Paper Info
Title
$ε$-Lexicase selection: a probabilistic and multi-objective analysis of lexicase selection in continuous domains.
Abstract
Lexicase selection is a parent selection method that considers training cases individually, rather than in aggregate, when performing parent selection. Whereas previous work has demonstrated the ability of lexicase selection to solve difficult problems, the central goal of this paper is to develop the theoretical underpinnings that explain its performance. To this end, we derive an analytical formula that gives the expected probabilities of selection under lexicase selection, given a population and its behavior. In addition, we expand upon the relation of lexicase selection to many-objective optimization methods to describe the behavior of lexicase, which is to select individuals on the boundaries of Pareto fronts in high-dimensional space. We show analytically why lexicase selection performs more poorly for certain sizes of population and training cases, and show why it has been shown to perform more poorly in continuous error spaces. To address this last concern, we introduce $epsilon$-lexicase selection, which modifies the pass condition in lexicase selection to allow near-elite individuals to pass cases, thereby improving selection performance with continuous errors. We show that $epsilon$-lexicase outperforms several diversity-maintenance strategies on a number of real-world and synthetic regression problems.
Year
Venue
Field
2017
arXiv: Neural and Evolutionary Computing
Population,Mathematical optimization,Computer science,Regression problems,Probabilistic logic,Pareto principle
DocType
Volume
Citations 
Journal
abs/1709.05394
0
PageRank 
References 
Authors
0.34
13
4
Name
Order
Citations
PageRank
William La Cava112313.73
Thomas Helmuth215018.71
Lee Spector319517.32
Jason H. Moore41223159.43