t fft_size, max_fft_size;
cf_t* npss_signal_time;
cf_t* tmp_input;
cf_t* conv_output;
float* conv_output_abs;
float ema_alpha;
float* conv_output_avg;
float peak_value;
} srsran_npss_synch_t;
// Basic functionality
SRSRAN_API int srsran_npss_synch_init(srsran_npss_synch_t* q, uint32_t frame_size, uint32_t fft_size);
SRSRAN_API void srsran_npss_synch_reset(srsran_npss_synch_t* q);
SRSRAN_API int srsran_npss_synch_resize(srsran_npss_synch_t* q, uint32_t frame_size, uint32_t fft_size);
SRSRAN_API void srsran_npss_synch_set_ema_alpha(srsran_npss_synch_t* q, float alpha);
SRSRAN_API void srsran_npss_synch_free(srsran_npss_synch_t* q);
SRSRAN_API int srsran_npss_sync_find(srsran_npss_synch_t* q, cf_t* input, float* corr_peak_value);
// Internal functions
SRSRAN_API int srsran_npss_corr_init(cf_t* npss_signal_time, uint32_t fft_size, uint32_t frame_size);
SRSRAN_API int srsran_npss_generate(cf_t* signal);
SRSRAN_API void srsran_npss_put_subframe(srsran_npss_synch_t* q,
cf_t* npss_signal,
cf_t* sf,
const uint32_t nof_prb,
const uint32_t nbiot_prb_offset);
#endif // SRSRAN_NPSS_H