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201 lines
6.1 KiB
TeX
Executable File
201 lines
6.1 KiB
TeX
Executable File
\ifCpp
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\section{Object Categorization}
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Some approaches based on local 2D features and used to object categorization
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are described in this section.
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\cvclass{BOWTrainer}
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Abstract base class for training ''bag of visual words'' vocabulary from a set of descriptors.
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See e.g. ''Visual Categorization with Bags of Keypoints'' of Gabriella Csurka, Christopher R. Dance,
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Lixin Fan, Jutta Willamowski, Cedric Bray, 2004.
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\begin{lstlisting}
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class BOWTrainer
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{
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public:
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BOWTrainer(){}
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virtual ~BOWTrainer(){}
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void add( const Mat& descriptors );
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const vector<Mat>& getDescriptors() const;
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int descripotorsCount() const;
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virtual void clear();
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virtual Mat cluster() const = 0;
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virtual Mat cluster( const Mat& descriptors ) const = 0;
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protected:
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...
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};
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\end{lstlisting}
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\cvCppFunc{BOWTrainer::add}
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Add descriptors to training set. The training set will be clustered using \texttt{cluster}
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method to construct vocabulary.
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\cvdefCpp{
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void BOWTrainer::add( const Mat\& descriptors );
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}
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\begin{description}
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\cvarg{descriptors}{Descriptors to add to training set. Each row of \texttt{descriptors}
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matrix is a one descriptor.}
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\end{description}
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\cvCppFunc{BOWTrainer::getDescriptors}
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Returns training set of descriptors.
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\cvdefCpp{
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const vector<Mat>\& BOWTrainer::getDescriptors() const;
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}
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\cvCppFunc{BOWTrainer::descripotorsCount}
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Returns count of all descriptors stored in the training set.
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\cvdefCpp{
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const vector<Mat>\& BOWTrainer::descripotorsCount() const;
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}
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\cvCppFunc{BOWTrainer::cluster}
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Cluster train descriptors. Vocabulary consists from cluster centers. So this method
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returns vocabulary. In first method variant the stored in object train descriptors will be
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clustered, in second variant -- input descriptors will be clustered.
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\cvdefCpp{
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Mat BOWTrainer::cluster() const;
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}
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\cvdefCpp{
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Mat BOWTrainer::cluster( const Mat\& descriptors ) const;
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}
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\begin{description}
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\cvarg{descriptors}{Descriptors to cluster. Each row of \texttt{descriptors}
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matrix is a one descriptor. Descriptors will not be added
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to the inner train descriptor set.}
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\end{description}
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\cvclass{BOWKMeansTrainer}
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\cvCppCross{kmeans} based class to train visual vocabulary using the ''bag of visual words'' approach.
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\begin{lstlisting}
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class BOWKMeansTrainer : public BOWTrainer
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{
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public:
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BOWKMeansTrainer( int clusterCount, const TermCriteria& termcrit=TermCriteria(),
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int attempts=3, int flags=KMEANS_PP_CENTERS );
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virtual ~BOWKMeansTrainer(){}
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// Returns trained vocabulary (i.e. cluster centers).
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virtual Mat cluster() const;
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virtual Mat cluster( const Mat& descriptors ) const;
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protected:
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...
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};
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\end{lstlisting}
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To gain an understanding of constructor parameters see \cvCppCross{kmeans} function
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arguments.
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\cvclass{BOWImgDescriptorExtractor}
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Class to compute image descriptor using ''bad of visual words''. In few,
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such computing consists from the following steps:
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1. Compute descriptors for given image and it's keypoints set, \\
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2. Find nearest visual words from vocabulary for each keypoint descriptor, \\
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3. Image descriptor is a normalized histogram of vocabulary words encountered in the image. I.e.
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\texttt{i}-bin of the histogram is a frequency of \texttt{i}-word of vocabulary in the given image.
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\begin{lstlisting}
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class BOWImgDescriptorExtractor
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{
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public:
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BOWImgDescriptorExtractor( const Ptr<DescriptorExtractor>& dextractor,
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const Ptr<DescriptorMatcher>& dmatcher );
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virtual ~BOWImgDescriptorExtractor(){}
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void setVocabulary( const Mat& vocabulary );
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const Mat& getVocabulary() const;
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void compute( const Mat& image, vector<KeyPoint>& keypoints,
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Mat& imgDescriptor,
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vector<vector<int> >* pointIdxsOfClusters=0,
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Mat* descriptors=0 );
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int descriptorSize() const;
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int descriptorType() const;
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protected:
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...
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};
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\end{lstlisting}
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\cvCppFunc{BOWImgDescriptorExtractor::BOWImgDescriptorExtractor}
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Constructor.
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\cvdefCpp{
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BOWImgDescriptorExtractor::BOWImgDescriptorExtractor(
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\par const Ptr<DescriptorExtractor>\& dextractor,
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\par const Ptr<DescriptorMatcher>\& dmatcher );
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}
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\begin{description}
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\cvarg{dextractor}{Descriptor extractor that will be used to compute descriptors
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for input image and it's keypoints.}
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\cvarg{dmatcher}{Descriptor matcher that will be used to find nearest word of trained vocabulary to
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each keupoints descriptor of the image.}
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\end{description}
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\cvCppFunc{BOWImgDescriptorExtractor::setVocabulary}
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Method to set visual vocabulary.
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\cvdefCpp{
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void BOWImgDescriptorExtractor::setVocabulary( const Mat\& vocabulary );
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}
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\begin{description}
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\cvarg{vocabulary}{Vocabulary (can be trained using inheritor of \cvCppCross{BOWTrainer}).
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Each row of vocabulary is a one visual word (cluster center).}
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\end{description}
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\cvCppFunc{BOWImgDescriptorExtractor::getVocabulary}
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Returns set vocabulary.
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\cvdefCpp{
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const Mat\& BOWImgDescriptorExtractor::getVocabulary() const;
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}
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\cvCppFunc{BOWImgDescriptorExtractor::compute}
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Compute image descriptor using set visual vocabulary.
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\cvdefCpp{
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void BOWImgDescriptorExtractor::compute( const Mat\& image,
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\par vector<KeyPoint>\& keypoints, Mat\& imgDescriptor,
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\par vector<vector<int> >* pointIdxsOfClusters=0,
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\par Mat* descriptors=0 );
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}
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\begin{description}
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\cvarg{image}{The image. Image descriptor will be computed for this.}
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\cvarg{keypoints}{Keypoints detected in the input image.}
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\cvarg{imgDescriptor}{This is output, i.e. computed image descriptor.}
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\cvarg{pointIdxsOfClusters}{Indices of keypoints which belong to the cluster, i.e.
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\texttt{pointIdxsOfClusters[i]} is keypoint indices which belong
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to the \texttt{i-}cluster (word of vocabulary) (returned if it is not 0.)}
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\cvarg{descriptors}{Descriptors of the image keypoints (returned if it is not 0.)}
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\end{description}
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\cvCppFunc{BOWImgDescriptorExtractor::descriptorSize}
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Returns image discriptor size, if vocabulary was set, and 0 otherwise.
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\cvdefCpp{
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int BOWImgDescriptorExtractor::descriptorSize() const;
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}
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\cvCppFunc{BOWImgDescriptorExtractor::descriptorType}
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Returns image descriptor type.
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\cvdefCpp{
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int BOWImgDescriptorExtractor::descriptorType() const;
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}
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\fi
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