예제 #1
0
파일: test.cpp 프로젝트: 3660628/mrpt
// ------------------------------------------------------
//				TestCapture
// ------------------------------------------------------
void TestExtractMatchProjectAndPaint()
{
	CDisplayWindow3D	wind;
	CFeatureExtraction	fExt;
	CFeatureList		featsHarris_L, featsHarris_R;
	CMatchedFeatureList	mHarris, mSIFT, mSURF;
	CImage				imL, imR;

	string imgL = MRPT_EXAMPLES_BASE_DIRECTORY + string("feature_extraction/") + string("imgs/imL_p01.jpg");		// Left image
	string imgR = MRPT_EXAMPLES_BASE_DIRECTORY + string("feature_extraction/") + string("imgs/imR_p01.jpg");		// Right image

	// Load and check images
	if (!imL.loadFromFile( imgL ))
	{
		cerr << "Cannot load " << imgL  << endl;
		return;
	}
	cout << "Loaded test image: " << imgL << endl;

	if (!imR.loadFromFile( imgR ))
	{
		cerr << "Cannot load " << imgR  << endl;
		return;
	}
	cout << "Loaded test image: " << imgR << endl;

	cout << "***************************************************" << endl;
	cout << "***************************************************" << endl;

	// Extract features:
	// HARRIS
	cout << "Detecting HARRIS features in LEFT image" << endl;
	fExt.options.featsType = featKLT;
	fExt.detectFeatures( imL, featsHarris_L );
	cout << "Detected " << featsHarris_L.size() << endl;

	cout << "Detecting HARRIS features in RIGHT image" << endl;
	fExt.detectFeatures( imR, featsHarris_R );
	cout << "Detected " << featsHarris_R.size() << endl;

	cout << "***************************************************" << endl;
	cout << "***************************************************" << endl;

	// Match features:
	//size_t nMatches;
	TMatchingOptions opt;

	// HARRIS
	cout << "Matching HARRIS features by CORRELATION" << endl;
	//nMatches =
	matchFeatures( featsHarris_L, featsHarris_R, mHarris );
	cout << "Matches found: " << mHarris.size() << endl;

	cout << "***************************************************" << endl;

} // end TestExtractMatchProjectAndPaint
예제 #2
0
파일: test.cpp 프로젝트: 3660628/mrpt
// ------------------------------------------------------
//				TestCapture
// ------------------------------------------------------
void TestExtractFeaturesTile()
{
	CDisplayWindow		wind1,wind2;
	CFeatureExtraction	fExt;
	CFeatureList		featsHarris;
	CImage				img;

	string the_img = myDataDir+string("test_image.jpg");

	if (!img.loadFromFile(the_img ))
	{
		cerr << "Cannot load " << the_img  << endl;
		return;
	}
	cout << "Loaded test image: " << the_img << endl;

	CTicTac	tictac;

	cout << "Extracting Harris features (tiled)... [f_harris_tiled.txt]";

	fExt.options.featsType = featHarris;
	fExt.options.harrisOptions.tile_image = true;

	tictac.Tic();
	fExt.detectFeatures( img, featsHarris );
	cout << format("  %.03fms",tictac.Tac()*1000) << endl;

	cout << "Detected " << featsHarris.size() << " features in " << endl;
	featsHarris.saveToTextFile("f_harris_tiled.txt");
	wind1.setWindowTitle("Harris detected features (Tiled image)");
	wind1.showTiledImageAndPoints( img, featsHarris );

	cout << "Extracting Harris features... [f_harris.txt]";

	fExt.options.harrisOptions.tile_image = false;

	tictac.Tic();
	fExt.detectFeatures( img, featsHarris );
	cout << format("  %.03fms",tictac.Tac()*1000) << endl;

	featsHarris.saveToTextFile("f_harris.txt");
	wind2.setWindowTitle("Harris detected features");
	wind2.showTiledImageAndPoints( img, featsHarris );

	mrpt::system::pause();

	return;
}
예제 #3
0
// ------------------------------------------------------
//				Benchmark: Harris + SAD
// ------------------------------------------------------
double feature_matching_test_Harris_SAD( int w, int h )
{
	CTicTac	 tictac;

	CImage  imL, imR;
	CFeatureExtraction	fExt;
	CFeatureList		featsHarris_L, featsHarris_R;
	CMatchedFeatureList	mHarris;

	getTestImage(0,imR);
	getTestImage(1,imL);

	// Extract features: HARRIS
	fExt.options.featsType = featHarris;

	TMatchingOptions	opt;
	const size_t		N = 20;
	opt.matching_method = TMatchingOptions::mmSAD;

	// HARRIS
	tictac.Tic();
	for (size_t i=0;i<N;i++)
	{
		fExt.detectFeatures( imL, featsHarris_L, 0, NFEATS );
		fExt.detectFeatures( imR, featsHarris_R, 0, NFEATS );
		//nMatches =
		matchFeatures( featsHarris_L, featsHarris_R, mHarris, opt );
	}
	const double T = tictac.Tac()/N;

//	cout << endl << "L: " << featsHarris_L.size() << " R: " << featsHarris_R.size() << " M: " << mHarris.size() << endl;

	return T;
}
예제 #4
0
// ------------------------------------------------------
//				Benchmark: Harris + SAD
// ------------------------------------------------------
double feature_matching_test_FAST_CC( int w, int h )
{
	CTicTac	 tictac;

	CImage  imL, imR;
	CFeatureExtraction	fExt;
	CFeatureList		featsFAST_L, featsFAST_R;
	CMatchedFeatureList	mFAST;

	getTestImage(0,imR);
	getTestImage(1,imL);

	// Extract features: HARRIS
	fExt.options.featsType = featFAST;

	//size_t				nMatches;
	TMatchingOptions	opt;
	const size_t		N = 20;

	// HARRIS
	tictac.Tic();
	for (size_t i=0;i<N;i++)
	{
		fExt.detectFeatures( imL, featsFAST_L, 0, NFEATS );
		fExt.detectFeatures( imR, featsFAST_R, 0, NFEATS );
		//nMatches =
		matchFeatures( featsFAST_L, featsFAST_R, mFAST, opt );
	}
	const double T = tictac.Tac()/N;

//	cout << endl << "L: " << featsFAST_L.size() << " R: " << featsFAST_R.size() << " M: " << mFAST.size() << endl;

	return T;
}
예제 #5
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double benchmark_detectFeatures(int N, [[maybe_unused]] int h)
{
	// Generate a random image
	CImage img;
	getTestImage(0, img);
	CFeatureExtraction fExt;
	fExt.profiler.enable();
	fExt.options.featsType = FEAT_TYPE;
	for (int i = 0; i < N; i++)
	{
		CFeatureList fs;
		fExt.detectFeatures(img, fs);
		if (i == (N - 1))
			std::cout << "(" << std::setw(4) << fs.size() << " found)\n";
	}
	return fExt.profiler.getMeanTime("detectFeatures");
}
예제 #6
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double benchmark_computeDescriptor(int N, int num_feats)
{
	CImage img;
	getTestImage(0, img);

	CFeatureExtraction fExt;
	fExt.profiler.enable();
	fExt.options.featsType = featFASTER9;

	for (int i = 0; i < N; i++)
	{
		CFeatureList fs;
		fExt.detectFeatures(img, fs, 0 /*id*/, num_feats);
		fExt.computeDescriptors(img, fs, DESCRIPTOR_TYPE);
	}

	return fExt.profiler.getMeanTime("computeDescriptors");
}
예제 #7
0
// ------------------------------------------------------
//				Benchmark: Harris
// ------------------------------------------------------
double feature_extraction_test_Harris( int N, int h )
{
	CTicTac	 tictac;

	// Generate a random image
	CImage  img;
	getTestImage(0,img);

	CFeatureExtraction	fExt;
	CFeatureList		featsHarris;

	fExt.options.featsType = featHarris;
	tictac.Tic();
	for (int i=0;i<N;i++)
		fExt.detectFeatures( img, featsHarris );

	const double T = tictac.Tac()/N;

//	cout << "Harris: " << featsHarris.size();

	return T;
}
예제 #8
0
double benchmark_detectFeatures_FASTER(int N, int threshold)
{
	CTicTac tictac;

	// Generate a random image
	CImage img;
	getTestImage(0, img);

	CFeatureExtraction fExt;
	CFeatureList feats;

	fExt.options.featsType = TYP;
	fExt.options.FASTOptions.threshold = threshold;
	fExt.options.patchSize = 0;

	img = img.grayscale();

	tictac.Tic();
	for (int i = 0; i < N; i++) fExt.detectFeatures(img, feats, 0, MAX_N_FEATS);

	const double T = tictac.Tac() / N;
	return T;
}
예제 #9
0
파일: test.cpp 프로젝트: 3660628/mrpt
void TestTrackFeatures()
{

	CImage im1, im2;
	im1.loadFromFile("/Trabajo/Experimentos/[2009] vOdometry Characterization/right1.jpg");
	im2.loadFromFile("/Trabajo/Experimentos/[2009] vOdometry Characterization/right2.jpg");

	CFeatureExtraction	fExt;
	CFeatureList		feats;

	fExt.options.featsType = featKLT;
	fExt.detectFeatures( im1, feats );
	feats.saveToTextFile("J:/Trabajo/Experimentos/[2009] vOdometry Characterization/before.txt");

	CFeatureTracker_KL	tracker;
	// tracker.extra_params["add_new_features"]  = 1;   // track, AND ALSO, add new features
	// ...

	// Do tracking:
	tracker.trackFeatures(im1, im2, feats);

	feats.saveToTextFile("/Trabajo/Experimentos/[2009] vOdometry Characterization/after.txt");
}
예제 #10
0
// ------------------------------------------------------
//				Benchmark: KLT
// ------------------------------------------------------
double feature_extraction_test_KLT( int N, int h )
{
	CTicTac	 tictac;

	// Generate a random image
	CImage  img;
	getTestImage(0,img);

	CFeatureExtraction	fExt;
	CFeatureList		featsKLT;

	fExt.options.featsType				= featKLT;
	fExt.options.KLTOptions.threshold	= 0.05f;
	fExt.options.KLTOptions.radius		= 5;

	tictac.Tic();
	for (int i=0;i<N;i++)
		fExt.detectFeatures( img, featsKLT );

	const double T = tictac.Tac()/N;
//	cout << "SPIN: " << featsKLT.size();
	return T;
}
예제 #11
0
// ------------------------------------------------------
//				Benchmark: SIFT (hess)
// ------------------------------------------------------
double feature_extraction_test_SIFT( int N, int h )
{
	CTicTac	 tictac;

	// Generate a random image
	CImage  img;
	getTestImage(0,img);

	CFeatureExtraction	fExt;
	CFeatureList		featsSIFT;

	fExt.options.featsType	= featSIFT;
	fExt.options.SIFTOptions.implementation = CFeatureExtraction::Hess;

	tictac.Tic();
	for (int i=0;i<N;i++)
		fExt.detectFeatures( img, featsSIFT );

	const double T = tictac.Tac()/N;

//	cout << "SIFT: " << featsSIFT.size();

	return T;
}
예제 #12
0
// ------------------------------------------------------
//				Benchmark: Harris + SAD
// ------------------------------------------------------
double feature_matching_test_SURF(int w, int h)
{
	CTicTac tictac;

	CImage imL, imR;
	CFeatureExtraction fExt;
	CFeatureList featsSURF_L, featsSURF_R;
	CMatchedFeatureList mSURF;

	getTestImage(0, imR);
	getTestImage(1, imL);

	// Extract features: HARRIS
	fExt.options.featsType = featSURF;

	// size_t				nMatches;
	TMatchingOptions opt;
	const size_t N = 10;
	opt.matching_method = TMatchingOptions::mmDescriptorSURF;

	// HARRIS
	tictac.Tic();
	for (size_t i = 0; i < N; i++)
	{
		fExt.detectFeatures(imL, featsSURF_L, 0, NFEATS);
		fExt.detectFeatures(imR, featsSURF_R, 0, NFEATS);
		// nMatches =
		matchFeatures(featsSURF_L, featsSURF_R, mSURF, opt);
	}
	const double T = tictac.Tac() / N;

	//	cout << endl << "L: " << featsSURF_L.size() << " R: " <<
	// featsSURF_R.size() << " M: " << mSURF.size() << endl;

	return T;
}
예제 #13
0
double feature_extraction_test_FASTER( int N, int threshold )
{
	CTicTac			tictac;

	// Generate a random image
	CImage  img;
	getTestImage(0,img);

	CFeatureExtraction		fExt;
	CFeatureList			feats;

	fExt.options.featsType	= TYP; // FASTER_N==9 ? featFASTER9 : (FASTER_N==10 ? featFASTER10 : featFASTER12 );
	fExt.options.FASTOptions.threshold = threshold; //20;
	fExt.options.patchSize = 0;

	img.grayscaleInPlace();

	tictac.Tic();
	for (int i=0;i<N;i++)
		fExt.detectFeatures( img, feats,0, MAX_N_FEATS );

	const double T = tictac.Tac()/N;
	return T;
}
예제 #14
0
// ------------------------------------------------------
//				Benchmark: Spin descriptor
// ------------------------------------------------------
double feature_extraction_test_Spin_desc( int N, int h )
{
	CTicTac	 tictac;

	// Generate a random image
	CImage  img;
	getTestImage(0,img);

	CFeatureExtraction	fExt;
	CFeatureList		featsHarris;

	fExt.options.SpinImagesOptions.radius				= 13;
	fExt.options.SpinImagesOptions.hist_size_distance	= 10;
	fExt.options.SpinImagesOptions.hist_size_intensity	= 10;

	fExt.detectFeatures( img, featsHarris );

	tictac.Tic();
	for (int i=0;i<N;i++)
		fExt.computeDescriptors( img, featsHarris, descSpinImages );

	const double T = tictac.Tac()/N;
	return T;
}
예제 #15
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// ------------------------------------------------------
//				Benchmark: FAST
// ------------------------------------------------------
double feature_extraction_test_FAST( int N, int h )
{
	CTicTac			tictac;

	// Generate a random image
	CImage  img;
	getTestImage(0,img);

	CFeatureExtraction		fExt;
	CFeatureList			featsFAST;

	fExt.options.featsType	= featFAST;
	fExt.options.FASTOptions.threshold = 20;
	fExt.options.patchSize = 0;

	img.grayscaleInPlace();

	tictac.Tic();
	for (int i=0;i<N;i++)
		fExt.detectFeatures( img, featsFAST );

	const double T = tictac.Tac()/N;
	return T;
}
예제 #16
0
파일: test.cpp 프로젝트: 3660628/mrpt
// ------------------------------------------------------
//				TestCapture
// ------------------------------------------------------
void TestMatchFeatures()
{
	CDisplayWindow		wind, wind2;
	CFeatureExtraction	fExt;
	CFeatureList		featsHarris_L, featsHarris_R, featsSIFT_L, featsSIFT_R, featsSURF_L, featsSURF_R, featsFAST_L, featsFAST_R;
	CMatchedFeatureList	mHarris, mSIFT, mSURF, mHarris_SAD, mFAST_CC, mFAST_SAD;
	CImage				imL, imR;

	string imgL = MRPT_EXAMPLES_BASE_DIRECTORY + string("feature_extraction/") + string("imgs/imL_p01.jpg");		// Left image
	string imgR = MRPT_EXAMPLES_BASE_DIRECTORY + string("feature_extraction/") + string("imgs/imR_p01.jpg");		// Right image

//	string imgL = "../../bin/imgs/640x480_left_rect.jpg";		// Left image
//	string imgR = "../../bin/imgs/640x480_right_rect.jpg";		// Right image

	// Load and check images
	if (!imL.loadFromFile( imgL ))
	{
		cerr << "Cannot load " << imgL  << endl;
		return;
	}
	cout << "Loaded test image: " << imgL << endl;

	if (!imR.loadFromFile( imgR ))
	{
		cerr << "Cannot load " << imgR  << endl;
		return;
	}
	cout << "Loaded test image: " << imgR << endl;

	cout << "***************************************************" << endl;
	cout << "***************************************************" << endl;

	// Extract features:
	// HARRIS
	cout << "Detecting HARRIS features in LEFT image" << endl;
	fExt.options.featsType = featHarris;
	fExt.detectFeatures( imL, featsHarris_L );
	cout << "Detected " << featsHarris_L.size() << endl;

	cout << "Detecting HARRIS features in RIGHT image" << endl;
	fExt.detectFeatures( imR, featsHarris_R );
	cout << "Detected " << featsHarris_R.size() << endl;
	cout << "***************************************************" << endl;

	// SIFT
	cout << "Detecting SIFT features in LEFT image" << endl;
	fExt.options.featsType = featSIFT;
	//fExt.options.SIFTOptions.implementation = CFeatureExtraction::Hess;
	fExt.options.SIFTOptions.implementation = CFeatureExtraction::OpenCV;
	fExt.detectFeatures( imL, featsSIFT_L );
	cout << "Detected " << featsSIFT_L.size() << endl;

	cout << "Detecting SIFT features in RIGHT image" << endl;
	fExt.options.featsType = featSIFT;
	//fExt.options.SIFTOptions.implementation = CFeatureExtraction::Hess;
	fExt.options.SIFTOptions.implementation = CFeatureExtraction::OpenCV;
	fExt.detectFeatures( imR, featsSIFT_R );
	cout << "Detected " << featsSIFT_R.size() << endl;
	cout << "***************************************************" << endl;

	// SURF
	cout << "Detecting SURF features in LEFT image" << endl;
	fExt.options.featsType = featSURF;
	fExt.detectFeatures( imL, featsSURF_L );
	cout << "Detected " << featsSURF_L.size() << endl;

	cout << "Detecting SURF features in RIGHT image" << endl;
	fExt.detectFeatures( imR, featsSURF_R );
	cout << "Detected " << featsSURF_R.size() << endl;
	cout << "***************************************************" << endl;

	// FAST
	cout << "Detecting FAST features in LEFT image" << endl;
	fExt.options.featsType = featFAST;
	fExt.detectFeatures( imL, featsFAST_L, 0, 400 );
	cout << "Detected " << featsFAST_L.size() << endl;
	CDisplayWindow fast1("LEFT");
	fast1.showImageAndPoints( imL, featsFAST_L );

	cout << "Detecting FAST features in RIGHT image" << endl;
	fExt.detectFeatures( imR, featsFAST_R, 0, 400 );
	cout << "Detected " << featsFAST_R.size() << endl;
	cout << "***************************************************" << endl;
	cout << "***************************************************" << endl;
	CDisplayWindow fast2("RIGHT");
	fast2.showImageAndPoints( imR, featsFAST_R );

	// Match features:
	//size_t nMatches;
	TMatchingOptions opt;

	// HARRIS
	CTicTac tictac;
	cout << "Matching HARRIS features by CORRELATION" << endl;
	tictac.Tic();
	//nMatches =
	matchFeatures( featsHarris_L, featsHarris_R, mHarris );
	double T = tictac.Tac();
	cout << "[CC] Matches found: " << mHarris.size() << " in " << T*1000.0f << " ms " << endl;

	opt.matching_method = TMatchingOptions::mmSAD;
	tictac.Tic();
	//nMatches =
	matchFeatures( featsHarris_L, featsHarris_R, mHarris_SAD, opt );
	T = tictac.Tac();
	cout << "[SAD] Matches found: " << mHarris_SAD.size() << " in " << T*1000.0f << " ms " << endl;
	cout << "***************************************************" << endl;
	wind.showImagesAndMatchedPoints( imL, imR, mHarris_SAD, TColor(0,0,255) );

	// SIFT
	cout << "Matching SIFT features by DESCRIPTOR" << endl;
	opt.matching_method = TMatchingOptions::mmDescriptorSIFT;
	//nMatches =
	matchFeatures( featsSIFT_L, featsSIFT_R, mSIFT, opt );
	cout << "Matches found: " << mSIFT.size() << endl;
	cout << "***************************************************" << endl;

	// SURF
	cout << "Matching SURF features by DESCRIPTOR" << endl;
	opt.matching_method = TMatchingOptions::mmDescriptorSURF;
	//nMatches =
	matchFeatures( featsSURF_L, featsSURF_R, mSURF, opt );
	cout << "Matches found: " << mSURF.size() << endl;
	cout << "***************************************************" << endl;

	// FAST
	cout << "Matching FAST features by CC" << endl;
	tictac.Tic();
	//nMatches =
	matchFeatures( featsFAST_L, featsFAST_R, mFAST_CC );
	T = tictac.Tac();
	cout << "[CC] Matches found: " << mFAST_CC.size() << " in " << T*1000.0f << " ms " << endl;

	opt.matching_method = TMatchingOptions::mmSAD;
	tictac.Tic();
	//nMatches =
	matchFeatures( featsFAST_L, featsFAST_R, mFAST_SAD, opt );
	T = tictac.Tac();
	cout << "[SAD] Matches found: " << mFAST_SAD.size() << " in " << T*1000.0f << " ms " << endl;
	cout << "***************************************************" << endl;

	wind2.showImagesAndMatchedPoints( imL, imR, mFAST_SAD, TColor(0,255,0) );

	mrpt::system::pause();

} // end TestMatchFeatures
예제 #17
0
파일: test.cpp 프로젝트: 3660628/mrpt
// ------------------------------------------------------
//				TestExtractFeatures
// ------------------------------------------------------
void TestExtractFeatures()
{
	CDisplayWindow		wind1,wind2,wind3,wind4,wind5;
	CFeatureExtraction	fExt;
	CFeatureList		featsHarris, featsKLT, featsSIFT_Hess, featsSIFT_Lowe, featsSIFT_Vedaldi, featsSURF, featsFAST;
	CImage				img;

	if (!img.loadFromFile(the_img_for_extract_feats ))
	{
		cerr << "Cannot load " << the_img_for_extract_feats  << endl;
		return;
	}
	cout << "Loaded test image: " << endl << the_img_for_extract_feats << endl;
	cout << "--------------------------------------------------------------------------" << endl << endl;

	CTicTac	tictac;

	fExt.options.patchSize = 0;

	cout << "Detect Harris features... [f_harris.txt]" << endl;
	tictac.Tic();
	fExt.options.featsType = featHarris;
	fExt.detectFeatures( img, featsHarris );
	cout << "Detected " << featsHarris.size() << " features in ";
	cout << format("  %.03fms",tictac.Tac()*1000) << endl << endl;
	featsHarris.saveToTextFile("f_harris.txt");
	wind1.setWindowTitle("Harris detected features");
	wind1.showImageAndPoints(img, featsHarris);

	cout << "Detect FAST features... [f_fast.txt]" << endl;
	tictac.Tic();
	fExt.options.featsType = featFAST;
	fExt.options.FASTOptions.threshold = 15; //150;
	fExt.options.FASTOptions.min_distance = 4;
	fExt.options.FASTOptions.use_KLT_response = true;
	fExt.detectFeatures( img, featsFAST, 0,  500 /* max num feats */  );
	cout << "Detected " << featsFAST.size() << " features in ";
	cout << format("  %.03fms",tictac.Tac()*1000) << endl << endl;
	featsFAST.saveToTextFile("f_fast.txt");
	wind5.setWindowTitle("FAST detected features");
	wind5.showImageAndPoints( img, featsFAST );

	cout << "Computing SIFT descriptors only ... [f_harris+sift.txt]" << endl;
	tictac.Tic();
	fExt.options.SIFTOptions.implementation = CFeatureExtraction::Hess;
	fExt.computeDescriptors( img, featsHarris, descSIFT );
	cout << format("  %.03fms",tictac.Tac()*1000) << endl << endl;
	featsHarris.saveToTextFile("f_harris+sift.txt");

	cout << "Extracting KLT features... [f_klt.txt]" << endl;
	tictac.Tic();
	fExt.options.featsType = featKLT;
	fExt.options.KLTOptions.threshold	= 0.05f;
	fExt.options.KLTOptions.radius		= 5;
	fExt.detectFeatures( img, featsKLT, 0, 10 );
	cout << "Detected " << featsKLT.size() << " features in ";
	cout << format("  %.03fms",tictac.Tac()*1000) << endl << endl;
	featsKLT.saveToTextFile("f_klt.txt");
	wind2.setWindowTitle("KLT detected features");
	wind2.showImageAndPoints( img, featsKLT );

	cout << "Extracting SIFT features... [f_sift_hess.txt]" << endl;
	tictac.Tic();
	fExt.options.featsType = featSIFT;
	fExt.options.SIFTOptions.implementation = CFeatureExtraction::Hess;
	fExt.detectFeatures( img, featsSIFT_Hess );
	cout << "Detected " << featsSIFT_Hess.size() << " features in ";
	cout << format("  %.03fms",tictac.Tac()*1000) << endl << endl;
	featsSIFT_Hess.saveToTextFile("f_sift_hess.txt");
	wind3.setWindowTitle("SIFT Hess detected features");
	wind3.showImageAndPoints( img, featsSIFT_Hess );

	cout << "Extracting SURF features... [f_surf.txt]" << endl;
	tictac.Tic();
	fExt.options.featsType = featSURF;
	fExt.detectFeatures( img, featsSURF );
	cout << "Detected " << featsSURF.size() << " features in ";
	cout << format("  %.03fms",tictac.Tac()*1000) << endl << endl;
	featsSURF.saveToTextFile("f_surf.txt");
	wind4.setWindowTitle("SURF detected features");
	wind4.showImageAndPoints( img, featsSURF );

	cout << "Computing spin images descriptors only ... [f_harris+spinimgs.txt]" << endl;
	tictac.Tic();
	fExt.options.SpinImagesOptions.radius = 13;
	fExt.options.SpinImagesOptions.hist_size_distance  = 10;
	fExt.options.SpinImagesOptions.hist_size_intensity = 10;
	fExt.computeDescriptors( img, featsHarris, descSpinImages );
	cout << format("  %.03fms",tictac.Tac()*1000) << endl << endl;
	featsHarris.saveToTextFile("f_harris+spinimgs.txt");
	
	mrpt::system::pause();

	return;
}
예제 #18
0
파일: test.cpp 프로젝트: GYengera/mrpt
// ------------------------------------------------------
//	TestExtractMatchProjectAndPaint
// ------------------------------------------------------
void TestExtractMatchProjectAndPaint()
{
	CFeatureExtraction	fExt;
	CFeatureList		featsHarris_L, featsHarris_R;
	CMatchedFeatureList	mHarris, mSIFT, mSURF;
	CImage				imL, imR;

	string imgL = myDataDir + string("imL_p01.jpg");		// Left image
	string imgR = myDataDir + string("imR_p01.jpg");		// Right image

	// Load and check images
	if (!imL.loadFromFile( imgL ))
	{
		cerr << "Cannot load " << imgL  << endl;
		return;
	}
	cout << "Loaded test image: " << imgL << endl;

	if (!imR.loadFromFile( imgR ))
	{
		cerr << "Cannot load " << imgR  << endl;
		return;
	}
	cout << "Loaded test image: " << imgR << endl;

	cout << "***************************************************" << endl;
	cout << "***************************************************" << endl;

	// Extract features:
	// HARRIS
	cout << "Detecting HARRIS features in LEFT image" << endl;
	fExt.options.featsType = featKLT;
	fExt.detectFeatures( imL, featsHarris_L );
	cout << "Detected " << featsHarris_L.size() << endl;

	cout << "Detecting HARRIS features in RIGHT image" << endl;
	fExt.detectFeatures( imR, featsHarris_R );
	cout << "Detected " << featsHarris_R.size() << endl;

	cout << "***************************************************" << endl;
	cout << "***************************************************" << endl;

	// Match features:
	//size_t nMatches;
	TMatchingOptions opt;
	cout << "Matching HARRIS features by CORRELATION" << endl;
	//nMatches =
	matchFeatures( featsHarris_L, featsHarris_R, mHarris );
	cout << "Matches found: " << mHarris.size() << endl;

	cout << "***************************************************" << endl;

	// Project features:
	mrpt::maps::CLandmarksMap   outMap;
	TStereoSystemParams         stereoOptions;                      // Default options: Bumblebee + 640x480
	cout << "Projecting matched features" << endl;
	mrpt::vision::projectMatchedFeatures( mHarris, stereoOptions, outMap );

    CDisplayWindow3D    win3D("3D Map");
    COpenGLScenePtr		&scene3D    = win3D.get3DSceneAndLock();
	CSetOfObjectsPtr    map3D       = CSetOfObjects::Create();
	outMap.getAs3DObject( map3D );
    CGridPlaneXYPtr	gridXY	        = CGridPlaneXY::Create(-10,10,-10,10,0,1);

	scene3D->insert( gridXY );
	scene3D->insert( map3D );

    win3D.unlockAccess3DScene();
	win3D.repaint();

	mrpt::system::pause();

} // end TestExtractMatchProjectAndPaint
예제 #19
0
파일: test.cpp 프로젝트: GYengera/mrpt
// ------------------------------------------------------
//		TestMatchingComparative
// ------------------------------------------------------
void TestMatchingComparative()
{
    // Take two images
    string imgL = myDataDir + string("imL_p01.jpg");		// Left image
	string imgR = myDataDir + string("imR_p01.jpg");		// Right image

    CImage im1, im2;
    im1.loadFromFile( imgL );
    im2.loadFromFile( imgR );

    size_t imW = im1.getWidth();
    size_t imH = im1.getHeight();

    CFeatureExtraction fExt;
    fExt.options.featsType                  = featFAST;
    fExt.options.patchSize                  = 21;
    fExt.options.SIFTOptions.implementation = CFeatureExtraction::Hess;

    // Find FAST features
    CFeatureList list1, list2;
    fExt.detectFeatures( im1, list1, 150 );
    // Compute SIFT & SURF descriptors
    fExt.computeDescriptors( im1, list1, descSIFT );
    fExt.computeDescriptors( im1, list1, descSURF );

    fExt.detectFeatures( im2, list2, 150 );
    // Compute SIFT & SURF descriptors
    fExt.computeDescriptors( im2, list2, descSIFT );
    fExt.computeDescriptors( im2, list2, descSURF );

    CFeatureList::iterator it1, it2;
    for( it1 = list1.begin(); it1 != list1.end(); ++it1 )
        im1.cross( (*it1)->x, (*it1)->y, TColor::red, '+');
    for( it2 = list2.begin(); it2 != list2.end(); ++it2 )
        im2.cross( (*it2)->x, (*it2)->y, TColor::red, '+');

    CDisplayWindow win, win2;
    win.setPos(0,0);
    win2.setPos(0,imH*1.5);
    CImage joinimage, copyjoinimage, copyInfoImage;
    size_t imW2 = 1280;
    size_t imH2 = 150;

    CImage infoimage( imW2, imH2, CH_RGB );

    joinimage.joinImagesHorz( im1, im2 );
    infoimage.filledRectangle( 0, 0, imW2, imH2, TColor(150,150,150) );
    infoimage.textOut( 20, imH2-53, "SAD", TColor::blue );
    infoimage.textOut( 20, imH2-41, "NCC", TColor::blue );
    infoimage.textOut( 20, imH2-29, "SIFT", TColor::blue );
    infoimage.textOut( 20, imH2-17, "SURF", TColor::blue );
    for( it1 = list1.begin(); it1 != list1.end(); ++it1 )
    {
        copyInfoImage = infoimage;
        copyjoinimage = joinimage;
        copyjoinimage.line( (*it1)->x, 0, (*it1)->x, imH, TColor::green );            // Horiz
        copyjoinimage.line( (*it1)->x+imW, 0, (*it1)->x+imW, imH, TColor::green );    // Horiz
        copyjoinimage.line( 0, (*it1)->y, imW+imW, (*it1)->y, TColor::green );        // Epipolar
        copyjoinimage.drawCircle( (*it1)->x, (*it1)->y, 4, TColor::green, 2 );        // Keypoint

        copyInfoImage.update_patch( (*it1)->patch, 0, 0 );
        bool firstMatch = true;
        int cnt = 0;
        int px = 80;
        double minsad = 1.0, maxncc = 0.0;
        float minsiftd = 1.0f, minsurfd = 1.0f;
        int idxsad = 0, idxncc = 0, idxsiftd = 0, idxsurfd = 0;

        for( it2 = list2.begin(); it2 != list2.end(); ++it2 )
        {
            if( fabs((*it1)->y-(*it2)->y) <= 1.0 && (*it1)->x > (*it2)->x )
            {
                    // Compute matching with SAD and Correlation and SIFT/SURF?
                    // Use epipolar constraints
                    // Compute SAD
                    double sad = mrpt::vision::computeSAD( (*it1)->patch, (*it2)->patch );
                    if( sad < minsad )
                    {
                        minsad = sad;
                        idxsad = cnt;
                    }
                    // Compute Correlation
                    double ncc;
                    size_t u, v;
                    mrpt::vision::openCV_cross_correlation( (*it1)->patch, (*it2)->patch, u, v, ncc );
                    if( ncc > maxncc )
                    {
                        maxncc = ncc;
                        idxncc = cnt;
                    }

                    // Compute distance between descriptors SIFT
                    float siftd = (*it1)->descriptorSIFTDistanceTo( *(*it2) );
                    if( siftd < minsiftd )
                    {
                        minsiftd = siftd;
                        idxsiftd = cnt;
                    }

                    // Compute distance between descriptors SIFT
                    float surfd = (*it1)->descriptorSURFDistanceTo( *(*it2) );
                    if( surfd < minsurfd )
                    {
                        minsurfd = surfd;
                        idxsurfd = cnt;
                    }

                    // Plot images + features + each candidate + difference score
                    if( firstMatch )
                    {
                        copyjoinimage.line( (*it1)->x+imW, 0, (*it1)->x+imW, imH, TColor::green );  // Limit line (only the first time)
                        firstMatch = false;
                    } // end-if

                    copyjoinimage.drawCircle( (*it2)->x+imW, (*it2)->y, 4, TColor::blue, 2 );       // Keypoint
                    double rx0, rx1, ry0, ry1, tx, ty;
                    rx0 = (*it2)->x+imW-15;
                    rx1 = (*it2)->x+imW;
                    tx = (*it2)->x+imW-13;
                    if( cnt % 2 )
                    {
                        ry0 = (*it2)->y-20;
                        ry1 = (*it2)->y-10;
                        ty = (*it2)->y-22;
                    }
                    else
                    {
                        ry0 = (*it2)->y+10;
                        ry1 = (*it2)->y+20;
                        ty = (*it2)->y+8;
                    }
                    copyjoinimage.filledRectangle( rx0, ry0, rx1, ry1, TColor(150,150,150) );
                    copyjoinimage.textOut( tx, ty, format("%d", cnt), TColor::blue );

                    px = 80+cnt*50;
                    if( px + fExt.options.patchSize > imW2 )
                        continue;

                    copyInfoImage.update_patch( (*it2)->patch, px, 30 );

                    copyInfoImage.textOut( px, imH2-70, format("%d", cnt), TColor::blue );
                    copyInfoImage.textOut( px, imH2-53, format("%.2f", sad), TColor::blue );
                    copyInfoImage.textOut( px, imH2-41, format("%.2f", ncc), TColor::blue );
                    copyInfoImage.textOut( px, imH2-29, format("%.2f", siftd), TColor::blue );
                    copyInfoImage.textOut( px, imH2-17, format("%.2f", surfd), TColor::blue );

                    cnt++;
            } // end if
        } // end for it2
        copyInfoImage.textOut( 80+idxsad*50, imH2-53, format("%.2f", minsad), TColor::green );
        copyInfoImage.textOut( 80+idxncc*50, imH2-41, format("%.2f", maxncc), TColor::green );
        copyInfoImage.textOut( 80+idxsiftd*50, imH2-29, format("%.2f", minsiftd), TColor::green );
        copyInfoImage.textOut( 80+idxsurfd*50, imH2-17, format("%.2f", minsurfd), TColor::green );

        win.showImage( copyjoinimage );
        win2.showImage( copyInfoImage );
        mrpt::system::pause();
    } // end for it1

    // Save to file
    // Check number of good features

} // end TestMatchingComparative
예제 #20
0
파일: test.cpp 프로젝트: GYengera/mrpt
// ------------------------------------------------------
//		TestMatchFeatures
// ------------------------------------------------------
void TestMatchFeatures( bool showMatches )
{

	CFeatureExtraction	fExt;
	CFeatureList		featsHarris_L, featsHarris_R, featsSIFT_L, featsSIFT_R, featsSURF_L, featsSURF_R, featsFAST_L, featsFAST_R;
	CMatchedFeatureList	mHarris, mSIFT, mSURF, mHarris_SAD, mFAST_CC, mFAST_SAD;
	CImage				imL, imR;

	string imgL = myDataDir + string("imL_p01.jpg");		// Left image
	string imgR = myDataDir + string("imR_p01.jpg");		// Right image

	// Load and check images
	if (!imL.loadFromFile( imgL ))
	{
		cerr << "Cannot load " << imgL  << endl;
		return;
	}
	cout << "Loaded LEFT image: " << endl << imgL << endl;

	if (!imR.loadFromFile( imgR ))
	{
		cerr << "Cannot load " << imgR  << endl;
		return;
	}
	cout << "Loaded RIGHT image: " << endl << imgR << endl;

	cout << "***************************************************" << endl;
	cout << "***************************************************" << endl;

	// Extract features:
    // HARRIS
	cout << "Detecting HARRIS features in LEFT image" << endl;
	fExt.options.featsType = featHarris;
	fExt.detectFeatures( imL, featsHarris_L, 250 );
	cout << "Detected " << featsHarris_L.size() << endl;

	cout << "Detecting HARRIS features in RIGHT image" << endl;
	fExt.detectFeatures( imR, featsHarris_R, 250 );
	cout << "Detected " << featsHarris_R.size() << endl;
	cout << "***************************************************" << endl;

	// SIFT
	cout << "Detecting SIFT features in LEFT image" << endl;
	fExt.options.featsType = featSIFT;
	//fExt.options.SIFTOptions.implementation = CFeatureExtraction::Hess;
	fExt.options.SIFTOptions.implementation = CFeatureExtraction::OpenCV;
	fExt.detectFeatures( imL, featsSIFT_L );
	cout << "Detected " << featsSIFT_L.size() << endl;

	cout << "Detecting SIFT features in RIGHT image" << endl;
	fExt.options.featsType = featSIFT;
	//fExt.options.SIFTOptions.implementation = CFeatureExtraction::Hess;
	fExt.options.SIFTOptions.implementation = CFeatureExtraction::OpenCV;
	fExt.detectFeatures( imR, featsSIFT_R );
	cout << "Detected " << featsSIFT_R.size() << endl;
	cout << "***************************************************" << endl;

	// SURF
	cout << "Detecting SURF features in LEFT image" << endl;
	fExt.options.featsType = featSURF;
	fExt.detectFeatures( imL, featsSURF_L );
	cout << "Detected " << featsSURF_L.size() << endl;

	cout << "Detecting SURF features in RIGHT image" << endl;
	fExt.detectFeatures( imR, featsSURF_R );
	cout << "Detected " << featsSURF_R.size() << endl;
	cout << "***************************************************" << endl;

	// FAST
	cout << "Detecting FAST features in LEFT image" << endl;
	fExt.options.featsType = featFAST;
	fExt.detectFeatures( imL, featsFAST_L, 0, 250 );
	cout << "Detected " << featsFAST_L.size() << endl;

	cout << "Detecting FAST features in RIGHT image" << endl;
	fExt.detectFeatures( imR, featsFAST_R, 0, 250 );
	cout << "Detected " << featsFAST_R.size() << endl;
	cout << "***************************************************" << endl;
	cout << "***************************************************" << endl;

	// Match features:
	size_t nMatches;
	TMatchingOptions opt;

//	// HARRIS
	CTicTac tictac;
	double T = 0.0;
	cout << "Matching HARRIS features" << endl;
	tictac.Tic();
	nMatches = matchFeatures( featsHarris_L, featsHarris_R, mHarris );
	T = tictac.Tac();
	cout << "[NCC] Matches found: " << mHarris.size() << " in " << T*1000.0f << " ms " << endl;

	opt.matching_method = TMatchingOptions::mmSAD;
	tictac.Tic();
	nMatches = matchFeatures( featsHarris_L, featsHarris_R, mHarris_SAD, opt );
	T = tictac.Tac();
	cout << "[SAD] Matches found: " << mHarris_SAD.size() << " in " << T*1000.0f << " ms " << endl;
	cout << "***************************************************" << endl;

	// SIFT
	cout << "Matching SIFT features by DESCRIPTOR" << endl;
	opt.matching_method = TMatchingOptions::mmDescriptorSIFT;
	tictac.Tic();
	nMatches = matchFeatures( featsSIFT_L, featsSIFT_R, mSIFT, opt );
	T = tictac.Tac();
	cout << "Matches found: " << mSIFT.size() << " in " << T*1000.0f << " ms " << endl;
	cout << "***************************************************" << endl;

	// SURF
	cout << "Matching SURF features by DESCRIPTOR" << endl;
	opt.matching_method = TMatchingOptions::mmDescriptorSURF;
	tictac.Tic();
	nMatches = matchFeatures( featsSURF_L, featsSURF_R, mSURF, opt );
	T = tictac.Tac();
	cout << "Matches found: " << mSURF.size() << " in " << T*1000.0f << " ms " << endl;
	cout << "***************************************************" << endl;

	// FAST
	cout << "Matching FAST features" << endl;
	tictac.Tic();
	nMatches = matchFeatures( featsFAST_L, featsFAST_R, mFAST_CC );
	T = tictac.Tac();
	cout << "[NCC] Matches found: " << mFAST_CC.size() << " in " << T*1000.0f << " ms " << endl;

	opt.matching_method = TMatchingOptions::mmSAD;
	tictac.Tic();
	nMatches = matchFeatures( featsFAST_L, featsFAST_R, mFAST_SAD, opt );
	T = tictac.Tac();
	cout << "[SAD] Matches found: " << mFAST_SAD.size() << " in " << T*1000.0f << " ms " << endl;
	cout << "***************************************************" << endl;


    if( showMatches )
    {
        CDisplayWindow winHarrisSAD, winHarrisNCC, winFASTSAD, winFASTNCC, winSIFT, winSURF;

        winHarrisSAD.setWindowTitle("Matches with Harris + SAD");
        winHarrisNCC.setWindowTitle("Matches with Harris + NCC");
        winFASTSAD.setWindowTitle("Matches with FAST + SAD");
        winFASTNCC.setWindowTitle("Matches with FAST + NCC");
        winSIFT.setWindowTitle("Matches with SIFT");
        winSURF.setWindowTitle("Matches with SURF");

        winHarrisNCC.showImagesAndMatchedPoints( imL, imR, mHarris, TColor(0,0,255) );
        winHarrisSAD.showImagesAndMatchedPoints( imL, imR, mHarris_SAD, TColor(0,0,255) );
        winSIFT.showImagesAndMatchedPoints( imL, imR, mSIFT, TColor(0,255,0) );
        winSURF.showImagesAndMatchedPoints( imL, imR, mSURF, TColor(0,255,0) );
        winFASTSAD.showImagesAndMatchedPoints( imL, imR, mFAST_SAD, TColor(0,255,0) );
        winFASTNCC.showImagesAndMatchedPoints( imL, imR, mFAST_CC, TColor(0,255,0) );

        mrpt::system::pause();
    }

} // end TestMatchFeatures
예제 #21
0
/************************************************************************************************
*								Start Function function *
************************************************************************************************/
string PlaceRecognition::startPlaceRecognition(CFeatureExtraction fext)
{
	ofstream training_file;

	CTicTac feature_time;
	feature_time.Tic();

	/// stores the labels for the i'th image instance for training and testing
	/// images
	int training_labels[len_training];
	int testing_labels[len_testing];

	/// The training model is built here all features are extracted in this
	/// part, takes 30 seconds for 900+900 images
	if (!trained_flag)
	{
		for (int i = 0; i < len_training; i++)
		{
			training[i].loadFromFile(training_paths.at(i));
			fext.detectFeatures(training[i], feats_training[i], 0, numFeats);
			fext.computeDescriptors(
				training[i], feats_training[i], desc_to_compute);
		}
		for (int i = 0; i < len_testing; i++)
		{
			testing[i].loadFromFile(testing_paths.at(i));
			fext.detectFeatures(testing[i], feats_testing[i], 0, numFeats);
			fext.computeDescriptors(
				testing[i], feats_testing[i], desc_to_compute);
		}
		trained_flag = true;
		feats_testing_org = feats_testing;

	}  /// end of if feature extraction flag (trained flag)

	CTicTac label_time;
	label_time.Tic();

	computeLabels(training_paths, training_count, training_labels);
	computeLabels(testing_paths, testing_count, testing_labels);

	int len_train_words;
	len_train_words = 0;
	// int len_test_words = 0;
	for (int i = 0; i < len_training; i++)
		len_train_words += feats_training[i].size();

	if (!training_file_written_flag)
	{
		training_words2 = new vector<float>[len_train_words];
		training_words1 = new vector<uint8_t>[len_train_words];
	}
	int training_word_labels[len_train_words];

	CTicTac training_time;
	training_time.Tic();
	training_file.open("training_images_features.txt");

	if (!training_file_written_flag)
	{
		training_file.clear();
		int kount = 0;
		for (int i = 0; i < len_training; i++)
		{
			training_file << feats_training[i].size();
			for (unsigned int j = 0; j < feats_training[i].size(); j++, kount++)
			{
				if (descriptor_selected == 0)
				{
					vector<uint8_t> temp_feat;
					temp_feat =
						feats_training[i].getByID(j).get()->descriptors.SIFT;
					training_words1[kount] =
						feats_training[i].getByID(j).get()->descriptors.SIFT;
					training_word_labels[kount] = training_labels[i];
					for (unsigned int k = 0; k < temp_feat.size(); k++)
						training_file << (int)temp_feat.at(k) << " ";
				}
				else if (descriptor_selected == 1)
				{
					vector<float> temp_feat;
					temp_feat =
						feats_training[i].getByID(j).get()->descriptors.SURF;
					training_words2[kount] =
						feats_training[i].getByID(j).get()->descriptors.SURF;
					training_word_labels[kount] = training_labels[i];

					for (unsigned int k = 0; k < temp_feat.size(); k++)
					{
						training_file << temp_feat.at(k) << " ";
					}
				}
				else if (descriptor_selected == 2)
				{
					vector<float> temp_feat;
					temp_feat =
						feats_training[i].getByID(j).get()->descriptors.SpinImg;
					training_words2[kount] =
						feats_training[i].getByID(j).get()->descriptors.SpinImg;
					training_word_labels[kount] = training_labels[i];

					for (unsigned int k = 0; k < temp_feat.size(); k++)
					{
						training_file << temp_feat.at(k) << " ";
					}
				}
				else if (descriptor_selected == 3)
					;
				// //!< Polar image descriptor
				else if (descriptor_selected == 4)
					;
				// //!< Log-Polar image descriptor
				else if (descriptor_selected == 5)
				{
					vector<uint8_t> temp_feat;
					temp_feat =
						feats_training[i].getByID(j).get()->descriptors.ORB;
					training_words1[kount] =
						feats_training[i].getByID(j).get()->descriptors.ORB;
					training_word_labels[kount] = training_labels[i];

					for (unsigned int k = 0; k < temp_feat.size(); k++)
					{
						int temp_var;  //= (int) temp_feat.at(k);
						temp_var = (int)training_words1[kount].at(k);
						training_file << temp_var << " ";
					}
				}
				else if (descriptor_selected == 6)
				{
					vector<uint8_t> temp_feat;
					temp_feat =
						feats_training[i].getByID(j).get()->descriptors.BLD;
					training_words1[kount] =
						feats_training[i].getByID(j).get()->descriptors.BLD;
					training_word_labels[kount] = training_labels[i];
					for (unsigned int k = 0; k < temp_feat.size(); k++)
						training_file << (int)temp_feat.at(k) << " ";
				}
				else if (descriptor_selected == 7)
				{
					vector<uint8_t> temp_feat;
					temp_feat =
						feats_training[i].getByID(j).get()->descriptors.LATCH;
					training_words1[kount] =
						feats_training[i].getByID(j).get()->descriptors.LATCH;
					training_word_labels[kount] = training_labels[i];
					for (unsigned int k = 0; k < temp_feat.size(); k++)
						training_file << (int)temp_feat.at(k) << " ";
				}
				training_file << " #" << training_labels[i] << " $"
							  << training_word_labels[kount] << endl;

			}  // end of inner for loop for number of key-points
		}  // end of outer for loop for number of images

		training_file.close();
		// testing_file.close();
		this->training_words_org = training_words2;
		this->training_words_org2 = training_words1;
		this->training_word_labels_org = training_word_labels;
		training_word_labels_org = new int[kount];
		for (int i = 0; i < kount; i++)
		{
			training_word_labels_org[i] = training_word_labels[i];
		}

		this->total_vocab_size_org = len_train_words;
		this->training_file_written_flag = true;
	}  // end of writting training features to a file

	CTicTac testing_time;
	testing_time.Tic();

	/// now extracting features for Place Recognition for testing dataset
	int predicted_classes[len_testing];

	CTicTac time_prediction;
	time_prediction.Tic();

	int predicted_Label = 1;
	if (descriptor_selected == 1)
		predicted_Label = predictLabel(
			feats_testing_org, training_words_org, training_word_labels_org,
			total_vocab_size_org, current_index_test_image);
	else
		predicted_Label = predictLabel2(
			feats_testing_org, training_words_org2, training_word_labels_org,
			total_vocab_size_org, current_index_test_image);

	current_index_test_image++;

	/// use a bag of words kind of framework here
	predicted_classes[current_index_test_image] = predicted_Label;
	if (predicted_classes[current_index_test_image] ==
		testing_labels[current_index_test_image])
		correct++;
	else
		incorrect++;

	stringstream output;
	output << endl
		   << endl
		   << "PLACE RECOGNITION RESULTS " << endl
		   << endl
		   << "actual label : "
		   << findPlaceName(
				  testing_labels[current_index_test_image % len_testing])
		   << ".\n"
		   << endl
		   << " predicted label : " << findPlaceName(predicted_Label) << ".\n"
		   << endl
		   << " correct = " << correct << "  incorrect = " << incorrect << ".\n"
		   << " Current Accuracy: "
		   << 100.00 * (double)correct / (double)(incorrect + correct) << " % "
		   << endl
		   << " image " << current_index_test_image << " of " << len_testing
		   << endl;

	return output.str();
}