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author | jaseg <git-bigdata-wsl-arch@jaseg.de> | 2020-03-05 19:15:28 +0100 |
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committer | jaseg <git-bigdata-wsl-arch@jaseg.de> | 2020-03-05 19:15:28 +0100 |
commit | 4b419bd1ad9f22266e068341176f5ab665a26222 (patch) | |
tree | ec5ee9e379d4de3e15b33f0b640b700bef0750bc /controller/fw/src | |
parent | d9b26d16c063aec32b70287ff861a1f23642a9f2 (diff) | |
download | master-thesis-4b419bd1ad9f22266e068341176f5ab665a26222.tar.gz master-thesis-4b419bd1ad9f22266e068341176f5ab665a26222.tar.bz2 master-thesis-4b419bd1ad9f22266e068341176f5ab665a26222.zip |
Working on DSSS demodulator sim
Diffstat (limited to 'controller/fw/src')
-rw-r--r-- | controller/fw/src/dsss_demod.c | 180 | ||||
-rw-r--r-- | controller/fw/src/dsss_demod.h | 44 | ||||
-rw-r--r-- | controller/fw/src/sr_global.h | 1 |
3 files changed, 225 insertions, 0 deletions
diff --git a/controller/fw/src/dsss_demod.c b/controller/fw/src/dsss_demod.c new file mode 100644 index 0000000..ec54d41 --- /dev/null +++ b/controller/fw/src/dsss_demod.c @@ -0,0 +1,180 @@ + +#include <unistd.h> +#include <stdbool.h> +#include <math.h> + +#include <arm_math.h> + +#include "freq_meas.h" +#include "sr_global.h" +#include "dsss_demod.h" +#include "simulation.h" + +#include "generated/dsss_gold_code.h" + +/* Generated CWT wavelet LUT */ +extern const float * const dsss_cwt_wavelet_table; + +struct iir_biquad cwt_filter_bq[3] = { + {.a = {-1.993939440f, 0.993949280f}, .b = {0.2459934300683e-5, 0.4919868601367e-5, 0.2459934300683e-5}}, + {.a = {-1.995557124f, 0.995566972f}, .b = {0.2461930046414e-5, 0.4923860092828e-5, 0.2461930046414e-5}}, + {.a = {-1.998365254f, 0.998375115f}, .b = {0.2465394452097e-5, 0.4930788904195e-5, 0.2465394452097e-5}}, +}; + +float gold_correlate_step(const size_t ncode, const float a[DSSS_CORRELATION_LENGTH], size_t offx); +float cwt_convolve_step(const float v[DSSS_WAVELET_LUT_SIZE], size_t offx); +float run_iir(const float x, const int order, const struct iir_biquad q[order], struct iir_biquad_state st[order]); +float run_biquad(float x, const struct iir_biquad *const q, struct iir_biquad_state *const restrict st); + +#ifdef SIMULATION +void dsss_demod_step(struct dsss_demod_state *st, float new_value, size_t sim_pos) { +#else /* SIMULATION */ +void dsss_demod_step(struct dsss_demod_state *st, float new_value) { +#endif /* SIMULATION */ + +//#define DEBUG_PRINT(...) ((void)0) +//#define DEBUG_PRINTN(...) ((void)0) + bool debug = sim_pos % DSSS_CORRELATION_LENGTH == 0; + if (debug) DEBUG_PRINT("Iteration %zd", sim_pos); + //const float peak_group_threshold = 0.05 * DSSS_CORRELATION_LENGTH; + //const float hole_patching_threshold = 0.01 * DSSS_CORRELATION_LENGTH; + + st->signal[st->signal_wpos] = new_value; + st->signal_wpos = (st->signal_wpos + 1) % ARRAY_LENGTH(st->signal); + if (debug) DEBUG_PRINT(" signal: %f", new_value); + + /* use new, incremented wpos for gold_correlate_step as first element of old data in ring buffer */ + for (size_t i=0; i<DSSS_GOLD_CODE_COUNT; i++) + st->correlation[i][st->correlation_wpos] = gold_correlate_step(i, st->signal, st->correlation_wpos); + /* debug */ + /* + DEBUG_PRINTN(" correlation: ["); + for (size_t i=0; i<DSSS_GOLD_CODE_COUNT; i++) + DEBUG_PRINTN("%f, ", st->correlation[i][st->correlation_wpos]); + DEBUG_PRINTN("]\n"); + */ + /* end */ + st->correlation_wpos = (st->correlation_wpos + 1) % ARRAY_LENGTH(st->correlation[0]); + + float cwt[DSSS_GOLD_CODE_COUNT]; + for (size_t i=0; i<DSSS_GOLD_CODE_COUNT; i++) + cwt[i] = cwt_convolve_step(st->correlation[i], st->correlation_wpos); + /* debug */ + if (debug) DEBUG_PRINTN(" cwt: ["); + for (size_t i=0; i<DSSS_GOLD_CODE_COUNT; i++) + if (debug) DEBUG_PRINTN("%f, ", cwt[i]); + if (debug) DEBUG_PRINTN("]\n"); + /* end */ + + float avg[DSSS_GOLD_CODE_COUNT]; + for (size_t i=0; i<DSSS_GOLD_CODE_COUNT; i++) + avg[i] = run_iir(fabs(cwt[i]), ARRAY_LENGTH(cwt_filter_bq), cwt_filter_bq, st->cwt_filter[i].st); + /* debug */ + /* + DEBUG_PRINTN(" avg: ["); + for (size_t i=0; i<DSSS_GOLD_CODE_COUNT; i++) + DEBUG_PRINTN("%f, ", avg[i]); + DEBUG_PRINTN("]\n"); + */ + /* end */ + + float max_val = st->group.max; + int max_ch = st->group.max_ch; + int max_idx = st->group.max_idx + 1; + bool found = false; + if (debug) DEBUG_PRINTN(" rel: ["); + for (size_t i=0; i<DSSS_GOLD_CODE_COUNT; i++) { + float val = cwt[i] / avg[i]; + if (debug) DEBUG_PRINTN("%f, ", val); + + if (fabs(val) > DSSS_THESHOLD_FACTOR) + found = true; + + if (fabs(val) > fabs(max_val)) { + max_val = val; + max_ch = i; + max_idx = st->group.len; + } + } + if (debug) DEBUG_PRINTN("]\n"); + + /* debug */ + if (debug) DEBUG_PRINT(" found=%d len=%d idx=%d ch=%d max=%f", + found, st->group.len, st->group.max_idx, st->group.max_ch, st->group.max); + /* end */ + + if (found) { + /* Continue ongoing group */ + st->group.len++; + st->group.max = max_val; + st->group.max_ch = max_ch; + st->group.max_idx = max_idx; + return; + } + + if (st->group.len == 0) + /* We're between groups */ + return; + + /* A group ended. Process result. */ + DEBUG_PRINT("GROUP FOUND: %8d len=%3d max=%f ch=%d offx=%d", + sim_pos, st->group.len, st->group.max, st->group.max_ch, st->group.max_idx); + + /* reset grouping state */ + st->group.len = 0; + st->group.max_idx = 0; + st->group.max_ch = 0; + st->group.max = 0.0f; +} + +float run_iir(const float x, const int order, const struct iir_biquad q[order], struct iir_biquad_state st[order]) { + float intermediate = x; + for (int i=0; i<(order+1)/2; i++) + intermediate = run_biquad(intermediate, &q[i], &st[i]); + return intermediate; +} + +float run_biquad(float x, const struct iir_biquad *const q, struct iir_biquad_state *const restrict st) { + /* direct form 2, see https://en.wikipedia.org/wiki/Digital_biquad_filter */ + float intermediate = x + st->reg[0] * -q->a[0] + st->reg[1] * -q->a[1]; + float out = intermediate * q->b[0] + st->reg[0] * q->b[1] + st->reg[1] * q->b[2]; + st->reg[1] = st->reg[0]; + st->reg[0] = intermediate; + return out; +} + +float cwt_convolve_step(const float v[DSSS_WAVELET_LUT_SIZE], size_t offx) { + float sum = 0.0f; + for (ssize_t j=0; j<DSSS_WAVELET_LUT_SIZE; j++) { + /* Our wavelet is symmetric so convolution and correlation are identical. Use correlation here for ease of + * implementation */ + sum += v[(offx + j) % DSSS_WAVELET_LUT_SIZE] * dsss_cwt_wavelet_table[j]; + //DEBUG_PRINT(" j=%d v=%f w=%f", j, v[(offx + j) % DSSS_WAVELET_LUT_SIZE], dsss_cwt_wavelet_table[j]); + } + return sum / DSSS_WAVELET_LUT_SIZE; +} + +/* Compute last element of correlation for input [a] and hard-coded gold sequences. + * + * This is intened to be used once for each new incoming sample in [a]. It expects [a] to be of length + * [dsss_correlation_length] and produces the one sample where both the reference sequence and the input fully overlap. + * This is equivalent to "valid" mode in numpy's terminology[0]. + * + * [0] https://docs.scipy.org/doc/numpy/reference/generated/numpy.correlate.html + */ +float gold_correlate_step(const size_t ncode, const float a[DSSS_CORRELATION_LENGTH], size_t offx) { + float acc_outer = 0.0f; + uint8_t table_byte = 0; + for (size_t i=0, pos=0; i<DSSS_GOLD_CODE_LENGTH; i++, pos += DSSS_DECIMATION) { + float acc_inner = 0.0f; + for (size_t j=0; j<DSSS_DECIMATION; j++) { + if ((pos&7) == 0) + table_byte = dsss_gold_code_table[ncode][pos>>3]; /* Fetch sequence table item */ + int bv = table_byte & (1<<(pos&7)); /* Extract bit */ + bv = !!bv*2 - 1; /* Map 0, 1 -> -1, 1 */ + acc_inner += a[(offx + i + j) % DSSS_CORRELATION_LENGTH] * bv; /* Multiply item */ + } + acc_outer += acc_inner; + } + return acc_outer / DSSS_CORRELATION_LENGTH; +} diff --git a/controller/fw/src/dsss_demod.h b/controller/fw/src/dsss_demod.h new file mode 100644 index 0000000..8ab5cac --- /dev/null +++ b/controller/fw/src/dsss_demod.h @@ -0,0 +1,44 @@ +#ifndef __DSSS_DEMOD_H__ +#define __DSSS_DEMOD_H__ + +#define DSSS_GOLD_CODE_LENGTH ((1<<DSSS_GOLD_CODE_NBITS) - 1) +#define DSSS_GOLD_CODE_COUNT ((1<<DSSS_GOLD_CODE_NBITS) + 1) +#define DSSS_CORRELATION_LENGTH (DSSS_GOLD_CODE_LENGTH * DSSS_DECIMATION) + +struct iir_biquad { + float a[2]; + float b[3]; +}; + +struct iir_biquad_state { + float reg[2]; +}; + +struct cwt_iir_filter_state { + struct iir_biquad_state st[3]; +}; + +struct dsss_demod_state { + float signal[DSSS_CORRELATION_LENGTH]; + size_t signal_wpos; + + float correlation[DSSS_GOLD_CODE_COUNT][DSSS_WAVELET_LUT_SIZE]; + size_t correlation_wpos; + + struct cwt_iir_filter_state cwt_filter[DSSS_GOLD_CODE_COUNT]; + + struct { + int len; /* length of group in samples */ + float max; /* signed value of largest peak in group on any channel */ + int max_idx; /* position of above peak counted from start of group */ + int max_ch; /* channel (gold sequence index) of above peak */ + } group; +}; + +#ifdef SIMULATION +void dsss_demod_step(struct dsss_demod_state *st, float new_value, size_t sim_pos); +#else /* SIMULATION */ +void dsss_demod_step(struct dsss_demod_state *st, float new_value); +#endif /* SIMULATION */ + +#endif /* __DSSS_DEMOD_H__ */ diff --git a/controller/fw/src/sr_global.h b/controller/fw/src/sr_global.h index 8aa219d..abbad93 100644 --- a/controller/fw/src/sr_global.h +++ b/controller/fw/src/sr_global.h @@ -2,6 +2,7 @@ #define __SR_GLOBAL_H__ #define UNUSED(x) ((void) x) +#define ARRAY_LENGTH(x) (sizeof(x) / sizeof(x[0])) static inline uint16_t htole(uint16_t val) { return val; } |