Parallel Hybrid Trajectory Based Metaheuristics for Real-World Problems

2015 International Conference on Intelligent Networking and Collaborative Systems Pub Date : 2015-09-02 DOI:10.1109/INCoS.2015.25

Gabriel Luque, E. Alba

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引用次数: 2

Abstract

This paper proposes a novel algorithm combining path relinking with a set of cooperating trajectory based parallel algorithms to yield a new metaheuristic of enhanced search features. Algorithms based on the exploration of the neighborhood of a single solution, like simulated annealing(SA), have offered accurate results for a large number of real-world problems in the past. Because of their trajectory based nature, some advanced models such as the cooperative one are competitive in academic problems, but still show many limitations in addressing large scale instances. In addition, the field of parallel models for trajectory methods has not deeply been studied yet (at least in comparison with parallel population based models). In this work, we propose a new hybrid algorithm which improves cooperative single solution techniques by using path relinking, allowing both to reduce the global execution time and to improve the efficacy of the method. We applied here this new model using a large benchmark of instances of two real-world NP-hard problems: DNA fragment assembly and QAP problems, with competitive results.

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基于并行混合轨迹的现实问题元启发式方法

本文提出了一种将路径链接与一组基于协作轨迹的并行算法相结合的新算法，以产生一种新的增强搜索特征的元启发式算法。基于探索单个解的邻域的算法，如模拟退火(SA)，在过去已经为大量现实世界的问题提供了准确的结果。由于其基于轨迹的性质，一些先进的模型，如合作模型，在学术问题上具有竞争力，但在处理大规模实例时仍然存在许多局限性。此外，轨迹方法的并行模型领域尚未得到深入的研究(至少与基于并行种群的模型相比)。在这项工作中，我们提出了一种新的混合算法，该算法通过使用路径重链接来改进协作单解技术，既减少了全局执行时间，又提高了方法的有效性。我们在这里应用了这个新模型，使用了两个现实世界np难题实例的大型基准:DNA片段组装和QAP问题，并获得了竞争性结果。

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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来源期刊

2015 International Conference on Intelligent Networking and Collaborative Systems

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