Ben-Tal, Aharon ; Bhadra, Sahely ; Bhattacharyya, Chiranjib ; Nemirovski, Arkadi (2012) Efficient Methods for Robust Classification Under Uncertainty in Kernel Matrices The Journal of Machine Learning Research, 13 (10). pp. 2923-2954.
PDF
395kB |
Abstract
In this paper we study the problem of designing SVM classifiers when the kernel matrix, K, is affected by uncertainty. Specifically K is modeled as a positive affine combination of given positive semi definite kernels, with the coefficients ranging in a norm-bounded uncertainty set. We treat the problem using the Robust Optimization methodology. This reduces the uncertain SVM problem into a deterministic conic quadratic problem which can be solved in principle by a polynomial time Interior Point (IP) algorithm. However, for large-scale classification problems, IP methods become intractable and one has to resort to first-order gradient type methods. The strategy we use here is to reformulate the robust counterpart of the uncertain SVM problem as a saddle point problem and employ a special gradient scheme which works directly on the convex-concave saddle function. The algorithm is a simplified version of a general scheme due to Juditski and Nemirovski (2011). It achieves an O(1/T2) reduction of the initial error after T iterations. A comprehensive empirical study on both synthetic data and real-world protein structure data sets show that the proposed formulations achieve the desired robustness, and the saddle point based algorithm outperforms the IP method significantly.
Item Type: | Article |
---|---|
ID Code: | 127707 |
Deposited On: | 13 Oct 2022 11:03 |
Last Modified: | 13 Oct 2022 11:03 |
Repository Staff Only: item control page