使用机器学习方法评估模块化优化框架中的模块性能贡献。

IF 4.6 2区 计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Evolutionary Computation Pub Date : 2024-08-02 DOI:10.1162/evco_a_00356
Ana Kostovska, Diederick Vermetten, Peter Korošec, Sašo Džeroski, Carola Doerr, Tome Eftimov
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引用次数: 0

摘要

模块化算法框架不仅可以实现人工选择的算法组合中从未测试过的组合,而且还提供了一种结构化方法,用于评估哪些算法思想对观察到的算法性能至关重要。在本研究中,我们提出了一种分析不同模块对整体性能影响的方法。我们考虑了两个广泛使用的无衍生黑箱优化算法系列的模块框架,即协方差矩阵适应进化策略(CMA-ES)和微分进化(DE)。更具体地说,我们使用了 324 个 modCMA-ES 和 576 个 modDE 算法变体(每个变体对应一个特定的模块配置)的性能数据,这些数据是在 24 个 BBOB 问题上针对 6 种不同的运行时间预算在 2 维度上获得的。我们对这些数据的分析表明,各个模块对算法整体性能的影响差别很大。值得注意的是,在所考察的模块中,CMA-ES 中的精英模块和 DE 中的线性种群规模缩减模块对性能的影响最为显著。此外,我们对问题景观数据的探索性数据分析表明,无论单个模块的配置如何,最相关的景观特征保持一致,但这些特征对回归精度的影响各不相同。此外,我们应用分类器,利用性能预测和性能数据训练模型的特征重要性,来预测 CMA-ES 和 DE 算法变体的模块配置。结果表明,与真实配置相比,预测的配置在性能上没有表现出显著的统计学差异,其百分比因设置而异(mod-CMA 从 49.1% 到 95.5%,DE 从 21.7% 到 77.1%)。
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Using Machine Learning Methods to Assess Module Performance Contribution in Modular Optimization Frameworks.

Modular algorithm frameworks not only allow for combinations never tested in manually selected algorithm portfolios, but they also provide a structured approach to assess which algorithmic ideas are crucial for the observed performance of algorithms. In this study, we propose a methodology for analyzing the impact of the different modules on the overall performance. We consider modular frameworks for two widely used families of derivative-free black-box optimization algorithms, the Covariance Matrix Adaptation Evolution Strategy (CMA-ES) and differential evolution (DE). More specifically, we use performance data of 324 modCMA-ES and 576 modDE algorithm variants (with each variant corresponding to a specific configuration of modules) obtained on the 24 BBOB problems for 6 different runtime budgets in 2 dimensions. Our analysis of these data reveals that the impact of individual modules on overall algorithm performance varies significantly. Notably, among the examined modules, the elitism module in CMA-ES and the linear population size reduction module in DE exhibit the most significant impact on performance. Furthermore, our exploratory data analysis of problem landscape data suggests that the most relevant landscape features remain consistent regardless of the configuration of individual modules, but the influence that these features have on regression accuracy varies. In addition, we apply classifiers that exploit feature importance with respect to the trained models for performance prediction and performance data, to predict the modular configurations of CMA-ES and DE algorithm variants. The results show that the predicted configurations do not exhibit a statistically significant difference in performance compared to the true configurations, with the percentage varying depending on the setup (from 49.1% to 95.5% for mod-CMA and 21.7% to 77.1% for DE).

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来源期刊
Evolutionary Computation
Evolutionary Computation 工程技术-计算机:理论方法
CiteScore
6.40
自引率
1.50%
发文量
20
审稿时长
3 months
期刊介绍: Evolutionary Computation is a leading journal in its field. It provides an international forum for facilitating and enhancing the exchange of information among researchers involved in both the theoretical and practical aspects of computational systems drawing their inspiration from nature, with particular emphasis on evolutionary models of computation such as genetic algorithms, evolutionary strategies, classifier systems, evolutionary programming, and genetic programming. It welcomes articles from related fields such as swarm intelligence (e.g. Ant Colony Optimization and Particle Swarm Optimization), and other nature-inspired computation paradigms (e.g. Artificial Immune Systems). As well as publishing articles describing theoretical and/or experimental work, the journal also welcomes application-focused papers describing breakthrough results in an application domain or methodological papers where the specificities of the real-world problem led to significant algorithmic improvements that could possibly be generalized to other areas.
期刊最新文献
Tail Bounds on the Runtime of Categorical Compact Genetic Algorithm. Optimizing Monotone Chance-Constrained Submodular Functions Using Evolutionary Multi-Objective Algorithms. Genetic Programming for Automatically Evolving Multiple Features to Classification. A Tri-Objective Method for Bi-Objective Feature Selection in Classification. Preliminary Analysis of Simple Novelty Search.
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