A 0-1 bat algorithm for cellular network optimisation: a systematic study on mapping techniques

Int. J. Reason. based Intell. Syst. Pub Date : 2017-08-29 DOI:10.1504/IJRIS.2017.10007147

Z. Dahi, Chaker Mezioud, A. Draa

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引用次数: 6

Abstract

Many research efforts are deployed today in order to design techniques that allow continuous metaheuristics to also solve binary problems. However, knowing that no work thoroughly studied these techniques, such a task is still difficult since these techniques are still ambiguous and misunderstood. The bat algorithm (BA) is a continuous algorithm that has been recently adapted using one of these techniques. However, that work suffered from several shortfalls. This paper conducts a systematic study in order to investigate the efficiency and usefulness of discretising continuous metaheuristics. This is done by proposing five binary variants of the BA (BBAs) based on the principal mapping techniques existing in the literature. As problem benchmark, two optimisation problems in cellular networks, the antenna positioning problem (APP) and the reporting cell problem (RCP) are used. The proposed BBAs are evaluated using several types, sizes and complexities of data. Two of the top-ranked algorithms designed to solve the APP and the RCP, the population-based incremental learning (PBIL) and the differential evolution (DE) algorithm are taken as comparison basis. Several statistical tests are conducted as well.

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蜂窝网络优化的0-1蝙蝠算法:映射技术的系统研究

为了设计允许连续元启发式也能解决二元问题的技术，今天部署了许多研究工作。然而，知道没有工作彻底研究这些技术，这样的任务仍然是困难的，因为这些技术仍然是模糊和误解。蝙蝠算法(BA)是一种连续算法，最近使用了这些技术中的一种。然而，这项工作有几个不足之处。本文对离散连续元启发式算法的有效性和实用性进行了系统的研究。这是通过基于文献中现有的主要映射技术提出BA (BBAs)的五个二进制变体来完成的。以蜂窝网络中的两个优化问题——天线定位问题(APP)和报告小区问题(RCP)作为问题基准。使用几种类型、大小和数据复杂性来评估建议的bba。本文以基于种群的增量学习(PBIL)算法和差分进化(DE)算法作为比较基础。还进行了一些统计检验。

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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Int. J. Reason. based Intell. Syst.

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