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sdrangel/sdrbase/dsp/agc.cpp

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/*
* agc.cpp
*
* Created on: Sep 7, 2015
* Author: f4exb
*/
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#include <algorithm>
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#include "dsp/agc.h"
#include "util/stepfunctions.h"
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#define StepLengthMax 2400 // 50ms
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AGC::AGC(int historySize, double R) :
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m_u0(1.0),
m_R(R),
m_moving_average(historySize, m_R),
m_historySize(historySize),
m_count(0)
{}
AGC::~AGC()
{}
void AGC::resize(int historySize, double R)
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{
m_R = R;
m_moving_average.resize(historySize, R);
m_historySize = historySize;
m_count = 0;
}
Real AGC::getValue()
{
return m_u0;
}
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Real AGC::getAverage()
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{
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return m_moving_average.average();
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}
MagAGC::MagAGC(int historySize, double R, double threshold) :
AGC(historySize, R),
m_squared(false),
m_magsq(0.0),
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m_threshold(threshold),
m_thresholdEnable(true),
m_gate(0),
m_stepLength(std::min(StepLengthMax, historySize/2)),
m_stepDelta(1.0/m_stepLength),
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m_stepUpCounter(0),
m_stepDownCounter(m_stepLength),
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m_gateCounter(0),
m_stepDownDelay(historySize),
m_clamping(false),
m_R2(R*R),
m_clampMax(1.0)
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{}
MagAGC::~MagAGC()
{}
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void MagAGC::resize(int historySize, Real R)
{
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m_R2 = R*R;
m_stepLength = std::min(StepLengthMax, historySize/2);
m_stepDelta = 1.0 / m_stepLength;
m_stepUpCounter = 0;
m_stepDownCounter = m_stepLength;
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AGC::resize(historySize, R);
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m_moving_average.fill(0);
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}
void MagAGC::setOrder(double R)
{
m_R2 = R*R;
AGC::setOrder(R);
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m_moving_average.fill(0);
}
void MagAGC::setThresholdEnable(bool enable)
{
if (m_thresholdEnable != enable)
{
m_stepUpCounter = 0;
m_stepDownCounter = m_stepLength;
}
m_thresholdEnable = enable;
}
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void MagAGC::feed(Complex& ci)
{
ci *= feedAndGetValue(ci);
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}
double MagAGC::feedAndGetValue(const Complex& ci)
{
m_magsq = ci.real()*ci.real() + ci.imag()*ci.imag();
m_moving_average.feed(m_magsq);
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if (m_clamping)
{
if (m_squared)
{
double u0 = m_R / m_moving_average.average();
m_u0 = (u0 * m_magsq > m_clampMax) ? m_clampMax / m_magsq : u0;
}
else
{
double u02 = m_R2 / m_moving_average.average();
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m_u0 = (u02 * m_magsq > m_clampMax) ? sqrt(m_clampMax / m_magsq) : sqrt(u02);
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}
}
else
{
m_u0 = m_R / (m_squared ? m_moving_average.average() : sqrt(m_moving_average.average()));
}
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if (m_thresholdEnable)
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{
if (m_magsq > m_threshold)
{
if (m_gateCounter < m_gate)
{
m_gateCounter++;
}
else
{
m_count = 0;
}
}
else
{
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if (m_count < m_stepDownDelay) {
m_count++;
}
m_gateCounter = 0;
}
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if (m_count < m_stepDownDelay)
{
m_stepDownCounter = m_stepUpCounter;
if (m_stepUpCounter < m_stepLength)
{
m_stepUpCounter++;
return m_u0 * StepFunctions::smootherstep(m_stepUpCounter * m_stepDelta);
}
else
{
return m_u0;
}
}
else
{
m_stepUpCounter = m_stepDownCounter;
if (m_stepDownCounter > 0)
{
m_stepDownCounter--;
return m_u0 * StepFunctions::smootherstep(m_stepDownCounter * m_stepDelta);
}
else
{
return 0.0;
}
}
}
else
{
return m_u0;
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}
}
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AlphaAGC::AlphaAGC(int historySize, Real R) :
AGC(historySize, R),
m_alpha(0.5),
m_magsq(0.0),
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m_squelchOpen(true)
{}
AlphaAGC::AlphaAGC(int historySize, Real R, Real alpha) :
AGC(historySize, R),
m_alpha(alpha),
m_magsq(0.0),
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m_squelchOpen(true)
{}
AlphaAGC::~AlphaAGC()
{}
void AlphaAGC::resize(int historySize, Real R, Real alpha)
{
m_R = R;
m_alpha = alpha;
m_squelchOpen = true;
m_moving_average.resize(historySize, R);
}
void AlphaAGC::feed(Complex& ci)
{
m_magsq = ci.real()*ci.real() + ci.imag()*ci.imag();
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if (m_squelchOpen && (m_magsq))
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{
m_moving_average.feed(m_moving_average.average() - m_alpha*(m_moving_average.average() - m_magsq));
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}
else
{
//m_squelchOpen = true;
m_moving_average.feed(m_magsq);
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}
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ci *= m_u0;
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}