A fast matrix majorization-projection method for penalized stress minimization with box constraints
A fast matrix majorization-projection method for penalized stress minimization with box constraints
Kruskal's stress minimization, though nonconvex and nonsmooth, has been a major computational model for dissimilarity data in multidimensional scaling. Semidefinite Programming (SDP) relaxation (by dropping the rank constraint) would lead to a high number of SDP cone constraints. This has rendered the SDP approach computationally challenging even for problems of small size. In this paper, we reformulate the stress optimization as an Euclidean Distance Matrix (EDM) optimization with box constraints. A key element in our approach is the conditional positive semidefinite cone with rank cut. Although nonconvex, this geometric object allows a fast computation of the projection onto it and it naturally leads to a majorization-minimization algorithm with the minimization step having a closed-form solution. Moreover, we prove that our EDM optimization follows a continuously differentiable path, which greatly facilitated the analysis of the convergence to a stationary point. The superior performance of the proposed algorithm is demonstrated against some of the state-of-the-art solvers in the field of sensor network localization and molecular conformation.
4331-4346
Zhou, Shenglong
d183edc9-a9f6-4b07-a140-a82213dbd8c3
Xiu, Naihua
8b5770f7-ae35-4dbe-884a-02fb4ea27bee
Qi, Hou-Duo
e9789eb9-c2bc-4b63-9acb-c7e753cc9a85
15 August 2018
Zhou, Shenglong
d183edc9-a9f6-4b07-a140-a82213dbd8c3
Xiu, Naihua
8b5770f7-ae35-4dbe-884a-02fb4ea27bee
Qi, Hou-Duo
e9789eb9-c2bc-4b63-9acb-c7e753cc9a85
Zhou, Shenglong, Xiu, Naihua and Qi, Hou-Duo
(2018)
A fast matrix majorization-projection method for penalized stress minimization with box constraints.
IEEE Transactions on Signal Processing, 66 (16), .
(doi:10.1109/TSP.2018.2849734).
Abstract
Kruskal's stress minimization, though nonconvex and nonsmooth, has been a major computational model for dissimilarity data in multidimensional scaling. Semidefinite Programming (SDP) relaxation (by dropping the rank constraint) would lead to a high number of SDP cone constraints. This has rendered the SDP approach computationally challenging even for problems of small size. In this paper, we reformulate the stress optimization as an Euclidean Distance Matrix (EDM) optimization with box constraints. A key element in our approach is the conditional positive semidefinite cone with rank cut. Although nonconvex, this geometric object allows a fast computation of the projection onto it and it naturally leads to a majorization-minimization algorithm with the minimization step having a closed-form solution. Moreover, we prove that our EDM optimization follows a continuously differentiable path, which greatly facilitated the analysis of the convergence to a stationary point. The superior performance of the proposed algorithm is demonstrated against some of the state-of-the-art solvers in the field of sensor network localization and molecular conformation.
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sqredm
- Accepted Manuscript
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Submitted date: 15 August 2017
Accepted/In Press date: 9 June 2018
e-pub ahead of print date: 28 June 2018
Published date: 15 August 2018
Identifiers
Local EPrints ID: 421776
URI: http://eprints.soton.ac.uk/id/eprint/421776
ISSN: 1053-587X
PURE UUID: 02be372c-90eb-4f8c-9efa-725fe90fd7c7
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Date deposited: 27 Jun 2018 16:30
Last modified: 16 Mar 2024 06:45
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Author:
Shenglong Zhou
Author:
Naihua Xiu
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