Please use this identifier to cite or link to this item: http://repo.lib.jfn.ac.lk/ujrr/handle/123456789/822
Title: Sequential Input Space Carving for visual codebook design
Authors: Barathy, Mayurathan
Keywords: Visual codebook, Sequential Input Space Carving, K-means, Mean-shift, Resource Allocating Codebook
Issue Date: 4-Oct-2013
Publisher: BMVA
Abstract: In well-known framework for visual scene recognition literature, clustering to construct a visual codebook is an important step, and is usually achieved by k-means clustering. This is known to be computational and performance bottleneck. On current benchmark tasks like the PASCAL VOC challenge, with only 20 classes and a few hundred images per class, the computational problem is one of clustering millions of 128 dimensional vectors into codebooks of a few thousand clusters. K-means being computationally hard on problems of such a scale implies that scaling up to even larger tasks such as the ImageNet challenge, with thousands of classes, becomes impossible. Additionally, there is an inherent compromise between constructing a large codebook, which can potentially retain noise in the data as cluster centres and have the undesirable effect of posing the subsequent classification problem in high dimensions, and a small codebook which loses resolution of the distribution of image features. We present a novel approach to the design of codebooks in patch-based, bag-of-feature visual scene recognition problems. The Sequential Input Space Carving (SISC) approach that we present achieves compact codebooks in a fraction of the computation time needed by the k-means clustering method usually employed in this setting. We demonstrate the performance of the SISC using several recognition tasks including the visual object recognition tasks: PASCAL VOC challenge, MPEG-7 Part-B silhouette image, Caltech-101 and Caltech-256 datasets, human action classification task: KTH and WEIZMANN datasets and texture classification tasks: UIUC and CUReT datasets. Hence, we compare and contrast the recognition performance of SISC evaluated with two different clustering techniques: k-means and Resource-Allocating Codebook (RAC).In all these, the SISC approach achieves classification performances comparable to those reported by other authors, and sometimes outperforms them, in a fraction of the computing time and at significantly smaller codebook sizes.
URI: http://repo.lib.jfn.ac.lk/ujrr/handle/123456789/822
Appears in Collections:Computer Science

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