Title :
Quantum-Inspired Multi-gene Linear Genetic Programming Model for Regression Problems
Author :
Strachan, Guilherme C. ; Koshiyama, Adriano S. ; Dias, Douglas M. ; Vellasco, Marley M. B. R. ; Pacheco, Marco A. C.
Author_Institution :
Dept. of Electr. Eng. Rua Marques de Sao Vicente, Pontifical Catholic Univ. of Rio de Janeiro, Gavea, Brazil
Abstract :
We propose the Quantum-Inspired Multi-Gene Lin-ear Genetic Programming (QIMuLGP), which is a generalization of Quantum-Inspired Linear Genetic Programming (QILGP) model for symbolic regression. QIMuLGP allows us to explore a different genotypic representation (i.e. linear), and to use more than one genotype per individual, combining their outputs using least squares method (multi-gene approach). We used 11 benchmark problems to experimentally compare QIMuLGP with: canonical tree Genetic Programming, Multi-Gene tree-based GP (MGGP), and QILGP. QIMuLGP obtained better results than QILGP in almost all experiments performed. When compared to MGGP, QIMuLGP achieved equivalent errors for some experiments with its runtime always shorter (up to 20 times and 8 times on average), which is an important advantage in high dimensional-scalable problems.
Keywords :
genetic algorithms; least mean squares methods; linear programming; regression analysis; MGGP; QIMuLGP; canonical tree genetic programming; genotypic representation; least squares method; multigene tree-based GP; quantum-inspired multigene linear genetic programming; symbolic regression; Biological cells; Equations; Genetic programming; Mathematical model; Quantum computing; Sociology; Statistics; Quantum-inspired algorithm; multi-gene genetic pro-gramming; symbolic regression;
Conference_Titel :
Intelligent Systems (BRACIS), 2014 Brazilian Conference on
Conference_Location :
Sao Paulo
DOI :
10.1109/BRACIS.2014.37
