2011-03-02 07:37:39 -05:00
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/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */
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/*
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QM DSP Library
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Centre for Digital Music, Queen Mary, University of London.
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This file 2005-2006 Christian Landone.
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This program is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public License as
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published by the Free Software Foundation; either version 2 of the
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License, or (at your option) any later version. See the file
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COPYING included with this distribution for more information.
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*/
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#include "DetectionFunction.h"
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#include <cstring>
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//////////////////////////////////////////////////////////////////////
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// Construction/Destruction
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//////////////////////////////////////////////////////////////////////
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DetectionFunction::DetectionFunction( DFConfig Config ) :
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m_window(0)
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{
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m_magHistory = NULL;
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m_phaseHistory = NULL;
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m_phaseHistoryOld = NULL;
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m_magPeaks = NULL;
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initialise( Config );
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}
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DetectionFunction::~DetectionFunction()
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{
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deInitialise();
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}
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void DetectionFunction::initialise( DFConfig Config )
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{
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m_dataLength = Config.frameLength;
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m_halfLength = m_dataLength/2;
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m_DFType = Config.DFType;
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m_stepSize = Config.stepSize;
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m_whiten = Config.adaptiveWhitening;
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m_whitenRelaxCoeff = Config.whiteningRelaxCoeff;
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m_whitenFloor = Config.whiteningFloor;
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if (m_whitenRelaxCoeff < 0) m_whitenRelaxCoeff = 0.9997;
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if (m_whitenFloor < 0) m_whitenFloor = 0.01;
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m_magHistory = new double[ m_halfLength ];
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memset(m_magHistory,0, m_halfLength*sizeof(double));
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2011-03-02 07:37:39 -05:00
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m_phaseHistory = new double[ m_halfLength ];
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memset(m_phaseHistory,0, m_halfLength*sizeof(double));
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m_phaseHistoryOld = new double[ m_halfLength ];
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memset(m_phaseHistoryOld,0, m_halfLength*sizeof(double));
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m_magPeaks = new double[ m_halfLength ];
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memset(m_magPeaks,0, m_halfLength*sizeof(double));
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// See note in process(const double *) below
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int actualLength = MathUtilities::previousPowerOfTwo(m_dataLength);
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m_phaseVoc = new PhaseVocoder(actualLength);
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m_DFWindowedFrame = new double[ m_dataLength ];
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m_magnitude = new double[ m_halfLength ];
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m_thetaAngle = new double[ m_halfLength ];
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m_window = new Window<double>(HanningWindow, m_dataLength);
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}
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void DetectionFunction::deInitialise()
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{
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delete [] m_magHistory ;
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delete [] m_phaseHistory ;
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delete [] m_phaseHistoryOld ;
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delete [] m_magPeaks ;
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delete m_phaseVoc;
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delete [] m_DFWindowedFrame;
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delete [] m_magnitude;
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delete [] m_thetaAngle;
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delete m_window;
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}
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double DetectionFunction::process( const double *TDomain )
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{
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m_window->cut( TDomain, m_DFWindowedFrame );
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// Our own FFT implementation supports power-of-two sizes only.
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// If we have to use this implementation (as opposed to the
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// version of process() below that operates on frequency domain
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// data directly), we will have to use the next smallest power of
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// two from the block size. Results may vary accordingly!
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2011-09-30 13:55:14 -04:00
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unsigned int actualLength = MathUtilities::previousPowerOfTwo(m_dataLength);
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if (actualLength != m_dataLength) {
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// Pre-fill mag and phase vectors with zero, as the FFT output
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// will not fill the arrays
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for (unsigned int i = actualLength/2; i < m_dataLength/2; ++i) {
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m_magnitude[i] = 0;
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m_thetaAngle[0] = 0;
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}
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}
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m_phaseVoc->process(m_DFWindowedFrame, m_magnitude, m_thetaAngle);
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if (m_whiten) whiten();
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return runDF();
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}
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double DetectionFunction::process( const double *magnitudes, const double *phases )
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{
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for (size_t i = 0; i < m_halfLength; ++i) {
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m_magnitude[i] = magnitudes[i];
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m_thetaAngle[i] = phases[i];
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}
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if (m_whiten) whiten();
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return runDF();
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}
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void DetectionFunction::whiten()
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{
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for (unsigned int i = 0; i < m_halfLength; ++i) {
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double m = m_magnitude[i];
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if (m < m_magPeaks[i]) {
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m = m + (m_magPeaks[i] - m) * m_whitenRelaxCoeff;
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}
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if (m < m_whitenFloor) m = m_whitenFloor;
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m_magPeaks[i] = m;
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m_magnitude[i] /= m;
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}
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}
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double DetectionFunction::runDF()
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{
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double retVal = 0;
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switch( m_DFType )
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{
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case DF_HFC:
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retVal = HFC( m_halfLength, m_magnitude);
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break;
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2011-03-02 07:37:39 -05:00
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case DF_SPECDIFF:
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retVal = specDiff( m_halfLength, m_magnitude);
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break;
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2011-03-02 07:37:39 -05:00
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case DF_PHASEDEV:
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retVal = phaseDev( m_halfLength, m_thetaAngle);
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break;
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2011-03-02 07:37:39 -05:00
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case DF_COMPLEXSD:
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retVal = complexSD( m_halfLength, m_magnitude, m_thetaAngle);
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break;
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case DF_BROADBAND:
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retVal = broadband( m_halfLength, m_magnitude);
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break;
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}
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2011-03-02 07:37:39 -05:00
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return retVal;
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}
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double DetectionFunction::HFC(unsigned int length, double *src)
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{
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unsigned int i;
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double val = 0;
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for( i = 0; i < length; i++)
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{
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val += src[ i ] * ( i + 1);
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}
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return val;
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}
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double DetectionFunction::specDiff(unsigned int length, double *src)
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{
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unsigned int i;
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double val = 0.0;
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double temp = 0.0;
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double diff = 0.0;
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for( i = 0; i < length; i++)
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{
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temp = fabs( (src[ i ] * src[ i ]) - (m_magHistory[ i ] * m_magHistory[ i ]) );
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diff= sqrt(temp);
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// (See note in phaseDev below.)
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val += diff;
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m_magHistory[ i ] = src[ i ];
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}
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return val;
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}
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double DetectionFunction::phaseDev(unsigned int length, double *srcPhase)
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{
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unsigned int i;
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double tmpPhase = 0;
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double tmpVal = 0;
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double val = 0;
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double dev = 0;
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for( i = 0; i < length; i++)
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{
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tmpPhase = (srcPhase[ i ]- 2*m_phaseHistory[ i ]+m_phaseHistoryOld[ i ]);
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dev = MathUtilities::princarg( tmpPhase );
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// A previous version of this code only counted the value here
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// if the magnitude exceeded 0.1. My impression is that
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// doesn't greatly improve the results for "loud" music (so
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// long as the peak picker is reasonably sophisticated), but
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// does significantly damage its ability to work with quieter
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// music, so I'm removing it and counting the result always.
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// Same goes for the spectral difference measure above.
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tmpVal = fabs(dev);
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val += tmpVal ;
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m_phaseHistoryOld[ i ] = m_phaseHistory[ i ] ;
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m_phaseHistory[ i ] = srcPhase[ i ];
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}
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2011-03-02 07:37:39 -05:00
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return val;
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}
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double DetectionFunction::complexSD(unsigned int length, double *srcMagnitude, double *srcPhase)
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{
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unsigned int i;
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double val = 0;
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double tmpPhase = 0;
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double tmpReal = 0;
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double tmpImag = 0;
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2011-03-02 07:37:39 -05:00
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double dev = 0;
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ComplexData meas = ComplexData( 0, 0 );
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ComplexData j = ComplexData( 0, 1 );
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for( i = 0; i < length; i++)
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{
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tmpPhase = (srcPhase[ i ]- 2*m_phaseHistory[ i ]+m_phaseHistoryOld[ i ]);
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dev= MathUtilities::princarg( tmpPhase );
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meas = m_magHistory[i] - ( srcMagnitude[ i ] * exp( j * dev) );
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tmpReal = real( meas );
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tmpImag = imag( meas );
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val += sqrt( (tmpReal * tmpReal) + (tmpImag * tmpImag) );
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m_phaseHistoryOld[ i ] = m_phaseHistory[ i ] ;
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m_phaseHistory[ i ] = srcPhase[ i ];
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m_magHistory[ i ] = srcMagnitude[ i ];
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}
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return val;
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}
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double DetectionFunction::broadband(unsigned int length, double *src)
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{
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double val = 0;
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for (unsigned int i = 0; i < length; ++i) {
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double sqrmag = src[i] * src[i];
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if (m_magHistory[i] > 0.0) {
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double diff = 10.0 * log10(sqrmag / m_magHistory[i]);
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if (diff > m_dbRise) val = val + 1;
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}
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m_magHistory[i] = sqrmag;
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}
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return val;
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}
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double* DetectionFunction::getSpectrumMagnitude()
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{
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return m_magnitude;
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}
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