On the Optimality of Sequential Forward Feature Selection Using Class Separability Measure
Date
2011
Authors
Wang, Lei
Shen, Chunhua
Hartley, Richard
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IEEE Communications Society
Abstract
This paper studies sequential forward feature selection that uses the scatter-matrix-based class separability measure. We find that by adding a scale factor to each iteration of the conventional sequential selection, a sequential selection that guarantees the global optimum can be attained. We give a thorough theoretical proof of its optimality via a novel geometric interpretation, and this leads to a unified framework including the optimal sequential selection, the conventional sequential selection and the best-individual-N selection. In addition, we show that with our formulation, feature selection can be treated as a linear fractional maximization problem, and it can be efficiently solved by algorithms well developed in the literature. This gives a non-sequential globally optimal feature selection algorithm. Both theoretical and experimental study demonstrate their efficiency.
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Keywords
Keywords: Class separability; Class separability measure; Experimental studies; Feature selection algorithm; Geometric interpretation; Global optimum; Maximization problem; Optimal sequential; Optimality; Scale Factor; sequential; Sequential selection; Unified fram class separability; feature selection; sequential
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A Novel Illumination-Invariant Loss for Monocular 3D
Pose Estimation
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Conference paper
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2037-12-31
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