An analysis of convex relaxations for MAP estimation

Conference item

Abstract:: The problem of obtaining the maximum a posteriori estimate of a general discrete random field (i.e. a random field defined using a finite and discrete set of labels) is known to be NP-hard. However, due to its central importance in many applications, several approximate algorithms have been proposed in the literature. In this paper, we present an analysis of three such algorithms based on convex relaxations: (i) LP-S: the linear programming (LP) relaxation proposed by Schlesinger [20] for a special case and independently in [4, 12, 23] for the general case; (ii) QP-RL: the quadratic programming (QP) relaxation by Ravikumar and Lafferty [18]; and (iii) SOCP-MS: the second order cone programming (SOCP) relaxation first proposed by Muramatsu and Suzuki [16] for two label problems and later extended in [14] for a general label set. We show that the SOCP-MS and the QP-RL relaxations are equivalent. Furthermore, we prove that despite the flexibility in the form of the constraints/objective function offered by QP and SOCP, the LP-S relaxation strictly dominates (i.e. provides a better approximation than) QP-RL and SOCP-MS. We generalize these results by defining a large class of SOCP (and equivalent QP) relaxations which is dominated by the LP-S relaxation. Based on these results we propose some novel SOCP relaxations which strictly dominate the previous approaches.

Files:: Kumar_et_al_2008_An_analysis_of.pdf

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Publication website:: https://papers.nips.cc/paper_files/paper/2007/hash/0084ae4bc24c0795d1e6a4f58444d39b-Abstract.html

Publisher:: Curran Associates
Host title:: Advances in Neural Information Processing Systems 20
Volume:: 1
Pages:: 297-304
Publication date:: 2008-09-01
Event title:: 21th Conference on Neural Information Processing Systems (NeurIPS 2007)
Event location:: Vancouver, BC, Canada
Event website:: https://nips.cc/Conferences/2007
Event start date:: 2007-12-03
Event end date:: 2007-12-06
ISSN:: 1049-5258
ISBN-10:: 160560352X
ISBN-13:: 9781605603520

Copyright holder:: Kumar et al. and NIPS
Notes:: This is the accepted manuscript version of the paper. The final version is available from the Neural Information Processing Systems Foundation at: https://papers.nips.cc/paper_files/paper/2007/hash/0084ae4bc24c0795d1e6a4f58444d39b-Abstract.html

Licence:: Terms and Conditions of Use for Oxford University Research Archive

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