EFFICIENT METAHEURISTIC ALGORITHMS FOR THE MULTI-STRIPE TRAVELLING SALESMAN PROBLEM

Journal of Computer Science and Cybernetics Pub Date : 2020-08-18 DOI:10.15625/1813-9663/36/3/14770

Ban Hà Bằng

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Abstract

The Multi-stripe Travelling Salesman Problem (Ms-TSP) is an extension of the Travelling Salesman Problem (TSP). In the \textit{q}-stripe TSP with $q \geq 1$, the objective function sums the costs for travelling from one customer to each of the next \textit{q} customers along the tour. The resulting \textit{q}-stripe TSP generalizes the TSP and forms a special case of the Quadratic Assignment Problem. To solve medium and large size instances, a metaheuristic algorithm is proposed. The proposed algorithm has two main components, which are construction and improvement phases. The construction phase generates a solution using Greedy Randomized Adaptive Search Procedure (GRASP) while the optimization phase improves the solution with several variants of Variable Neighborhood Search, both coupled with a technique called Shaking Technique to escape from local optima. In addition, Adaptive Memory is integrated into our algorithms to balance between the diversification and intensification. To show the efficiency of our proposed metaheuristic algorithms, we extensively experiment on benchmark instances. The results indicate that the developed algorithms can produce efficient and effective solutions at a reasonable computation time.

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多条纹旅行商问题的高效元启发式算法

多条纹旅行商问题(Ms-TSP)是旅行商问题(TSP)的扩展。在具有$q \geq 1$的\textit{q}条TSP中，目标函数求和从一个顾客到下一个q个\textit{顾客}的旅行成本。由此得到的q条\textit{TSP}对TSP进行了推广，并形成了二次分配问题的一个特例。针对大中型实例，提出了一种元启发式算法。该算法分为构造阶段和改进阶段。构造阶段使用贪婪随机自适应搜索程序(GRASP)生成解，而优化阶段使用可变邻域搜索的几种变体来改进解，两者都结合了一种称为抖动技术的技术来逃避局部最优。此外，自适应记忆集成到我们的算法中，以平衡多样化和强化之间的关系。为了证明我们提出的元启发式算法的效率，我们在基准实例上进行了广泛的实验。结果表明，所开发的算法能够在合理的计算时间内得到高效的解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Computer Science and Cybernetics

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