%0 Journal Article
%T Rapid Prototype Development Approach for Genetic Programming
%A Pei He
%A Lei Zhang
%J Journal of Computer and Communications
%P 67-79
%@ 2327-5227
%D 2024
%I Scientific Research Publishing
%R 10.4236/jcc.2024.122005
%X Genetic Programming (GP) is an important approach to deal with complex problem analysis and modeling, and has been applied in a wide range of areas. The development of GP involves various aspects, including design of genetic operators, evolutionary controls and implementations of heuristic strategy, evaluations and other mechanisms. When designing genetic operators, it is necessary to consider the possible limitations of encoding methods of individuals. And when selecting evolutionary control strategies, it is also necessary to balance search efficiency and diversity based on representation characteristics as well as the problem itself. More importantly, all of these matters, among others, have to be implemented through tedious coding work. Therefore, GP development is both complex and time-consuming. To overcome some of these difficulties that hinder the enhancement of GP development efficiency, we explore the feasibility of mutual assistance among GP variants, and then propose a rapid GP prototyping development method based on <i>¦Ð</i>Grammatical Evolution (<i>¦Ð</i>GE). It is demonstrated through regression analysis experiments that not only is this method beneficial for the GP developers to get rid of some tedious implementations, but also enables them to concentrate on the essence of the referred problem, such as individual representation, decoding means and evaluation. Additionally, it provides new insights into the roles of individual delineations in phenotypes and semantic research of individuals.
%K Genetic Programming
%K Grammatical Evolution
%K Gene Expression  Programming
%K Regression Analysis
%K Mathematical Modeling
%K Rapid Prototype Development
%U http://www.scirp.org/journal/PaperInformation.aspx?PaperID=131242