21 September 2015 Hierarchical discriminant manifold learning for dimensionality reduction and image classification
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Abstract
In the field of image classification, it has been a trend that in order to deliver a reliable classification performance, the feature extraction model becomes increasingly more complicated, leading to a high dimensionality of image representations. This, in turn, demands greater computation resources for image classification. Thus, it is desirable to apply dimensionality reduction (DR) methods for image classification. It is necessary to apply DR methods to relieve the computational burden as well as to improve the classification accuracy. However, traditional DR methods are not compatible with modern feature extraction methods. A framework that combines manifold learning based DR and feature extraction in a deeper way for image classification is proposed. A multiscale cell representation is extracted from the spatial pyramid to satisfy the locality constraints for a manifold learning method. A spectral weighted mean filtering is proposed to eliminate noise in the feature space. A hierarchical discriminant manifold learning is proposed which incorporates both category label and image scale information to guide the DR process. Finally, the image representation is generated by concatenating dimensionality reduced cell representations from the same image. Extensive experiments are conducted to test the proposed algorithm on both scene and object recognition datasets in comparison with several well-established and state-of-the-art methods with respect to classification precision and computational time. The results verify the effectiveness of incorporating manifold learning in the feature extraction procedure and imply that the multiscale cell representations may be distributed on a manifold.
© 2015 SPIE and IS&T
Weihai Chen, Weihai Chen, Changchen Zhao, Changchen Zhao, Kai Ding, Kai Ding, Xingming Wu, Xingming Wu, Peter C. Y. Chen, Peter C. Y. Chen, } "Hierarchical discriminant manifold learning for dimensionality reduction and image classification," Journal of Electronic Imaging 24(5), 053015 (21 September 2015). https://doi.org/10.1117/1.JEI.24.5.053015 . Submission:
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