The bi-objective quadratic multiple knapsack problem: Model and heuristics

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The single objective quadratic multiple knapsack problem (QMKP) is a useful model to formulate a number of practical problems. However, it is not suitable for situations where more than one objective needs to be considered. In this paper, we extend the single objective QMKP to the bi-objective case such that we simultaneously maximize the total profit of the items packed into the knapsacks and the ’makespan’ (the gain of the least profit knapsack). Given the imposing computational challenge, we propose a hybrid two-stage (HTS) algorithm to approximate the Pareto front of the bi-objective QMKP. HTS combines two different and complementary search methods — scalarizing memetic search (first stage) and Pareto local search (second stage). Experimental assessments on a set of 60 problem instances show that HTS dominates a standard multi-objective evolutionary algorithm (NSGA II), and two simplified variants of HTS. We also present a comparison with two state-of-the-art algorithms for the single objective QMKP to assess the quality of the extreme solutions of the approximated Pareto front.

论文关键词:Quadratic multiple knapsack,Bi-objective optimization,Constrained optimization,Memetic and hybrid search,Local search and Pareto local search

论文评审过程:Received 1 November 2015, Revised 4 January 2016, Accepted 10 January 2016, Available online 18 January 2016, Version of Record 20 February 2016.

论文官网地址:https://doi.org/10.1016/j.knosys.2016.01.014