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Multi-objective retrospective optimization using stochastic zigzag search

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  • Wang, Honggang

Abstract

We propose a new retrospective optimization (RO) method for multi-objective simulation optimization (MOSO) problems. RO algorithms generate a sequence of sample-path (SP) problems and solve these SP problems iteratively using a nonlinear optimizer. In this study, a stochastic zigzag search algorithm is chosen in the RO framework to solve SP problems. The key idea of zigzag search is searching around the Pareto front by applying an efficient local-search procedure using the gradients of the objective functions. Many continuous MOSO problems have smooth objective functions and their non-dominated objective function values form a smooth surface in the image space. This fact motivates developing the zigzag search method embedded in RO for such relatively well-posed MOSO problems. A numerical implementation of this method—multi-objective retrospective optimization using zigzag search (MOROZS)—is presented particularly for continuous bi-objective simulation optimization (BOSO) problems with well-connected Pareto optimal solutions. MOROZS is designed for BOSO problems in which a simulation oracle returns both objective function values and gradients. Due to the local nature of zigzag search, MOROZS can only guarantee the asymptotic convergence to local Pareto optimality. The efficiency of MOROZS is studied using three BOSO problems with noisy objective functions and is compared to that of Genetic Algorithms based NSGA-II and a recently developed method MO-COMPASS.

Suggested Citation

  • Wang, Honggang, 2017. "Multi-objective retrospective optimization using stochastic zigzag search," European Journal of Operational Research, Elsevier, vol. 263(3), pages 946-960.
  • Handle: RePEc:eee:ejores:v:263:y:2017:i:3:p:946-960
    DOI: 10.1016/j.ejor.2017.06.039
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    References listed on IDEAS

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    1. Haobin Li & Loo Hay Lee & Ek Peng Chew & Peter Lendermann, 2015. "MO-COMPASS: a fast convergent search algorithm for multi-objective discrete optimization via simulation," IISE Transactions, Taylor & Francis Journals, vol. 47(11), pages 1153-1169, November.
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