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SDRPlusPlus/core/src/dsp/demodulator.h

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initial commit
2020-06-10 04:13:56 +02:00
#pragma once
new dsp
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#include <dsp/block.h>
added rx888
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#include <volk/volk.h>
Fixed some stuff
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#include <dsp/filter.h>
#include <dsp/processing.h>
new stuff
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#include <dsp/routing.h>
fixing audio bug
2020-11-02 21:13:28 +01:00
#include <spdlog/spdlog.h>
DSP performance upgrades + bugfix
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#include <dsp/pll.h>
#include <dsp/clock_recovery.h>
fixing audio bug
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new dsp
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#define FAST_ATAN2_COEF1 FL_M_PI / 4.0f
#define FAST_ATAN2_COEF2 3.0f * FAST_ATAN2_COEF1
new stuff
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rewrote DSP
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inline float fast_arctan2(float y, float x) {
new dsp
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float abs_y = fabsf(y);
float r, angle;
if (x == 0.0f && y == 0.0f) { return 0.0f; }
if (x>=0.0f) {
r = (x - abs_y) / (x + abs_y);
angle = FAST_ATAN2_COEF1 - FAST_ATAN2_COEF1 * r;
}
else {
r = (x + abs_y) / (abs_y - x);
angle = FAST_ATAN2_COEF2 - FAST_ATAN2_COEF1 * r;
}
if (y < 0.0f) {
return -angle;
}
Bugfix + added meteor demodulator
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return angle;
new stuff
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}
initial commit
2020-06-10 04:13:56 +02:00
rewrote DSP
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namespace dsp {
Fixed some stuff
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class FloatFMDemod : public generic_block<FloatFMDemod> {
public:
FloatFMDemod() {}
FloatFMDemod(stream<complex_t>* in, float sampleRate, float deviation) { init(in, sampleRate, deviation); }
void init(stream<complex_t>* in, float sampleRate, float deviation) {
_in = in;
_sampleRate = sampleRate;
_deviation = deviation;
phasorSpeed = (2 * FL_M_PI) / (_sampleRate / _deviation);
generic_block<FloatFMDemod>::registerInput(_in);
generic_block<FloatFMDemod>::registerOutput(&out);
}
void setInput(stream<complex_t>* in) {
std::lock_guard<std::mutex> lck(generic_block<FloatFMDemod>::ctrlMtx);
generic_block<FloatFMDemod>::tempStop();
generic_block<FloatFMDemod>::unregisterInput(_in);
_in = in;
generic_block<FloatFMDemod>::registerInput(_in);
generic_block<FloatFMDemod>::tempStart();
}
void setSampleRate(float sampleRate) {
std::lock_guard<std::mutex> lck(generic_block<FloatFMDemod>::ctrlMtx);
generic_block<FloatFMDemod>::tempStop();
_sampleRate = sampleRate;
phasorSpeed = (2 * FL_M_PI) / (_sampleRate / _deviation);
generic_block<FloatFMDemod>::tempStart();
}
float getSampleRate() {
return _sampleRate;
}
void setDeviation(float deviation) {
std::lock_guard<std::mutex> lck(generic_block<FloatFMDemod>::ctrlMtx);
generic_block<FloatFMDemod>::tempStop();
_deviation = deviation;
phasorSpeed = (2 * FL_M_PI) / (_sampleRate / _deviation);
generic_block<FloatFMDemod>::tempStart();
}
float getDeviation() {
return _deviation;
}
int run() {
DSP performance upgrades + bugfix
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int count = _in->read();
Fixed some stuff
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if (count < 0) { return -1; }
// This is somehow faster than volk...
float diff, currentPhase;
for (int i = 0; i < count; i++) {
DSP performance upgrades + bugfix
2021-03-29 21:53:43 +02:00
currentPhase = fast_arctan2(_in->readBuf[i].im, _in->readBuf[i].re);
Fixed some stuff
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diff = currentPhase - phase;
if (diff > 3.1415926535f) { diff -= 2 * 3.1415926535f; }
else if (diff <= -3.1415926535f) { diff += 2 * 3.1415926535f; }
out.writeBuf[i] = diff / phasorSpeed;
phase = currentPhase;
}
_in->flush();
if (!out.swap(count)) { return -1; }
return count;
}
stream<float> out;
private:
DSP performance upgrades + bugfix
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float phase = 0;
float phasorSpeed, _sampleRate, _deviation;
Fixed some stuff
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stream<complex_t>* _in;
};
new dsp
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class FMDemod : public generic_block<FMDemod> {
initial commit
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public:
new dsp
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FMDemod() {}
added stuff idk
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new dsp
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FMDemod(stream<complex_t>* in, float sampleRate, float deviation) { init(in, sampleRate, deviation); }
initial commit
2020-06-10 04:13:56 +02:00
new dsp
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void init(stream<complex_t>* in, float sampleRate, float deviation) {
_in = in;
_sampleRate = sampleRate;
_deviation = deviation;
Fixed DSP
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phasorSpeed = (2 * FL_M_PI) / (_sampleRate / _deviation);
new dsp
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generic_block<FMDemod>::registerInput(_in);
generic_block<FMDemod>::registerOutput(&out);
new stuff
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}
new dsp
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void setInput(stream<complex_t>* in) {
std::lock_guard<std::mutex> lck(generic_block<FMDemod>::ctrlMtx);
generic_block<FMDemod>::tempStop();
Fixed stall
2020-11-02 17:48:17 +01:00
generic_block<FMDemod>::unregisterInput(_in);
new dsp
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_in = in;
Fixed stall
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generic_block<FMDemod>::registerInput(_in);
new dsp
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generic_block<FMDemod>::tempStart();
rewrote DSP
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}
New stuff
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void setSampleRate(float sampleRate) {
new dsp
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std::lock_guard<std::mutex> lck(generic_block<FMDemod>::ctrlMtx);
generic_block<FMDemod>::tempStop();
New stuff
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_sampleRate = sampleRate;
Fixed DSP
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phasorSpeed = (2 * FL_M_PI) / (_sampleRate / _deviation);
new dsp
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generic_block<FMDemod>::tempStart();
}
float getSampleRate() {
return _sampleRate;
New stuff
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}
void setDeviation(float deviation) {
new dsp
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std::lock_guard<std::mutex> lck(generic_block<FMDemod>::ctrlMtx);
generic_block<FMDemod>::tempStop();
New stuff
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_deviation = deviation;
Fixed DSP
2020-11-04 00:42:39 +01:00
phasorSpeed = (2 * FL_M_PI) / (_sampleRate / _deviation);
new dsp
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generic_block<FMDemod>::tempStart();
}
float getDeviation() {
return _deviation;
New stuff
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}
new dsp
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int run() {
DSP performance upgrades + bugfix
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int count = _in->read();
new dsp
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if (count < 0) { return -1; }
initial commit
2020-06-10 04:13:56 +02:00
new dsp
2020-11-02 03:57:44 +01:00
// This is somehow faster than volk...
float diff, currentPhase;
for (int i = 0; i < count; i++) {
DSP performance upgrades + bugfix
2021-03-29 21:53:43 +02:00
currentPhase = fast_arctan2(_in->readBuf[i].im, _in->readBuf[i].re);
new dsp
2020-11-02 03:57:44 +01:00
diff = currentPhase - phase;
Fixed DSP
2020-11-04 00:42:39 +01:00
if (diff > 3.1415926535f) { diff -= 2 * 3.1415926535f; }
else if (diff <= -3.1415926535f) { diff += 2 * 3.1415926535f; }
Fixed some stuff
2021-02-20 15:27:43 +01:00
out.writeBuf[i].l = diff / phasorSpeed;
out.writeBuf[i].r = diff / phasorSpeed;
new dsp
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phase = currentPhase;
initial commit
2020-06-10 04:13:56 +02:00
}
new dsp
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_in->flush();
switched all streams to double buffering
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if (!out.swap(count)) { return -1; }
new dsp
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return count;
initial commit
2020-06-10 04:13:56 +02:00
}
Fixed some stuff
2021-02-20 15:27:43 +01:00
stream<stereo_t> out;
new stuff
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new dsp
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private:
DSP performance upgrades + bugfix
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float phase = 0;
float phasorSpeed, _sampleRate, _deviation;
new dsp
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stream<complex_t>* _in;
new stuff
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new dsp
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};
Fixed some stuff
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class StereoFMDemod : public generic_block<StereoFMDemod> {
public:
StereoFMDemod() {}
StereoFMDemod(stream<complex_t>* in, float sampleRate, float deviation) { init(in, sampleRate, deviation); }
~StereoFMDemod() {
More bugfix
2021-03-30 03:37:40 +02:00
generic_block<StereoFMDemod>::stop();
Fixed some stuff
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delete[] doubledPilot;
delete[] a_minus_b;
delete[] a_out;
delete[] b_out;
}
void init(stream<complex_t>* in, float sampleRate, float deviation) {
_sampleRate = sampleRate;
doubledPilot = new float[STREAM_BUFFER_SIZE];
a_minus_b = new float[STREAM_BUFFER_SIZE];
a_out = new float[STREAM_BUFFER_SIZE];
b_out = new float[STREAM_BUFFER_SIZE];
fmDemod.init(in, sampleRate, deviation);
split.init(&fmDemod.out);
split.bindStream(&filterInput);
split.bindStream(&decodeInput);
// Filter init
win.init(1000, 1000, 19000, sampleRate);
filter.init(&filterInput, &win);
agc.init(&filter.out, 20.0f, sampleRate);
generic_block<StereoFMDemod>::registerInput(&decodeInput);
generic_block<StereoFMDemod>::registerOutput(&out);
}
void setInput(stream<complex_t>* in) {
std::lock_guard<std::mutex> lck(generic_block<StereoFMDemod>::ctrlMtx);
generic_block<StereoFMDemod>::tempStop();
fmDemod.setInput(in);
generic_block<StereoFMDemod>::tempStart();
}
void setSampleRate(float sampleRate) {
std::lock_guard<std::mutex> lck(generic_block<StereoFMDemod>::ctrlMtx);
generic_block<StereoFMDemod>::tempStop();
_sampleRate = sampleRate;
fmDemod.setSampleRate(sampleRate);
win.setSampleRate(_sampleRate);
filter.updateWindow(&win);
generic_block<StereoFMDemod>::tempStart();
}
float getSampleRate() {
return _sampleRate;
}
void setDeviation(float deviation) {
std::lock_guard<std::mutex> lck(generic_block<StereoFMDemod>::ctrlMtx);
generic_block<StereoFMDemod>::tempStop();
fmDemod.setDeviation(deviation);
generic_block<StereoFMDemod>::tempStart();
}
float getDeviation() {
return fmDemod.getDeviation();
}
int run() {
count = decodeInput.read();
if (count < 0) { return -1; }
countFilter = agc.out.read();
if (countFilter < 0) { return -1; }
volk_32f_x2_multiply_32f(doubledPilot, agc.out.readBuf, agc.out.readBuf, count);
volk_32f_x2_multiply_32f(a_minus_b, decodeInput.readBuf, doubledPilot, count);
volk_32f_x2_add_32f(a_out, decodeInput.readBuf, a_minus_b, count);
volk_32f_x2_subtract_32f(b_out, decodeInput.readBuf, a_minus_b, count);
decodeInput.flush();
agc.out.flush();
volk_32f_x2_interleave_32fc((lv_32fc_t*)out.writeBuf, a_out, b_out, count);
if (!out.swap(count)) { return -1; }
return count;
}
void start() {
std::lock_guard<std::mutex> lck(generic_block<StereoFMDemod>::ctrlMtx);
if (generic_block<StereoFMDemod>::running) {
return;
}
generic_block<StereoFMDemod>::running = true;
generic_block<StereoFMDemod>::doStart();
fmDemod.start();
split.start();
filter.start();
agc.start();
}
void stop() {
std::lock_guard<std::mutex> lck(generic_block<StereoFMDemod>::ctrlMtx);
if (!generic_block<StereoFMDemod>::running) {
return;
}
fmDemod.stop();
split.stop();
filter.stop();
agc.stop();
generic_block<StereoFMDemod>::doStop();
generic_block<StereoFMDemod>::running = false;
}
stream<stereo_t> out;
private:
int count;
int countFilter;
float _sampleRate;
FloatFMDemod fmDemod;
Splitter<float> split;
// Pilot tone filtering
stream<float> filterInput;
FIR<float> filter;
filter_window::BlackmanBandpassWindow win;
AGC agc;
stream<float> decodeInput;
// Buffers
float* doubledPilot;
float* a_minus_b;
float* a_out;
float* b_out;
};
new dsp
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class AMDemod : public generic_block<AMDemod> {
new stuff
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public:
new dsp
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AMDemod() {}
new stuff
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new dsp
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AMDemod(stream<complex_t>* in) { init(in); }
new stuff
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new dsp
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void init(stream<complex_t>* in) {
_in = in;
generic_block<AMDemod>::registerInput(_in);
generic_block<AMDemod>::registerOutput(&out);
new stuff
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}
new dsp
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void setInput(stream<complex_t>* in) {
std::lock_guard<std::mutex> lck(generic_block<AMDemod>::ctrlMtx);
generic_block<AMDemod>::tempStop();
Fixed stall
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generic_block<AMDemod>::unregisterInput(_in);
new dsp
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_in = in;
Fixed stall
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generic_block<AMDemod>::registerInput(_in);
new dsp
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generic_block<AMDemod>::tempStart();
new stuff
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}
new dsp
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int run() {
DSP performance upgrades + bugfix
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int count = _in->read();
new dsp
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if (count < 0) { return -1; }
switched all streams to double buffering
2020-12-25 16:58:07 +01:00
volk_32fc_magnitude_32f(out.writeBuf, (lv_32fc_t*)_in->readBuf, count);
new dsp
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_in->flush();
added rx888
2020-11-12 00:53:38 +01:00
DSP performance upgrades + bugfix
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float avg;
switched all streams to double buffering
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volk_32f_accumulator_s32f(&avg, out.writeBuf, count);
added rx888
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avg /= (float)count;
for (int i = 0; i < count; i++) {
switched all streams to double buffering
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out.writeBuf[i] -= avg;
added rx888
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}
switched all streams to double buffering
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if (!out.swap(count)) { return -1; }
new dsp
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return count;
rewrote DSP
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}
new dsp
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stream<float> out;
new stuff
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private:
new dsp
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stream<complex_t>* _in;
new stuff
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};
New stuff
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new dsp
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class SSBDemod : public generic_block<SSBDemod> {
New stuff
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public:
new dsp
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SSBDemod() {}
New stuff
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new dsp
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SSBDemod(stream<complex_t>* in, float sampleRate, float bandWidth, int mode) { init(in, sampleRate, bandWidth, mode); }
New stuff
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Fixed SSB demod bug
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~SSBDemod() {
generic_block<SSBDemod>::stop();
delete[] buffer;
}
new dsp
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enum {
MODE_USB,
MODE_LSB,
MODE_DSB
};
void init(stream<complex_t>* in, float sampleRate, float bandWidth, int mode) {
_in = in;
_sampleRate = sampleRate;
New stuff
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_bandWidth = bandWidth;
new dsp
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_mode = mode;
phase = lv_cmake(1.0f, 0.0f);
switch (_mode) {
case MODE_USB:
phaseDelta = lv_cmake(std::cos((_bandWidth / _sampleRate) * FL_M_PI), std::sin((_bandWidth / _sampleRate) * FL_M_PI));
break;
case MODE_LSB:
phaseDelta = lv_cmake(std::cos(-(_bandWidth / _sampleRate) * FL_M_PI), std::sin(-(_bandWidth / _sampleRate) * FL_M_PI));
break;
case MODE_DSB:
phaseDelta = lv_cmake(1.0f, 0.0f);
break;
}
Fixed SSB demod bug
2020-12-06 19:51:56 +01:00
buffer = new lv_32fc_t[STREAM_BUFFER_SIZE];
new dsp
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generic_block<SSBDemod>::registerInput(_in);
generic_block<SSBDemod>::registerOutput(&out);
New stuff
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}
new dsp
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void setInput(stream<complex_t>* in) {
std::lock_guard<std::mutex> lck(generic_block<SSBDemod>::ctrlMtx);
generic_block<SSBDemod>::tempStop();
Fixed stall
2020-11-02 17:48:17 +01:00
generic_block<SSBDemod>::unregisterInput(_in);
new dsp
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_in = in;
Fixed stall
2020-11-02 17:48:17 +01:00
generic_block<SSBDemod>::registerInput(_in);
new dsp
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generic_block<SSBDemod>::tempStart();
New stuff
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}
new dsp
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void setSampleRate(float sampleRate) {
// No need to restart
_sampleRate = sampleRate;
switch (_mode) {
case MODE_USB:
phaseDelta = lv_cmake(std::cos((_bandWidth / _sampleRate) * FL_M_PI), std::sin((_bandWidth / _sampleRate) * FL_M_PI));
break;
case MODE_LSB:
phaseDelta = lv_cmake(std::cos(-(_bandWidth / _sampleRate) * FL_M_PI), std::sin(-(_bandWidth / _sampleRate) * FL_M_PI));
break;
case MODE_DSB:
phaseDelta = lv_cmake(1.0f, 0.0f);
break;
}
New stuff
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}
new dsp
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void setBandWidth(float bandWidth) {
// No need to restart
_bandWidth = bandWidth;
switch (_mode) {
case MODE_USB:
phaseDelta = lv_cmake(std::cos((_bandWidth / _sampleRate) * FL_M_PI), std::sin((_bandWidth / _sampleRate) * FL_M_PI));
break;
case MODE_LSB:
phaseDelta = lv_cmake(std::cos(-(_bandWidth / _sampleRate) * FL_M_PI), std::sin(-(_bandWidth / _sampleRate) * FL_M_PI));
break;
case MODE_DSB:
phaseDelta = lv_cmake(1.0f, 0.0f);
break;
New stuff
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}
}
void setMode(int mode) {
_mode = mode;
new dsp
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switch (_mode) {
case MODE_USB:
phaseDelta = lv_cmake(std::cos((_bandWidth / _sampleRate) * FL_M_PI), std::sin((_bandWidth / _sampleRate) * FL_M_PI));
break;
case MODE_LSB:
phaseDelta = lv_cmake(std::cos(-(_bandWidth / _sampleRate) * FL_M_PI), std::sin(-(_bandWidth / _sampleRate) * FL_M_PI));
break;
case MODE_DSB:
phaseDelta = lv_cmake(1.0f, 0.0f);
break;
New stuff lmao
2020-08-20 18:29:23 +02:00
}
New stuff
2020-07-19 15:59:44 +02:00
}
new dsp
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int run() {
DSP performance upgrades + bugfix
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int count = _in->read();
new dsp
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if (count < 0) { return -1; }
New stuff
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switched all streams to double buffering
2020-12-25 16:58:07 +01:00
volk_32fc_s32fc_x2_rotator_32fc(buffer, (lv_32fc_t*)_in->readBuf, phaseDelta, &phase, count);
volk_32fc_deinterleave_real_32f(out.writeBuf, buffer, count);
New stuff
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new dsp
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_in->flush();
switched all streams to double buffering
2020-12-25 16:58:07 +01:00
if (!out.swap(count)) { return -1; }
new dsp
2020-11-02 03:57:44 +01:00
return count;
New stuff
2020-07-19 15:59:44 +02:00
}
new dsp
2020-11-02 03:57:44 +01:00
stream<float> out;
New stuff lmao
2020-08-20 18:29:23 +02:00
new dsp
2020-11-02 03:57:44 +01:00
private:
int _mode;
float _sampleRate, _bandWidth;
stream<complex_t>* _in;
Fixed SSB demod bug
2020-12-06 19:51:56 +01:00
lv_32fc_t* buffer;
new dsp
2020-11-02 03:57:44 +01:00
lv_32fc_t phase;
lv_32fc_t phaseDelta;
New stuff lmao
2020-08-20 18:29:23 +02:00
new dsp
2020-11-02 03:57:44 +01:00
};
DSP performance upgrades + bugfix
2021-03-29 21:53:43 +02:00
class MSKDemod : public generic_hier_block<MSKDemod> {
public:
MSKDemod() {}
Bugfix + added meteor demodulator
2021-04-01 16:54:16 +02:00
MSKDemod(stream<complex_t>* input, float sampleRate, float deviation, float baudRate, float omegaGain = (0.01*0.01) / 4, float muGain = 0.01f, float omegaRelLimit = 0.005f) {
Beginning of code for the RSPduo + bugfix for the hackrf
2021-04-10 03:06:51 +02:00
init(input, sampleRate, deviation, baudRate, omegaGain, muGain, omegaRelLimit);
Bugfix + added meteor demodulator
2021-04-01 16:54:16 +02:00
}
DSP performance upgrades + bugfix
2021-03-29 21:53:43 +02:00
Bugfix + added meteor demodulator
2021-04-01 16:54:16 +02:00
void init(stream<complex_t>* input, float sampleRate, float deviation, float baudRate, float omegaGain = (0.01*0.01) / 4, float muGain = 0.01f, float omegaRelLimit = 0.005f) {
_sampleRate = sampleRate;
_deviation = deviation;
_baudRate = baudRate;
_omegaGain = omegaGain;
_muGain = muGain;
_omegaRelLimit = omegaRelLimit;
demod.init(input, _sampleRate, _deviation);
recov.init(&demod.out, _sampleRate / _baudRate, _omegaGain, _muGain, _omegaRelLimit);
DSP performance upgrades + bugfix
2021-03-29 21:53:43 +02:00
out = &recov.out;
generic_hier_block<MSKDemod>::registerBlock(&demod);
generic_hier_block<MSKDemod>::registerBlock(&recov);
}
Bugfix + added meteor demodulator
2021-04-01 16:54:16 +02:00
void setSampleRate(float sampleRate) {
generic_hier_block<MSKDemod>::tempStop();
_sampleRate = sampleRate;
demod.setSampleRate(_sampleRate);
recov.setOmega(_sampleRate / _baudRate, _omegaRelLimit);
generic_hier_block<MSKDemod>::tempStart();
}
void setDeviation(float deviation) {
_deviation = deviation;
demod.setDeviation(deviation);
}
void setBaudRate(float baudRate, float omegaRelLimit) {
_baudRate = baudRate;
_omegaRelLimit = omegaRelLimit;
recov.setOmega(_sampleRate / _baudRate, _omegaRelLimit);
}
void setMMGains(float omegaGain, float myGain) {
_omegaGain = omegaGain;
_muGain = myGain;
recov.setGains(_omegaGain, _muGain);
}
void setOmegaRelLimit(float omegaRelLimit) {
_omegaRelLimit = omegaRelLimit;
recov.setOmegaRelLimit(_omegaRelLimit);
}
DSP performance upgrades + bugfix
2021-03-29 21:53:43 +02:00
stream<float>* out = NULL;
private:
FloatFMDemod demod;
MMClockRecovery<float> recov;
Bugfix + added meteor demodulator
2021-04-01 16:54:16 +02:00
float _sampleRate;
float _deviation;
float _baudRate;
float _omegaGain;
float _muGain;
float _omegaRelLimit;
};
template<int ORDER, bool OFFSET>
class PSKDemod : public generic_hier_block<PSKDemod<ORDER, OFFSET>> {
public:
PSKDemod() {}
Beginning of code for the RSPduo + bugfix for the hackrf
2021-04-10 03:06:51 +02:00
PSKDemod(stream<complex_t>* input, float sampleRate, float baudRate, int RRCTapCount = 31, float RRCAlpha = 0.32f, float agcRate = 10e-4, float costasLoopBw = 0.004f, float omegaGain = (0.01*0.01) / 4, float muGain = 0.01f, float omegaRelLimit = 0.005f) {
Fixed other issues
2021-04-01 17:42:04 +02:00
init(input, sampleRate, baudRate, RRCTapCount, RRCAlpha, agcRate, costasLoopBw, omegaGain, muGain, omegaRelLimit);
Bugfix + added meteor demodulator
2021-04-01 16:54:16 +02:00
}
Beginning of code for the RSPduo + bugfix for the hackrf
2021-04-10 03:06:51 +02:00
void init(stream<complex_t>* input, float sampleRate, float baudRate, int RRCTapCount = 31, float RRCAlpha = 0.32f, float agcRate = 10e-4, float costasLoopBw = 0.004f, float omegaGain = (0.01*0.01) / 4, float muGain = 0.01f, float omegaRelLimit = 0.005f) {
Bugfix + added meteor demodulator
2021-04-01 16:54:16 +02:00
_RRCTapCount = RRCTapCount;
_RRCAlpha = RRCAlpha;
_sampleRate = sampleRate;
_agcRate = agcRate;
_costasLoopBw = costasLoopBw;
_baudRate = baudRate;
_omegaGain = omegaGain;
_muGain = muGain;
_omegaRelLimit = omegaRelLimit;
agc.init(input, 1.0f, 65535, _agcRate);
taps.init(_RRCTapCount, _sampleRate, _baudRate, _RRCAlpha);
rrc.init(&agc.out, &taps);
demod.init(&rrc.out, _costasLoopBw);
generic_hier_block<PSKDemod<ORDER, OFFSET>>::registerBlock(&agc);
generic_hier_block<PSKDemod<ORDER, OFFSET>>::registerBlock(&rrc);
generic_hier_block<PSKDemod<ORDER, OFFSET>>::registerBlock(&demod);
if constexpr (OFFSET) {
delay.init(&demod.out);
recov.init(&delay.out, _sampleRate / _baudRate, _omegaGain, _muGain, _omegaRelLimit);
generic_hier_block<PSKDemod<ORDER, OFFSET>>::registerBlock(&delay);
}
else {
recov.init(&demod.out, _sampleRate / _baudRate, _omegaGain, _muGain, _omegaRelLimit);
}
generic_hier_block<PSKDemod<ORDER, OFFSET>>::registerBlock(&recov);
out = &recov.out;
}
void setInput(stream<complex_t>* input) {
agc.setInput(input);
}
void setSampleRate(float sampleRate) {
_sampleRate = sampleRate;
rrc.tempStop();
recov.tempStop();
taps.setSampleRate(_sampleRate);
rrc.updateWindow(&taps);
recov.setOmega(_sampleRate / _baudRate, _omegaRelLimit);
rrc.tempStart();
recov.tempStart();
}
void setBaudRate(float baudRate) {
_baudRate = baudRate;
rrc.tempStop();
recov.tempStop();
taps.setBaudRate(_baudRate);
rrc.updateWindow(&taps);
recov.setOmega(_sampleRate / _baudRate, _omegaRelLimit);
rrc.tempStart();
recov.tempStart();
}
void setRRCParams(int RRCTapCount, float RRCAlpha) {
_RRCTapCount = RRCTapCount;
_RRCAlpha = RRCAlpha;
taps.setTapCount(_RRCTapCount);
taps.setAlpha(RRCAlpha);
rrc.updateWindow(&taps);
}
void setAgcRate(float agcRate) {
_agcRate = agcRate;
agc.setRate(_agcRate);
}
void setCostasLoopBw(float costasLoopBw) {
_costasLoopBw = costasLoopBw;
Fixed other issues 2
2021-04-01 17:42:30 +02:00
demod.setLoopBandwidth(_costasLoopBw);
Bugfix + added meteor demodulator
2021-04-01 16:54:16 +02:00
}
void setMMGains(float omegaGain, float myGain) {
_omegaGain = omegaGain;
_muGain = myGain;
recov.setGains(_omegaGain, _muGain);
}
void setOmegaRelLimit(float omegaRelLimit) {
_omegaRelLimit = omegaRelLimit;
recov.setOmegaRelLimit(_omegaRelLimit);
}
stream<complex_t>* out = NULL;
private:
dsp::ComplexAGC agc;
dsp::RRCTaps taps;
dsp::FIR<dsp::complex_t> rrc;
CostasLoop<ORDER> demod;
DelayImag delay;
MMClockRecovery<dsp::complex_t> recov;
int _RRCTapCount;
float _RRCAlpha;
float _sampleRate;
float _agcRate;
float _baudRate;
float _costasLoopBw;
float _omegaGain;
float _muGain;
float _omegaRelLimit;
DSP performance upgrades + bugfix
2021-03-29 21:53:43 +02:00
};
Beginning of code for the RSPduo + bugfix for the hackrf
2021-04-10 03:06:51 +02:00
class PMDemod : public generic_hier_block<PMDemod> {
public:
PMDemod() {}
PMDemod(stream<complex_t>* input, float sampleRate, float baudRate, float agcRate = 0.02e-3f, float pllLoopBandwidth = (0.06f*0.06f) / 4.0f, int rrcTapCount = 31, float rrcAlpha = 0.6f, float omegaGain = (0.01*0.01) / 4, float muGain = 0.01f, float omegaRelLimit = 0.005f) {
init(input, sampleRate, baudRate, agcRate, pllLoopBandwidth, rrcTapCount, rrcAlpha, omegaGain, muGain, omegaRelLimit);
}
void init(stream<complex_t>* input, float sampleRate, float baudRate, float agcRate = 0.02e-3f, float pllLoopBandwidth = (0.06f*0.06f) / 4.0f, int rrcTapCount = 31, float rrcAlpha = 0.6f, float omegaGain = (0.01*0.01) / 4, float muGain = 0.01f, float omegaRelLimit = 0.005f) {
_sampleRate = sampleRate;
_baudRate = baudRate;
_agcRate = agcRate;
_pllLoopBandwidth = pllLoopBandwidth;
_rrcTapCount = rrcTapCount;
_rrcAlpha = rrcAlpha;
_omegaGain = omegaGain;
_muGain = muGain;
_omegaRelLimit = omegaRelLimit;
agc.init(input, 1.0f, 65535, _agcRate);
pll.init(&agc.out, _pllLoopBandwidth);
rrcwin.init(_rrcTapCount, _sampleRate, _baudRate, _rrcAlpha);
rrc.init(&pll.out, &rrcwin);
recov.init(&rrc.out, _sampleRate / _baudRate, _omegaGain, _muGain, _omegaRelLimit);
out = &recov.out;
generic_hier_block<PMDemod>::registerBlock(&agc);
generic_hier_block<PMDemod>::registerBlock(&pll);
generic_hier_block<PMDemod>::registerBlock(&rrc);
generic_hier_block<PMDemod>::registerBlock(&recov);
}
void setInput(stream<complex_t>* input) {
agc.setInput(input);
}
void setAgcRate(float agcRate) {
_agcRate = agcRate;
agc.setRate(_agcRate);
}
void setPllLoopBandwidth(float pllLoopBandwidth) {
_pllLoopBandwidth = pllLoopBandwidth;
pll.setLoopBandwidth(_pllLoopBandwidth);
}
void setRRCParams(int rrcTapCount, float rrcAlpha) {
_rrcTapCount = rrcTapCount;
_rrcAlpha = rrcAlpha;
rrcwin.setTapCount(_rrcTapCount);
rrcwin.setAlpha(_rrcAlpha);
rrc.updateWindow(&rrcwin);
}
void setMMGains(float omegaGain, float muGain) {
_omegaGain = omegaGain;
_muGain = muGain;
recov.setGains(_omegaGain, _muGain);
}
void setOmegaRelLimit(float omegaRelLimit) {
_omegaRelLimit = omegaRelLimit;
recov.setOmegaRelLimit(_omegaRelLimit);
}
stream<float>* out = NULL;
private:
dsp::ComplexAGC agc;
dsp::CarrierTrackingPLL<float> pll;
dsp::RRCTaps rrcwin;
dsp::FIR<float> rrc;
dsp::MMClockRecovery<float> recov;
float _sampleRate;
float _baudRate;
float _agcRate;
float _pllLoopBandwidth;
int _rrcTapCount;
float _rrcAlpha;
float _omegaGain;
float _muGain;
float _omegaRelLimit;
};
new dsp
2020-11-02 03:57:44 +01:00
}
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