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--dc update2

pull/43/head
Zilog80 2021-11-08 00:48:45 +01:00
rodzic 49df867cc1
commit 534eb7f0f5
3 zmienionych plików z 169 dodań i 65 usunięć
Pokaż statystyki Ściągnij plik aktualizacji Ściągnij plik porównania Expand all files Collapse all files

24
demod/mod/demod_mod.c
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@ -145,7 +145,7 @@ static int dft_window(dft_t *dft, int w) {
/* ------------------------------------------------------------------------------------ */
static int getCorrDFT(dsp_t *dsp) {
static int getCorrDFT(dsp_t *dsp, float thres) {
int i;
int mp = -1;
float mx = 0.0;
@ -221,13 +221,13 @@ static int getCorrDFT(dsp_t *dsp) {
dsp->mv = mx;
dsp->mv_pos = mpos;
if (pos == dsp->sample_out) dsp->buffered = dsp->sample_out - mpos;
if (pos == dsp->sample_out) dsp->buffered = dsp->sample_out - dsp->mv_pos;
dsp->mv2 = 0.0f;
dsp->mv2_pos = 0;
if (dsp->opt_dc) {
if (dsp->opt_iq >= 2 && !dsp->locked) {
if (dsp->opt_iq >= 2 && fabs(mx) < thres) { /*&& !dsp->locked*/
mx = 0.0f;
mpos = 0;
@ -265,7 +265,14 @@ static int getCorrDFT(dsp_t *dsp) {
dsp->mv2 = mx;
dsp->mv2_pos = mpos;
dsp->mv2_pos = mpos - (dsp->lpFMtaps - (dsp->sps-1))/2;
if (dsp->mv2 > thres || dsp->mv2 < -thres) {
dsp->mv = dsp->mv2;
dsp->mv_pos = dsp->mv2_pos;
if (pos == dsp->sample_out) dsp->buffered = dsp->sample_out - dsp->mv2_pos;
}
}
}
@ -1462,7 +1469,7 @@ int find_header(dsp_t *dsp, float thres, int hdmax, int bitofs, int opt_dc) {
k += 1;
if (k >= dsp->K-4) {
mvpos0 = dsp->mv_pos;
mp = getCorrDFT(dsp); // correlation score -> dsp->mv
mp = getCorrDFT(dsp, thres); // correlation score -> dsp->mv
//if (option_auto == 0 && dsp->mv < 0) mv = 0;
k = 0;
}
@ -1471,16 +1478,15 @@ int find_header(dsp_t *dsp, float thres, int hdmax, int bitofs, int opt_dc) {
continue;
}
if (dsp->mv > thres || dsp->mv < -thres
|| dsp->mv2 > thres || dsp->mv2 < -thres)
if (dsp->mv > thres || dsp->mv < -thres)
{
if (dsp->opt_dc)
{
if (dsp->opt_iq) {
if (fabs(dsp->dDf) > 50.0)
if (fabs(dsp->dDf) > 100.0)
{
double diffDf = dsp->dDf*0.6; //0.4
if (dsp->opt_iq >= 2) {
if (1 && dsp->opt_iq >= 2) {
// update rot_iqbuf, F1sum, F2sum
double f1 = -dsp->h*dsp->sr/(2*dsp->sps);
double f2 = -f1;

204
demod/multi/demod_base.c
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@ -126,7 +126,7 @@ static int dft_window(dft_t *dft, int w) {
dft->win[n] = 0.5 * ( 1.0 - cos(2*M_PI*n/(float)(dft->N2-1)) );
break ;
case 2: // Hamming
dft->win[n] = 25/46.0 + (1.0 - 25/46.0)*cos(2*M_PI*n / (float)(dft->N2-1));
dft->win[n] = 25/46.0 - (1.0 - 25/46.0)*cos(2*M_PI*n / (float)(dft->N2-1));
break ;
case 3: // Blackmann
dft->win[n] = 7938/18608.0
@ -143,7 +143,7 @@ static int dft_window(dft_t *dft, int w) {
/* ------------------------------------------------------------------------------------ */
static int getCorrDFT(dsp_t *dsp) {
static int getCorrDFT(dsp_t *dsp, float thres) {
int i;
int mp = -1;
float mx = 0.0;
@ -153,9 +153,8 @@ static int getCorrDFT(dsp_t *dsp) {
ui32_t mpos = 0;
ui32_t pos = dsp->sample_out;
double dc = 0.0;
int mp_ofs = 0;
float *sbuf = dsp->bufs;
float *dcbuf = dsp->fm_buffer;
dsp->mv = 0.0;
dsp->dc = 0.0;
@ -164,38 +163,32 @@ static int getCorrDFT(dsp_t *dsp) {
if (dsp->sample_out < dsp->L) return -2;
if (dsp->opt_iq > 1 && dsp->opt_dc) {
mp_ofs = (dsp->sps-1)/2;
sbuf = dsp->fm_buffer;
}
else {
sbuf = dsp->bufs;
}
for (i = 0; i < dsp->K + dsp->L; i++) (dsp->DFT).xn[i] = sbuf[(pos+dsp->M -(dsp->K + dsp->L-1) + i) % dsp->M];
while (i < dsp->DFT.N) (dsp->DFT).xn[i++] = 0.0;
for (i = 0; i < dsp->K + dsp->L; i++) dsp->DFT.xn[i] = sbuf[(pos+dsp->M -(dsp->K + dsp->L-1) + i) % dsp->M];
while (i < dsp->DFT.N) dsp->DFT.xn[i++] = 0.0;
rdft(&dsp->DFT, dsp->DFT.xn, dsp->DFT.X);
if (dsp->opt_dc) {
/*
//X[0] = 0; // nicht ueber gesamte Laenge ... M10
//
// L < K ? // only last 2L samples (avoid M10 carrier offset)
dc = 0.0;
for (i = dsp->K - dsp->L; i < dsp->K + dsp->L; i++) dc += (dsp->DFT).xn[i];
double dc = 0.0;
for (i = dsp->K - dsp->L; i < dsp->K + dsp->L; i++) dc += dsp->DFT.xn[i];
dc /= 2.0*(float)dsp->L;
dsp->DFT.X[0] -= dsp->DFT.N * dc ;//* 0.95;
Nidft(&dsp->DFT, dsp->DFT.X, (dsp->DFT).cx);
for (i = 0; i < dsp->DFT.N; i++) (dsp->DFT).xn[i] = creal((dsp->DFT).cx[i])/(float)dsp->DFT.N;
*/
dsp->DFT.X[0] = 0;
Nidft(&dsp->DFT, dsp->DFT.X, dsp->DFT.cx);
for (i = 0; i < dsp->DFT.N; i++) dsp->DFT.xn[i] = creal(dsp->DFT.cx[i])/(float)dsp->DFT.N;
}
for (i = 0; i < dsp->DFT.N; i++) dsp->DFT.Z[i] = dsp->DFT.X[i]*dsp->DFT.Fm[i];
Nidft(&dsp->DFT, dsp->DFT.Z, dsp->DFT.cx);
if (fabs(dc) < 0.5) dsp->dc = dc;
// relativ Peak - Normierung erst zum Schluss;
// dann jedoch nicht zwingend corr-Max wenn FM-Amplitude bzw. norm(x) nicht konstant
@ -218,21 +211,88 @@ static int getCorrDFT(dsp_t *dsp) {
//xnorm = sqrt(dsp->qs[(mpos + 2*dsp->M) % dsp->M]); // Nvar = L
xnorm = 0.0;
for (i = 0; i < dsp->L; i++) xnorm += (dsp->DFT).xn[mp-i]*(dsp->DFT).xn[mp-i];
for (i = 0; i < dsp->L; i++) xnorm += dsp->DFT.xn[mp-i]*dsp->DFT.xn[mp-i];
xnorm = sqrt(xnorm);
mx /= xnorm*(dsp->DFT).N;
if (dsp->opt_iq > 1 && dsp->opt_dc) mpos += mp_ofs;
mx /= xnorm*dsp->DFT.N;
dsp->mv = mx;
dsp->mv_pos = mpos;
if (pos == dsp->sample_out) dsp->buffered = dsp->sample_out - mpos;
if (pos == dsp->sample_out) dsp->buffered = dsp->sample_out - dsp->mv_pos;
// FM: s = gain * carg(w)/M_PI = gain * dphi / PI // gain=0.8
// FM audio gain? dc relative to FM-envelope?!
//
dsp->mv2 = 0.0f;
dsp->mv2_pos = 0;
if (dsp->opt_dc) {
if (dsp->opt_iq >= 2 && fabs(mx) < thres) { /*&& !dsp->locked*/
mx = 0.0f;
mpos = 0;
for (i = 0; i < dsp->K + dsp->L; i++) dsp->DFT.xn[i] = dcbuf[(pos+dsp->M -(dsp->K + dsp->L-1) + i) % dsp->M];
while (i < dsp->DFT.N) dsp->DFT.xn[i++] = 0.0;
rdft(&dsp->DFT, dsp->DFT.xn, dsp->DFT.X);
dsp->DFT.X[0] = 0;
Nidft(&dsp->DFT, dsp->DFT.X, dsp->DFT.cx);
for (i = 0; i < dsp->DFT.N; i++) dsp->DFT.xn[i] = creal(dsp->DFT.cx[i])/(float)dsp->DFT.N;
for (i = 0; i < dsp->DFT.N; i++) dsp->DFT.Z[i] = dsp->DFT.X[i]*dsp->DFT.Fm[i];
Nidft(&dsp->DFT, dsp->DFT.Z, dsp->DFT.cx);
mx2 = 0.0; // t = L-1
for (i = dsp->L-1; i < dsp->K + dsp->L; i++) { // i=t .. i=t+K < t+1+K
re_cx = creal(dsp->DFT.cx[i]); // imag(cx)=0
if (re_cx*re_cx > mx2) {
mx = re_cx;
mx2 = mx*mx;
mp = i;
}
}
if (mp == dsp->L-1 || mp == dsp->K + dsp->L-1) return -4; // Randwert
// mp == t mp == K+t
mpos = pos - (dsp->K + dsp->L-1) + mp; // t = L-1
xnorm = 0.0;
for (i = 0; i < dsp->L; i++) xnorm += dsp->DFT.xn[mp-i]*dsp->DFT.xn[mp-i];
xnorm = sqrt(xnorm);
mx /= xnorm*dsp->DFT.N;
dsp->mv2 = mx;
dsp->mv2_pos = mpos - (dsp->lpFMtaps - (dsp->sps-1))/2;
if (dsp->mv2 > thres || dsp->mv2 < -thres) {
dsp->mv = dsp->mv2;
dsp->mv_pos = dsp->mv2_pos;
if (pos == dsp->sample_out) dsp->buffered = dsp->sample_out - dsp->mv2_pos;
}
}
}
if (dsp->opt_dc)
{
double dc = 0.0;
int mp_ofs = 0;
if (dsp->opt_iq >= 2 && dsp->mv2_pos == 0) {
mp_ofs = (dsp->lpFMtaps - (dsp->sps-1))/2;
}
dc = 0.0; // rs41 without preamble?
// unbalanced header?
for (i = 0; i < dsp->L; i++) dc += dcbuf[(mp_ofs + mpos - i + dsp->M) % dsp->M];
dc /= (float)dsp->L;
dsp->dc = dc;
}
// FM: s = gain * carg(w)/M_PI = gain * dphi / PI // gain=0.8
// FM audio gain? dc relative to FM-envelope?!
//
dsp->dDf = dsp->sr * dsp->dc / (2.0*FM_GAIN); // remaining freq offset
return mp;
@ -314,6 +374,7 @@ float read_wav_header(pcm_t *pcm) {
return 0;
}
static int f32read_sample(dsp_t *dsp, float *s) {
int i;
unsigned int word = 0;
@ -677,23 +738,31 @@ int f32buf_sample(dsp_t *dsp, int inv) {
double t = dsp->sample_in / (double)dsp->sr;
if (dsp->opt_iq) {
if (dsp->opt_iq)
{
if (dsp->opt_iq == 5) {
ui32_t s_reset = dsp->dectaps*dsp->lut_len;
int j;
if ( f32read_cblock(dsp) < dsp->decM ) return EOF;
//if ( f32read_cblock(dsp) < dsp->decM * blk_sz) return EOF;
for (j = 0; j < dsp->decM; j++) {
dsp->decXbuffer[dsp->sample_dec % dsp->dectaps] = dsp->decMbuf[j] * dsp->ex[dsp->sample_dec % dsp->lut_len];
z = dsp->decMbuf[j] * dsp->ex[dsp->sample_dec % dsp->lut_len];
dsp->decXbuffer[dsp->sample_dec % dsp->dectaps] = z;
dsp->sample_dec += 1;
if (dsp->sample_dec == s_reset) dsp->sample_dec = 0;
}
z = lowpass(dsp->decXbuffer, dsp->sample_dec, dsp->dectaps, ws_dec);
if (dsp->decM > 1)
{
z = lowpass(dsp->decXbuffer, dsp->sample_dec, dsp->dectaps, ws_dec);
}
}
else if ( f32read_csample(dsp, &z) == EOF ) return EOF;
z *= cexp(-t*2*M_PI*dsp->Df*I);
if (dsp->opt_dc)
{
z *= cexp(-t*2*M_PI*dsp->Df*I);
}
// IF-lowpass
if (dsp->opt_lp) {
@ -715,7 +784,7 @@ int f32buf_sample(dsp_t *dsp, int inv) {
s = re_lowpass(dsp->lpFM_buf, dsp->sample_in, dsp->lpFMtaps, dsp->ws_lpFM);
}
dsp->fm_buffer[(dsp->sample_in - dsp->lpFMtaps/2 + dsp->M) % dsp->M] = s;
dsp->fm_buffer[dsp->sample_in % dsp->M] = s;
if (dsp->opt_iq >= 2)
@ -779,14 +848,14 @@ int f32buf_sample(dsp_t *dsp, int inv) {
if (inv) s = -s;
dsp->bufs[dsp->sample_in % dsp->M] = s;
/*
/*
xneu = dsp->bufs[(dsp->sample_in ) % dsp->M];
xalt = dsp->bufs[(dsp->sample_in+dsp->M - dsp->Nvar) % dsp->M];
dsp->xsum += xneu - xalt; // + xneu - xalt
dsp->qsum += (xneu - xalt)*(xneu + xalt); // + xneu*xneu - xalt*xalt
dsp->xs[dsp->sample_in % dsp->M] = dsp->xsum;
dsp->qs[dsp->sample_in % dsp->M] = dsp->qsum;
*/
*/
dsp->sample_out = dsp->sample_in - dsp->delay;
@ -802,20 +871,23 @@ static int read_bufbit(dsp_t *dsp, int symlen, char *bits, ui32_t mvp, int pos)
ui32_t rcount = ceil(rbitgrenze);//+0.99; // dfm?
double sum = 0.0;
double dc = 0.0;
if (dsp->opt_dc && dsp->opt_iq < 2) dc = dsp->dc;
// bei symlen=2 (Manchester) kein dc noetig: -dc+dc=0 ;
// allerdings M10-header mit symlen=1
rbitgrenze += dsp->sps;
do {
sum += dsp->bufs[(rcount + mvp + dsp->M) % dsp->M] - dsp->dc;
sum += dsp->bufs[(rcount + mvp + dsp->M) % dsp->M] - dc;
rcount++;
} while (rcount < rbitgrenze); // n < dsp->sps
if (symlen == 2) {
rbitgrenze += dsp->sps;
do {
sum -= dsp->bufs[(rcount + mvp + dsp->M) % dsp->M] - dsp->dc;
sum -= dsp->bufs[(rcount + mvp + dsp->M) % dsp->M] - dc;
rcount++;
} while (rcount < rbitgrenze); // n < dsp->sps
}
@ -841,7 +913,7 @@ static int headcmp(dsp_t *dsp, int opt_dc) {
int len = dsp->hdrlen/dsp->symhd;
int inv = dsp->mv < 0;
if (opt_dc == 0 || dsp->opt_iq > 1) dsp->dc = 0; // reset? e.g. 2nd pass
//if (opt_dc == 0 || dsp->opt_iq > 1) dsp->dc = 0; // reset? e.g. 2nd pass
if (dsp->symhd != 1) step = 2;
if (inv) sign=1;
@ -1101,8 +1173,9 @@ int init_buffers(dsp_t *dsp) {
int taps; // lowpass taps: 4*sr/transition_bw
// IF lowpass
f_lp = 24e3; // default
f_lp = 24e3/(float)dsp->sr/2.0; // default
if (dsp->lpIQ_bw) f_lp = dsp->lpIQ_bw/(float)dsp->sr/2.0;
//if (dsp->opt_dc) f_lp *= 1.25;
taps = 4*dsp->sr/IF_TRANSITION_BW; if (taps%2==0) taps++;
taps = lowpass_init(1.5*f_lp, taps, &dsp->ws_lpIQ0); if (taps < 0) return -1;
taps = lowpass_init(f_lp, taps, &dsp->ws_lpIQ1); if (taps < 0) return -1;
@ -1125,7 +1198,7 @@ int init_buffers(dsp_t *dsp) {
// FM lowpass
f_lp = 10e3; // default
f_lp = 10e3/(float)dsp->sr; // default
if (dsp->lpFM_bw > 0) f_lp = dsp->lpFM_bw/(float)dsp->sr;
taps = 4*dsp->sr/FM_TRANSITION_BW; if (taps%2==0) taps++;
taps = lowpass_init(f_lp, taps, &dsp->ws_lpFM); if (taps < 0) return -1;
@ -1165,10 +1238,10 @@ int init_buffers(dsp_t *dsp) {
dsp->bufs = (float *)calloc( M+1, sizeof(float)); if (dsp->bufs == NULL) return -100;
dsp->match = (float *)calloc( L+1, sizeof(float)); if (dsp->match == NULL) return -100;
/*
/*
dsp->xs = (float *)calloc( M+1, sizeof(float)); if (dsp->xs == NULL) return -100;
dsp->qs = (float *)calloc( M+1, sizeof(float)); if (dsp->qs == NULL) return -100;
*/
*/
dsp->rawbits = (char *)calloc( 2*dsp->hdrlen+1, sizeof(char)); if (dsp->rawbits == NULL) return -100;
@ -1250,10 +1323,10 @@ int free_buffers(dsp_t *dsp) {
if (dsp->match) { free(dsp->match); dsp->match = NULL; }
if (dsp->bufs) { free(dsp->bufs); dsp->bufs = NULL; }
if (dsp->rawbits) { free(dsp->rawbits); dsp->rawbits = NULL; }
/*
/*
if (dsp->xs) { free(dsp->xs); dsp->xs = NULL; }
if (dsp->qs) { free(dsp->qs); dsp->qs = NULL; }
*/
*/
if (dsp->DFT.xn) { free(dsp->DFT.xn); dsp->DFT.xn = NULL; }
if (dsp->DFT.ew) { free(dsp->DFT.ew); dsp->DFT.ew = NULL; }
if (dsp->DFT.Fm) { free(dsp->DFT.Fm); dsp->DFT.Fm = NULL; }
@ -1317,7 +1390,7 @@ int find_header(dsp_t *dsp, float thres, int hdmax, int bitofs, int opt_dc) {
k += 1;
if (k >= dsp->K-4) {
mvpos0 = dsp->mv_pos;
mp = getCorrDFT(dsp); // correlation score -> dsp->mv
mp = getCorrDFT(dsp, thres); // correlation score -> dsp->mv
//if (option_auto == 0 && dsp->mv < 0) mv = 0;
k = 0;
@ -1336,17 +1409,40 @@ int find_header(dsp_t *dsp, float thres, int hdmax, int bitofs, int opt_dc) {
continue;
}
if (dsp->mv > thres || dsp->mv < -thres) {
if (dsp->opt_dc) { // Problem: FM-gain
if (dsp->opt_iq < 2) dsp->Df += dsp->dDf*0.4;
else {
double ofs = fabs(dsp->dDf); // (iq-decode controls FM-gain)
if (ofs > 200.0)
if (dsp->mv > thres || dsp->mv < -thres)
{
if (dsp->opt_dc)
{
if (dsp->opt_iq) {
if (fabs(dsp->dDf) > 100.0)
{
dsp->Df += dsp->dDf * 2/3.0;
double diffDf = dsp->dDf*0.6; //0.4
if (1 && dsp->opt_iq >= 2) {
// update rot_iqbuf, F1sum, F2sum
double f1 = -dsp->h*dsp->sr/(2*dsp->sps);
double f2 = -f1;
float complex X1 = 0;
float complex X2 = 0;
float complex _z = 0;
int _n = dsp->sps;
while ( _n > 0 )
{
// update rot_iqbuf
double _tn = (dsp->sample_in - _n) / (double)dsp->sr;
dsp->rot_iqbuf[(dsp->sample_in - _n + dsp->N_IQBUF) % dsp->N_IQBUF] *= cexp(-_tn*2*M_PI*diffDf*I);
//
//update/reset F1sum, F2sum
_z = dsp->rot_iqbuf[(dsp->sample_in - _n + dsp->N_IQBUF) % dsp->N_IQBUF];
X1 += _z*cexp(-_tn*2*M_PI*f1*I);
X2 += _z*cexp(-_tn*2*M_PI*f2*I);
_n--;
}
dsp->F1sum = X1;
dsp->F2sum = X2;
}
dsp->Df += diffDf;
}
if (ofs > 1000.0) { //dsp->opt_lp
if (fabs(dsp->dDf) > 1e3) {
if (dsp->locked) {
dsp->locked = 0;
dsp->ws_lpIQ = dsp->ws_lpIQ0;

6
demod/multi/demod_base.h
Wyświetl plik

@ -80,17 +80,19 @@ typedef struct {
float *match;
float *bufs;
float mv;
float mv2;
ui32_t mv_pos;
ui32_t mv2_pos;
ui32_t last_detect;
//
int N_norm;
int Nvar;
/*
/*
float xsum;
float qsum;
float *xs;
float *qs;
*/
*/
// IQ-data
int opt_iq;