%0 Journal Article
%T 一种基于子问题动态消减的改进多目标蚁群优化算法<br>An Improved Multi-Objective Ant Colony Optimization Algorithm Based on Sub-Problems Dynamic Subtraction
%A 宁佳绪
%A 牛玥
%A 纪丹蕾
%A 肖雨婷
%A 杨富燕
%J Software Engineering and Applications
%P 467-474
%@ 2325-2278
%D 2020
%I Hans Publishing
%R 10.12677/SEA.2020.96054
%X 为进一步提高基于分解的多目标蚁群优化算法的性能，提出了一种子问题动态消减方法并将其结合到MOEA/D-ACO算法中，以此提出了一种基于子问题动态消减的改进多目标蚁群优化算法IMOEA/D-ACO。该算法通过在运行早期识别没有前途的子问题并及时抛弃对其进行搜索来提高搜索资源的利用率。从而在搜索资源总量一定的前提下，能够进一步提升算法的性能。为了验证算法性能分别与其他相关算法在不同规模的TSP问题测试用例上进行了实验比较。结果表明IMOEA/D-ACO算法在求解质量上优于被比较算法。<br />
To further improve the performance of decomposition based multi-objective ant colony algorithm, a dynamic sub-problem reduction method is proposed and combined with the MOEA/D-ACO algo-rithm. Based on this, a sub-problem dynamic reduction improved multi-objective ant colony algo-rithm called IMOEA/D-ACO is designed. Through identifying the unpromising sub-problems during the early optimizing process and giving them up in time for optimizing, the utilization of the searching resource is further increased. Thus the algorithm performance can be improved when the total consumed resources are fixed. To verify its performance, it is tested on some TSP instances with different scale, and compared with some related algorithms. The results show that the proposed algorithm is superior to the compared algorithms.
%K 群智能，多目标优化，蚁群优化算法，信息素，支配<br>Swarm Intelligence
%K Multi-Objective Optimization
%K Ant Colony Optimization Algorithm
%K Pheromone
%K Dominance
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=39244