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A Two State Reduction Based Dynamic Programming Algorithm for the Bi-objective 0-1 Knapsack Problem
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Orientador(es)
Resumo(s)
In this paper, we present a dynamic programming (DP) algorithm for the multi-objective 0–1 knapsack problem (MKP) by combining two state reduction techniques. One generates a backward reduced-state DP space (BRDS) by discarding some states systematically and the other reduces further the number of states to be calculated in the BRDS using a property governing the objective relations between states. We derive the condition under which the BRDS is effective to the MKP based on the analysis of solution time and memory requirements. To the authors’ knowledge, the BRDS is applied for the first time for developing a DP algorithm. The numerical results obtained with different types of bi-objective instances show that the algorithm can find the Pareto frontier faster than the benchmark algorithm for the large size instances, for three of the four types of instances conducted in the computational experiments. The larger the size of the problem, the larger improvement over the benchmark algorithm. Also, the algorithm is more efficient for the harder types of bi-objective instances as compared with the benchmark algorithm.
Descrição
Palavras-chave
Bi-Objective Knapsack Instances Multi-Objective Optimization Dynamic Programming State Reduction
Contexto Educativo
Citação
Rong, Aiying; José Rui Figueira and Margarida Vaz Pato. (2011). "A Two State Reduction Based Dynamic Programming Algorithm for the Bi-objective 0-1 Knapsack Problem", Computers and Mathematics with Applications, Vol. 62: pp. 2913-2930. 2011
Editora
Elsevier