Title :
Hybrid Algorithm based on Differential Immune Clone with Orthogonal design method
Author :
Ma, Wenping ; Ti, Feifei ; Gong, Maoguo
Author_Institution :
Key Lab. of Intell. Perception & Image Understanding of Minist. of Educ. of China, Xidian Univ., Xi´´an, China
Abstract :
A novel Hybrid Algorithm called Hybrid Algorithm based on Differential Immune Clone with Orthogonal design method (OHADIC) is proposed in this paper, which can avoid the decrease of population diversity and accelerate the convergence rate in evolutionary process. The novel algorithm adopts several main operators to evolve two populations; they are clone reproduction and selection, differential mutation, crossover and selection. Moreover, the orthogonal design method is not only to be used to design orthogonal crossover, but also is adapted to scheme orthogonal local search. In experiments, a wide range of benchmark functions is used to validate the novel hybrid algorithm. Performance comparisons with other well-known differential evolution algorithms including DE, JADE and SADE are also presented, and it is shown that OHADIC has better performance in optimizing these functions.
Keywords :
artificial immune systems; evolutionary computation; search problems; benchmark function; clone reproduction; convergence rate; differential evolution algorithm; differential immune clone; differential mutation; evolutionary process; hybrid algorithm; orthogonal crossover; orthogonal design method; orthogonal local search; population diversity; Algorithm design and analysis; Cloning; Convergence; Design methodology; Evolutionary computation; Immune system; Optimization; differential evolution; global numerical optimization; immune clone; orthogonal crossover; orthogonal local search;
Conference_Titel :
Memetic Computing (MC), 2011 IEEE Workshop on
Conference_Location :
Paris
Print_ISBN :
978-1-61284-065-9
DOI :
10.1109/MC.2011.5953630
