Single and multiple instance learning for visual categorisation

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dc.contributor.author Du, Ruo
dc.date.accessioned 2013-09-04T06:46:04Z
dc.date.available 2013-09-04T06:46:04Z
dc.date.issued 2013
dc.identifier.uri http://hdl.handle.net/10453/23495
dc.description University of Technology, Sydney. Faculty of Engineering and Information Technology. en_US
dc.description.abstract Nowadays, huge amounts of visual data, e.g., videos and images, have become widely accessible. Therefore, intelligently categorizing the large and growing collections of data for access convenience has been a central goal for modern computer vision research. In this thesis, we describe several newly-developed approaches for visual categorization upon the single and multiple instance learning cases. In single-instance learning (SIL), each of the training instances has been labeled. Here, we focus on a challenging task of facial expressions recognition where manually labeling each training instance, i.e., face video, is handy. To get the distinct features of expressions, we propose a novel feature representation, Histogram Variances Face (HVF), which integrates dynamic expression information into a static image being invariant to illumination and in-plane rotation. Through HVFs, the facial expression recognition can be cast as a facial recognition problem. We have applied our approach on the well-known Cohn-Kanade AU-Coded Facial Expression database, and then those extracted HVFs are classified by using facial recognition technology, i.e., Eigenfaces and Support Vector Machines (SVMs). The recognition accuracy is very encouraging. We further propose an extension of HVFs, Hexagonal Histogram Variance Faces (HHVFs), which applies HVFs on a hexagonal structure. Comparing to HVFs, HHVFs not only greatly reduce the computation costs but also improve the recognition accuracy. In multiple-instance learning (MIL), the training instances are divided into groups and the instances in the same group share only one label. MIL arises from many applications where individually labeling training instances is expensive. In this case, we propose a novel algorithm, multiple-instance learning with a supervised kernel density estimation (MIL-SKDE), to tackle the labeling ambiguity. Our algorithm extends the twin technologies, kernel density estimation (SKDE) and mean shift, to their supervised versions in which the labels of data points will affect the mode seeking. We apply MIL-SKDE in several applications of visual categorization, e.g., image and object categorization, and our algorithm performs superiorly comparing to other state-of-the-art methods. Furthermore, to address the complexity issue of MIL-SKDE, we propose MIL-SS (MIL with speed-up SKDE) to speed up the training process. Experiments shows that it has comparable performances to MIL-SKDE but is much more efficient in training stage. Finally, we apply MIL-SS in a “bag-of-words” (BoW) system to learn the visual codebook for object categorization on a more comprehensive dataset. Our system consists of four steps: codebook generation, feature coding, feature pooling and classification. Unlike conventional BoW methods that learn codebook from the whole image areas, our method can learn codebook just from the areas of target objects, which significantly improves classification accuracy. en_US
dc.language.iso en en_US
dc.subject Human face recognition. en
dc.subject Facial pattern recognition. en
dc.subject Computer vision research. en
dc.title Single and multiple instance learning for visual categorisation en_US
dc.type Thesis (Ph.D.) en_US


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