The Multiobjective Discrete Optimization Problem: A Weighted Min-Max Two-Stage Optimization Approach and a Bicriteria Algorithm

Sayın, Serpil; Kouvelis, Panos

doi:10.1287/mnsc.1050.0413

Cited by 60 publications

(35 citation statements)

References 19 publications

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“…Although these are not simple parametric programs, the weights in the above robust problems can be interpreted as realization probabilities of the scenarios. In Sayin and Kouvelis (2005), it has been established that the solution obtained from the two stage mathematical programs (P w ) and (Q w ) is efficient for any w > 0, and for any efficient solution x, there exists w > 0 such that x is an optimal solution to the two stage parametric programs (P w ) and (Q w ). The same result holds for the deviation robust counterparts of subproblems (P w ) and (Q w ).…”

Section: Problem Definition the Algorithm And Theoretical Backgroundmentioning

confidence: 99%

“…We formally state below our parametric search algorithm that generates the entire efficient solution set of the bicriteria discrete optimization problem in the objective space (Sayin and Kouvelis, 2005). The parameter search is conducted over w 2 in problem (P w ) and w 1 = 1 − w 2 .…”

Section: An Algorithm For Bicriteria Discrete Optimizationmentioning

confidence: 99%

“…Algorithm Robust (Sayin and Kouvelis, 2005) Step 0. Solve problems (P w ) and (Q w ) with w 2 = θ to obtain y 1 .…”

Section: An Algorithm For Bicriteria Discrete Optimizationmentioning

confidence: 99%

“…This implies, obviously, that the relationship between the two different problems can lead to interesting developments for the solution of both. Recently Sayin and Kouvelis (2005) proposed an algorithm for bicriteria discrete optimization based on ideas motivated by robust optimization. Algorithm Robust performs an exhaustive search in the weight space while solving corresponding weighted robust optimization problems.…”

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confidence: 99%

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Algorithm robust for the bicriteria discrete optimization problem

Kouvelis

Sayın

2006

Ann Oper Res

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We apply Algorithm Robust to various problems in multiple objective discrete optimization. Algorithm Robust is a general procedure that is designed to solve bicriteria optimization problems. The algorithm performs a weight space search in which the weights are utilized in min-max type subproblems. In this paper, we experiment with Algorithm Robust on the bicriteria knapsack problem, the bicriteria assignment problem, and the bicriteria minimum cost network flow problem. We look at a heuristic variation that is based on controlling the weight space search and has an indirect control on the sample of efficient solutions generated. We then study another heuristic variation which generates samples of the efficient set with quality guarantees. We report results of computational experiments.

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Section: Problem Definition the Algorithm And Theoretical Backgroundmentioning

confidence: 99%

Section: An Algorithm For Bicriteria Discrete Optimizationmentioning

confidence: 99%

“…Algorithm Robust (Sayin and Kouvelis, 2005) Step 0. Solve problems (P w ) and (Q w ) with w 2 = θ to obtain y 1 .…”

Section: An Algorithm For Bicriteria Discrete Optimizationmentioning

confidence: 99%

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confidence: 99%

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Algorithm robust for the bicriteria discrete optimization problem

Kouvelis

Sayın

2006

Ann Oper Res

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“…time and cost) of the construction method. Additional information on the fundamentals of multi-objective optimization and GA can be found in the related references (Certa et al 2011;Elbehairy et al 2006;Elegbede, Adjallah 2003;Geem 2010;Kandil et al 2010;Konak et al 2006;Moradi et al 2011;Sayin, Kouvelis 2005;Šešok, Belevicius 2008;Šešok et al 2010;Šostak, Vakrinien 2011;Venskus et al 2010). In this study, a software program called 'OptQuest' (an optimization tool that runs with a software program called 'Crystal Ball') was used to introduce the GA.…”

Section: Introduction Of the Genetic Algorithmmentioning

confidence: 99%

An Integrated Multi-Objective Optimization Model for Solving the Construction Time-Cost Trade-Off Problem

Koo

Hong

Kim

2015

Journal of Civil Engineering and Management

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Abstract. As construction projects become larger and more diversified, various factors such as time, cost, quality, environment, and safety that need to be considered make it very difficult to make the final decision. This study was conducted to develop an integrated Multi-Objective Optimization (iMOO) model that provides the optimal solution set based on the concept of the Pareto front, through the following six steps: (1) problem statement; (2) definition of the optimization objectives; (3) establishment of the data structure; (4) standardization of the optimization objectives; (5) definition of the fitness function; and (6) introduction of the genetic algorithm. To evaluate the robustness and reliability of the proposed iMOO model, a case study on the construction time-cost trade-off problem was analyzed in terms of effectiveness and efficiency. The results of this study can be used: (1) to assess more than two optimization objectives, such as the initial investment cost, operation and maintenance cost, and CO 2 emission trading cost; (2) to take advantage of the weights as the real meanings; (3) to evaluate the four types of fitness functions; and (4) to expand into other areas such as the indoor air quality, materials, and energy use.

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Exact algorithms for multiobjective linear optimization problems with integer variables: A state of the art survey

Halffmann

Schäfer

Dächert

et al. 2022

Multi Criteria Decision Anal

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We provide a comprehensive overview of the literature of algorithmic approaches for multiobjective mixed-integer and integer linear optimization problems. More precisely, we categorize and display exact methods for multiobjective linear problems with integer variables for computing the entire set of nondominated images. Our review lists 108 articles and is intended to serve as a reference for all researchers who are familiar with basic concepts of multiobjective optimization and who have an interest in getting a thorough view on the state-of-the-art in multiobjective mixedinteger programming.

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The Multiobjective Discrete Optimization Problem: A Weighted Min-Max Two-Stage Optimization Approach and a Bicriteria Algorithm

Cited by 60 publications

References 19 publications

Algorithm robust for the bicriteria discrete optimization problem

Algorithm robust for the bicriteria discrete optimization problem

An Integrated Multi-Objective Optimization Model for Solving the Construction Time-Cost Trade-Off Problem

Exact algorithms for multiobjective linear optimization problems with integer variables: A state of the art survey

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