Automated and Surrogate Multi-Resolution Approaches in Genetic Algorithms

Abdulaziz T. Almutairi, J. Fieldsend
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引用次数: 0

Abstract

Recent work on multi-resolution optimisation (varying the fidelity of a design during a search) has developed approaches for automated resolution change depending on the population characteristics. This used the standard deviation of the population, or the marginal probability density estimation per variable, to automatically determine the resolution to apply to a design in the next generation. Here we build on this methodology in a number of new directions. We investigate the use of a complete estimated probability density function for resolution determination, enabling the dependencies between variables to be represented. We also explore the use of the multi-resolution transformation to assign a surrogate fitness to population members, but without modifying their location, and discuss the fitness landscape implications of this approach. Results are presented on a range of popular uni-objective continuous test-functions. These demonstrate the performance improvements that can be gained using an automated multi-resolution approach, and surprisingly indicate the simplest resolution indicator is often the most effective, but that relative performance is often problem dependant. We also observe how population duplicates grow in multi-resolution approaches, and discuss the implications of this when comparing algorithms (and efficiently implementing them).
遗传算法中的自动化和代理多分辨率方法
最近在多分辨率优化(在搜索过程中改变设计的保真度)方面的工作已经开发出根据人口特征自动改变分辨率的方法。它使用总体的标准偏差,或每个变量的边际概率密度估计,来自动确定应用于下一代设计的分辨率。在这里,我们在一些新的方向上建立了这种方法。我们研究了使用一个完整的估计概率密度函数来确定分辨率,使变量之间的依赖关系能够被表示出来。我们还探讨了使用多分辨率转换来为种群成员分配代理适应度,但不修改它们的位置,并讨论了这种方法的适应度景观含义。给出了一系列常用的单目标连续测试函数的结果。这些演示了使用自动化多分辨率方法可以获得的性能改进,并且令人惊讶地表明,最简单的分辨率指示器通常是最有效的,但相对性能通常与问题有关。我们还观察了在多分辨率方法中种群重复是如何增长的,并在比较算法(以及有效地实现它们)时讨论了这一点的含义。
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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