Bio-Inspired Object Recognition Using Parameterized Metric Learning

• Xiong Li,
• Bin Wang,
• Yuncai Liu,

Vol. 7, No. 4, April 29, 2013
10.3837/tiis.2013.04.012, Download Paper (Free):

• perceptual distance
• parameterized metric learning
• feature fusion
• bio-inspired object recognition

Abstract

Computing global features based on local features using a bio-inspired framework has shown promising performance. However, for some tough applications with large intra-class variances, a single local feature is inadequate to represent all the attributes of the images. To integrate the complementary abilities of multiple local features, in this paper we have extended the efficacy of the bio-inspired framework, HMAX, to adapt heterogeneous features for global feature extraction. Given multiple global features, we propose an approach, designated as parameterized metric learning, for high dimensional feature fusion. The fusion parameters are solved by maximizing the canonical correlation with respect to the parameters. Experimental results show that our method achieves significant improvements over the benchmark bio-inspired framework, HMAX, and other related methods on the Caltech dataset, under varying numbers of training samples and feature elements.

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