Binary Hashing with Semidefinite Relaxation and Augmented Lagrangian

July 19, 2016 Β· Declared Dead Β· πŸ› European Conference on Computer Vision

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Authors Thanh-Toan Do, Anh-Dzung Doan, Duc-Thanh Nguyen, Ngai-Man Cheung arXiv ID 1607.05396 Category cs.CV: Computer Vision Citations 20 Venue European Conference on Computer Vision Last Checked 3 months ago
Abstract
This paper proposes two approaches for inferencing binary codes in two-step (supervised, unsupervised) hashing. We first introduce an unified formulation for both supervised and unsupervised hashing. Then, we cast the learning of one bit as a Binary Quadratic Problem (BQP). We propose two approaches to solve BQP. In the first approach, we relax BQP as a semidefinite programming problem which its global optimum can be achieved. We theoretically prove that the objective value of the binary solution achieved by this approach is well bounded. In the second approach, we propose an augmented Lagrangian based approach to solve BQP directly without relaxing the binary constraint. Experimental results on three benchmark datasets show that our proposed methods compare favorably with the state of the art.
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