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/*
* Copyright 2011 Free Software Foundation, Inc.
* Copyright 2008, 2010 Kestrel Signal Processing, Inc.
*
* This software is distributed under the terms of the GNU Affero Public License.
* See the COPYING file in the main directory for details.
*
* This use of this software may be subject to additional restrictions.
* See the LEGAL file in the main directory for details.
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU Affero General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*
Contributors:
Harvind S. Samra, hssamra@kestrelsp.com
*/
#include "sigProcLib.h"
//#include "radioInterface.h"
#include <Logger.h>
#include <Configuration.h>
using namespace std;
ConfigurationTable gConfig;
int main(int argc, char **argv) {
gLogInit("sigProcLibTest","DEBUG");
int samplesPerSymbol = 1;
int TSC = 2;
sigProcLibSetup(samplesPerSymbol);
signalVector *gsmPulse = generateGSMPulse(2,samplesPerSymbol);
cout << *gsmPulse << endl;
BitVector RACHBurstStart = "01010101";
BitVector RACHBurstRest = "000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000";
BitVector RACHBurst(BitVector(RACHBurstStart,gRACHSynchSequence),RACHBurstRest);
signalVector *RACHSeq = modulateBurst(RACHBurst,
*gsmPulse,
9,
samplesPerSymbol);
generateRACHSequence(*gsmPulse,samplesPerSymbol);
complex a; float t;
detectRACHBurst(*RACHSeq, 5, samplesPerSymbol,&a,&t);
//cout << *RACHSeq << endl;
//signalVector *autocorr = correlate(RACHSeq,RACHSeq,NULL,NO_DELAY);
//cout << *autocorr;
//exit(1);
/*signalVector x(6500);
x.fill(1.0);
frequencyShift(&x,&x,0.48*M_PI);
signalVector *y = polyphaseResampleVector(x,96,65,NULL);
cout << *y << endl;
exit(1);*/
//CommSig normalBurstSeg = "0000000000000000000000000000000000000000000000000000000000000";
BitVector normalBurstSeg = "0000101010100111110010101010010110101110011000111001101010000";
BitVector normalBurst(BitVector(normalBurstSeg,gTrainingSequence[TSC]),normalBurstSeg);
generateMidamble(*gsmPulse,samplesPerSymbol,TSC);
signalVector *modBurst = modulateBurst(normalBurst,*gsmPulse,
0,samplesPerSymbol);
//delayVector(*rsVector2,6.932);
complex ampl = 1;
float TOA = 0;
//modBurst = rsVector2;
//delayVector(*modBurst,0.8);
/*
signalVector channelResponse(4);
signalVector::iterator c=channelResponse.begin();
*c = (complex) 9000.0; c++;
*c = (complex) 0.4*9000.0; c++; c++;
*c = (complex) -1.2*0;
signalVector *guhBurst = convolve(modBurst,&channelResponse,NULL,NO_DELAY);
delete modBurst; modBurst = guhBurst;
*/
signalVector *chanResp;
/*
double noisePwr = 0.001/sqrtf(2);
signalVector *noise = gaussianNoise(modBurst->size(),noisePwr);
*/
float chanRespOffset;
analyzeTrafficBurst(*modBurst,TSC,8.0,samplesPerSymbol,&l,&TOA,1,true,&chanResp,&chanRespOffset);
//addVector(*modBurst,*noise);
cout << "ampl:" << ampl << endl;
cout << "TOA: " << TOA << endl;
//cout << "chanResp: " << *chanResp << endl;
SoftVector *demodBurst = demodulateBurst(*modBurst,*gsmPulse,samplesPerSymbol,(complex) ampl, TOA);
cout << *demodBurst << endl;
/*
COUT("chanResp: " << *chanResp);
signalVector *w,*b;
designDFE(*chanResp,1.0/noisePwr,7,&w,&b);
COUT("w: " << *w);
COUT("b: " << *b);
SoftSig *DFEBurst = equalizeBurst(*modBurst,TOA-chanRespOffset,samplesPerSymbol,*w,*b);
COUT("DFEBurst: " << *DFEBurst);
delete gsmPulse;
delete RACHSeq;
delete modBurst;
delete sendLPF;
delete rcvLPF;
delete rsVector;
//delete rsVector2;
delete autocorr;
delete chanResp;
delete noise;
delete demodBurst;
delete w;
delete b;
delete DFEBurst;
*/
sigProcLibDestroy();
}
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