HybridHAM: A Novel Hybrid Heuristic for Finding Hamiltonian Cycle

IF 1 Q3 ENGINEERING, MULTIDISCIPLINARY

Journal of Optimization Pub Date : 2018-10-16 DOI:10.1155/2018/9328103

K. R. Seeja

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引用次数: 7

Abstract

Hamiltonian Cycle Problem is one of the most explored combinatorial problems. Being an NP-complete problem, heuristic approaches are found to be more powerful than exponential time exact algorithms. This paper presents an efficient hybrid heuristic that sits in between the complex reliable approaches and simple faster approaches. The proposed algorithm is a combination of greedy, rotational transformation and unreachable vertex heuristics that works in three phases. In the first phase, an initial path is created by using greedy depth first search. This initial path is then extended to a Hamiltonian path in second phase by using rotational transformation and greedy depth first search. Third phase converts the Hamiltonian path into a Hamiltonian cycle by using rotational transformation. The proposed approach could find Hamiltonian cycles from a set of hard graphs collected from the literature, all the Hamiltonian instances (1000 to 5000 vertices) given in TSPLIB, and some instances of FHCP Challenge Set. Moreover, the algorithm has O(n3) worst case time complexity. The performance of the algorithm has been compared with the state-of-the-art algorithms and it was found that HybridHAM outperforms others in terms of running time.

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HybridHAM:一种寻找哈密顿循环的新型混合启发式算法

哈密顿循环问题是研究最多的组合问题之一。作为一个np完全问题，启发式方法被发现比指数时间精确算法更强大。本文提出了一种介于复杂可靠方法和简单快速方法之间的高效混合启发式算法。该算法是贪婪、旋转变换和不可达顶点启发式的结合，分三个阶段工作。在第一阶段，使用贪婪深度优先搜索创建初始路径。然后利用旋转变换和贪婪深度优先搜索，在第二阶段将初始路径扩展为哈密顿路径。第三阶段通过旋转变换将哈密顿路径转换成哈密顿循环。该方法可以从文献中收集的一组硬图、TSPLIB中给出的所有哈密顿实例(1000 ~ 5000个顶点)以及FHCP挑战集的一些实例中找到哈密顿环。该算法的最坏情况时间复杂度为0 (n3)。该算法的性能与最先进的算法进行了比较，发现HybridHAM在运行时间方面优于其他算法。

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 Optimization ENGINEERING, MULTIDISCIPLINARY-

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