Newton hard thresholding pursuit for sparse LCP via a new merit function
Newton hard thresholding pursuit for sparse LCP via a new merit function
Solutions to the linear complementarity problem (LCP) are naturally sparse in many applications such as bimatrix games and portfolio section problems. Despite that it gives rise to the hardness, sparsity makes optimization faster and enables relatively large scale computation. Motivated by this, we take the sparse LCP into consideration, investigating the existence and boundedness of its solution set as well as introducing a new merit function, which allows us to convert the problem into a sparsity constrained optimization. The function turns out to be continuously differentiable and twice continuously differentiable for some chosen parameters. Interestingly, it is also convex if the involved matrix is positive semidefinite. We then explore the relationship between the solution set to the sparse LCP and stationary points of the sparsity constrained optimization. Finally, Newton hard thresholding pursuit is adopted to solve the sparsity constrained model. Numerical experiments demonstrate that the problem can be efficiently solved through the new merit function.
Zhou, Shenglong
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Shang, Meijuan
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Pan, Lili
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Li, Mu
4b1bb840-8ded-4fdf-8215-41c0f6abcb6d
Zhou, Shenglong
d183edc9-a9f6-4b07-a140-a82213dbd8c3
Shang, Meijuan
170b322d-2478-4938-986a-09e778e597b7
Pan, Lili
432e64ee-1662-440e-88e7-de32dddf453e
Li, Mu
4b1bb840-8ded-4fdf-8215-41c0f6abcb6d
Zhou, Shenglong, Shang, Meijuan, Pan, Lili and Li, Mu
(2020)
Newton hard thresholding pursuit for sparse LCP via a new merit function.
arXiv, (2004.02244).
(In Press)
Abstract
Solutions to the linear complementarity problem (LCP) are naturally sparse in many applications such as bimatrix games and portfolio section problems. Despite that it gives rise to the hardness, sparsity makes optimization faster and enables relatively large scale computation. Motivated by this, we take the sparse LCP into consideration, investigating the existence and boundedness of its solution set as well as introducing a new merit function, which allows us to convert the problem into a sparsity constrained optimization. The function turns out to be continuously differentiable and twice continuously differentiable for some chosen parameters. Interestingly, it is also convex if the involved matrix is positive semidefinite. We then explore the relationship between the solution set to the sparse LCP and stationary points of the sparsity constrained optimization. Finally, Newton hard thresholding pursuit is adopted to solve the sparsity constrained model. Numerical experiments demonstrate that the problem can be efficiently solved through the new merit function.
Text
nhtp-sparse-lcp
- Accepted Manuscript
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Accepted/In Press date: 5 April 2020
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Local EPrints ID: 439549
URI: http://eprints.soton.ac.uk/id/eprint/439549
PURE UUID: 464d98cf-280f-4912-acb1-9440e9061bdd
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Date deposited: 27 Apr 2020 16:30
Last modified: 16 Mar 2024 07:35
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Author:
Shenglong Zhou
Author:
Meijuan Shang
Author:
Lili Pan
Author:
Mu Li
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