Title :
Demonstrating the power of object-oriented genetic programming via the inference of graph models for complex networks
Author :
Medland, Michael Richard ; Harrison, Kyle Robert ; Ombuki-Berman, Beatrice M.
Author_Institution :
Dept. of Comput. Sci., Brock Univ., St. Catharines, ON, Canada
fDate :
July 30 2014-Aug. 1 2014
Abstract :
Traditionally, GP used a single tree-based representation which does not lend itself well to state-based programs or multiple behaviours. To alleviate this drawback, object-oriented GP (OOGP) introduced a means of evolving programs with multiple behaviours which could be easily extended to state-based programs. However, the production of programs which allowed embedded knowledge and produced readable code was still not easily addressed using the OOGP methodology. Exemplified through the evolution of graph models for complex networks, this paper demonstrates the benefits of a new approach to OOGP inspired by abstract classes and linear GP. Furthermore, the new approach to OOGP, named LinkableGP, facilitates the embedding of expert knowledge while also maintaining the benefits of OOGP.
Keywords :
complex networks; expert systems; genetic algorithms; object-oriented programming; trees (mathematics); LinkableGP; OOGP methodology; complex networks; embedded knowledge; expert knowledge; graph models; linear GP; object-oriented GP; object-oriented genetic programming; readable code; single tree-based representation; state-based programs; Computational modeling; Genetics; Programming; biologically inspired algorithms; complex networks; evolutionary computation; genetic programming; object-orientation;
Conference_Titel :
Nature and Biologically Inspired Computing (NaBIC), 2014 Sixth World Congress on
Conference_Location :
Porto
Print_ISBN :
978-1-4799-5936-5
DOI :
10.1109/NaBIC.2014.6921896
