多目标优化问题的非单调条件梯度法

IF 3.1 3区 计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Soft Computing Pub Date : 2024-07-26 DOI:10.1007/s00500-024-09806-9
Ashutosh Upadhayay, Debdas Ghosh, Jauny, Jen-Chih Yao, Xiaopeng Zhao
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引用次数: 0

摘要

本研究分析了约束多目标优化问题的条件梯度法,也称为 Frank-Wolfe 法。我们假设目标是连续可微分的,约束集是凸的且紧凑的。我们采用平均型非单调线性搜索,取最近目标函数值的平均值。在不考虑目标函数凸性假设的情况下,建立了渐近收敛特性。我们证明了由所提方法得到的迭代序列的每个极限点都是帕累托临界点。无论目标函数的凸性假设如何,我们都给出了迭代复杂度约束。通过对几个基准测试问题的应用,证明了所提方法的有效性。此外,我们还将所提算法生成整个帕累托前沿近似值的效率与现有的哈格-张共轭梯度法、最陡下降法、单调条件梯度法和非单调条件梯度法进行了比较。在进行实证比较时,我们使用了两个常用的性能矩阵--倒代距离和超体积指标。
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A nonmonotone conditional gradient method for multiobjective optimization problems

This study analyzes the conditional gradient method for constrained multiobjective optimization problems, also known as the Frank–Wolfe method. We assume that the objectives are continuously differentiable, and the constraint set is convex and compact. We employ an average-type nonmonotone line search, which takes the average of the recent objective function values. The asymptotic convergence properties without convexity assumptions on the objective functions are established. We prove that every limit point of the sequence of iterates that is obtained by the proposed method is a Pareto critical point. An iteration-complexity bound is provided regardless of the convexity assumption on the objective functions. The effectiveness of the suggested approach is demonstrated by applying it to several benchmark test problems. In addition, the efficiency of the proposed algorithm in generating approximations of the entire Pareto front is compared to the existing Hager–Zhang conjugate gradient method, the steepest descent method, the monotone conditional gradient method, and a nonmonotone conditional gradient method. In finding empirical comparison, we utilize two commonly used performance matrices—inverted generational distance and hypervolume indicators.

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来源期刊
Soft Computing
Soft Computing 工程技术-计算机:跨学科应用
CiteScore
8.10
自引率
9.80%
发文量
927
审稿时长
7.3 months
期刊介绍: Soft Computing is dedicated to system solutions based on soft computing techniques. It provides rapid dissemination of important results in soft computing technologies, a fusion of research in evolutionary algorithms and genetic programming, neural science and neural net systems, fuzzy set theory and fuzzy systems, and chaos theory and chaotic systems. Soft Computing encourages the integration of soft computing techniques and tools into both everyday and advanced applications. By linking the ideas and techniques of soft computing with other disciplines, the journal serves as a unifying platform that fosters comparisons, extensions, and new applications. As a result, the journal is an international forum for all scientists and engineers engaged in research and development in this fast growing field.
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