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Decomposition methods for multi-horizon stochastic programming

Decomposition methods for multi-horizon stochastic programming
Decomposition methods for multi-horizon stochastic programming

Multi-horizon stochastic programming includes short-term and long-term uncertainty in investment planning problems more efficiently than traditional multi-stage stochastic programming. In this paper, we exploit the block separable structure of multi-horizon stochastic linear programming, and establish that it can be decomposed by Benders decomposition and Lagrangean decomposition. In addition, we propose parallel Lagrangean decomposition with primal reduction that, (1) solves the scenario subproblems in parallel, (2) reduces the primal problem by keeping one copy for each scenario group at each stage, and (3) solves the reduced primal problem in parallel. We apply the parallel Lagrangean decomposition with primal reduction, Lagrangean decomposition and Benders decomposition to solve a stochastic energy system investment planning problem. The computational results show that: (a) the Lagrangean type decomposition algorithms have better convergence at the first iterations to Benders decomposition, and (b) parallel Lagrangean decomposition with primal reduction is very efficient for solving multi-horizon stochastic programming problems. Based on the computational results, the choice of algorithms for multi-horizon stochastic programming is discussed.

Benders decomposition, Lagrangean decomposition, Multi-horizon stochastic programming, Parallel computing, Primal reduction, Stochastic programming
1619-697X
Zhang, Hongyu
ac1b2192-da88-4074-bd67-696146f2d6c0
Grossmann, Ignacio E.
2bc893c8-fecc-4831-848d-2b5bed5f9720
Tomasgard, Asgeir
623a1e56-f338-4820-851d-97f55fe92fc0
Zhang, Hongyu
ac1b2192-da88-4074-bd67-696146f2d6c0
Grossmann, Ignacio E.
2bc893c8-fecc-4831-848d-2b5bed5f9720
Tomasgard, Asgeir
623a1e56-f338-4820-851d-97f55fe92fc0

Zhang, Hongyu, Grossmann, Ignacio E. and Tomasgard, Asgeir (2024) Decomposition methods for multi-horizon stochastic programming. Computational Management Science, 21 (1), [32]. (doi:10.1007/S10287-024-00509-Y).

Record type: Article

Abstract

Multi-horizon stochastic programming includes short-term and long-term uncertainty in investment planning problems more efficiently than traditional multi-stage stochastic programming. In this paper, we exploit the block separable structure of multi-horizon stochastic linear programming, and establish that it can be decomposed by Benders decomposition and Lagrangean decomposition. In addition, we propose parallel Lagrangean decomposition with primal reduction that, (1) solves the scenario subproblems in parallel, (2) reduces the primal problem by keeping one copy for each scenario group at each stage, and (3) solves the reduced primal problem in parallel. We apply the parallel Lagrangean decomposition with primal reduction, Lagrangean decomposition and Benders decomposition to solve a stochastic energy system investment planning problem. The computational results show that: (a) the Lagrangean type decomposition algorithms have better convergence at the first iterations to Benders decomposition, and (b) parallel Lagrangean decomposition with primal reduction is very efficient for solving multi-horizon stochastic programming problems. Based on the computational results, the choice of algorithms for multi-horizon stochastic programming is discussed.

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Accepted/In Press date: 6 March 2024
Published date: 10 May 2024
Additional Information: Publisher Copyright: © The Author(s) 2024.
Keywords: Benders decomposition, Lagrangean decomposition, Multi-horizon stochastic programming, Parallel computing, Primal reduction, Stochastic programming

Identifiers

Local EPrints ID: 496929
URI: http://eprints.soton.ac.uk/id/eprint/496929
DOI: doi:10.1007/S10287-024-00509-Y
ISSN: 1619-697X
PURE UUID: 1ce5ce7e-521d-4770-9168-f240f32c0351
ORCID for Hongyu Zhang: ORCID iD orcid.org/0000-0002-1956-4389

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Date deposited: 08 Jan 2025 13:05
Last modified: 22 Aug 2025 02:46

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Contributors

Author: Hongyu Zhang ORCID iD
Author: Ignacio E. Grossmann
Author: Asgeir Tomasgard

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