Title :
Improved Genetic Algorithm for Fixed Charge Transportation Problem
Author :
YANG, Tao ; Shao, Liangshan
Author_Institution :
Coll. of Bus. Adm., Liaoning Tech. Univ., Huludao
Abstract :
To improve the performance of genetic algorithm based on edge sets code (ES) for solving the fixed charge transportation problem (FCTP), an improved genetic algorithm which has a multi-point crossover operator appending edges to forest (MPC-ES) is developed for the spanning tree based on the sorted edge sets code attained by root-first search. The algorithm complexity of MPC-ES is analyzed, and the computational results demonstrate that along with the increase of FCTP sizes and types, the solution quality among ES, sorted edge sets (S-ES) and MPC-ES code shows descending tendency. But MPC-ES can obtain better solutions than those based on ES and S-ES code; and the cost of CPU time among them become longer, S-ES is less than ES, and MPC-ES appreciably less than S-ES.
Keywords :
computational complexity; genetic algorithms; set theory; transportation; algorithm complexity; edge sets code; fixed charge transportation problem; improved genetic algorithm; multi-point crossover operator; root-first search; sorted edge sets; spanning tree; Algorithm design and analysis; Computational intelligence; Costs; Design engineering; Educational institutions; Genetic algorithms; Genetic engineering; Road transportation; Systems engineering and theory; Tree graphs; fixed charge transportation problem; genetic algorithm;
Conference_Titel :
Computational Intelligence and Design, 2008. ISCID '08. International Symposium on
Conference_Location :
Wuhan
Print_ISBN :
978-0-7695-3311-7
DOI :
10.1109/ISCID.2008.207
