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Technical Note-On the Strength of Relaxations of Weakly Coupled Stochastic Dynamic Programs

Publication ,  Journal Article
Brown, DB; Zhang, J
Published in: Operations Research
November 1, 2023

Many stochastic dynamic programs (DPs) have a weakly coupled structure in that a set of linking constraints in each period couples an otherwise independent collection of subproblems. Two widely studied approximations of such problems are approximate linear programs (ALPs), which involve optimizing value function approximations that additively separate across subproblems, and Lagrangian relaxations, which involve relaxing the linking constraints. It is well known that both of these approximations provide upper bounds on the optimal value function in all states and that the ALP provides a tighter upper bound in the initial state. The purpose of this short paper is to provide theoretical justification for the fact that these upper bounds are often close if not identical. We show that (i) for any weakly coupled DP, the difference between these two upper bounds-the relaxation gap-is bounded from above in terms of the integrality gap of the separation problems associated with the ALP. (ii) If subproblem rewards are uniformly bounded and some broadly applicable conditions on the linking constraints hold, the relaxation gap is bounded from above by a constant that is independent of the number of subproblems. (iii) When the linking constraints are independent of subproblem states and have a unimodular structure, the relaxation gap equals zero. The conditions for (iii) hold in several widely studied problems: generalizations of restless bandit problems, online stochastic matching problems, network revenue management problems, and price-directed control of relocating resources. These findings generalize and unify existing results. Copyright:

Duke Scholars

Published In

Operations Research

DOI

EISSN

1526-5463

ISSN

0030-364X

Publication Date

November 1, 2023

Volume

71

Issue

6

Start / End Page

2374 / 2389

Related Subject Headings

  • Operations Research
  • 3507 Strategy, management and organisational behaviour
  • 1503 Business and Management
  • 0802 Computation Theory and Mathematics
  • 0102 Applied Mathematics
 

Citation

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MLA
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Brown, D. B., & Zhang, J. (2023). Technical Note-On the Strength of Relaxations of Weakly Coupled Stochastic Dynamic Programs. Operations Research, 71(6), 2374–2389. https://doi.org/10.1287/opre.2022.2287
Brown, D. B., and J. Zhang. “Technical Note-On the Strength of Relaxations of Weakly Coupled Stochastic Dynamic Programs.” Operations Research 71, no. 6 (November 1, 2023): 2374–89. https://doi.org/10.1287/opre.2022.2287.
Brown DB, Zhang J. Technical Note-On the Strength of Relaxations of Weakly Coupled Stochastic Dynamic Programs. Operations Research. 2023 Nov 1;71(6):2374–89.
Brown, D. B., and J. Zhang. “Technical Note-On the Strength of Relaxations of Weakly Coupled Stochastic Dynamic Programs.” Operations Research, vol. 71, no. 6, Nov. 2023, pp. 2374–89. Scopus, doi:10.1287/opre.2022.2287.
Brown DB, Zhang J. Technical Note-On the Strength of Relaxations of Weakly Coupled Stochastic Dynamic Programs. Operations Research. 2023 Nov 1;71(6):2374–2389.

Published In

Operations Research

DOI

EISSN

1526-5463

ISSN

0030-364X

Publication Date

November 1, 2023

Volume

71

Issue

6

Start / End Page

2374 / 2389

Related Subject Headings

  • Operations Research
  • 3507 Strategy, management and organisational behaviour
  • 1503 Business and Management
  • 0802 Computation Theory and Mathematics
  • 0102 Applied Mathematics