Title :
A Comparison of Differential Evolution Algorithm with Binary and Continuous Encoding for the MKP
Author :
Krause, Jan ; Lopes, Heitor Silverio
Author_Institution :
Lab. of Bioinf., Fed. Univ. of Technol.-Parana (UTFPR), Curitiba, Brazil
Abstract :
This paper provides a brief description on how continuous algorithms can be applied to binary problems. Differential Evolution is the continuous algorithm studied and two versions of this algorithm are presented: the Binary Differential Evolution with a binary encoding and the Discretized Differential Evolution with a continuous encoding. Several discretization methods are presented and the most used method in literature is implemented for the solution discretization. Benchmarks with different complexity and search space sizes of the Multiple Knapsack Problem are used to compare the performance of each Differential Evolution algorithm presented and the Genetic Algorithm with binary encoding. Results suggest that continuous methods can be very efficient when discretized for binary spaces.
Keywords :
computational complexity; encoding; evolutionary computation; knapsack problems; search problems; MKP; binary differential evolution algorithm; binary encoding; binary spaces; complexity analysis; continuous encoding; discretized differential evolution algorithm; genetic algorithm; multiple knapsack problem; search space sizes; solution discretization; Benchmark testing; Genetic algorithms; Mathematical model; Optimization; Sociology; Statistics; Vectors; continuous algorithms; differential evolution; discretization; multiple knapsack problem;
Conference_Titel :
Computational Intelligence and 11th Brazilian Congress on Computational Intelligence (BRICS-CCI & CBIC), 2013 BRICS Congress on
Conference_Location :
Ipojuca
DOI :
10.1109/BRICS-CCI-CBIC.2013.70
