Multi-Colony Ant Optimization Based on Pheromone Fusion Mechanism of Cooperative Game

In this paper, we propose a multi-colony ant optimization based on pheromone fusion mechanism of cooperative game (CGMACO) to balance the convergence speed and diversity of the algorithm. Firstly, the heterogeneous multi-colony is composed of ant colony system (ACS) and Max–Min ant system (MMAS), an...

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Published inArabian journal for science and engineering (2011) Vol. 47; no. 2; pp. 1657 - 1674
Main Authors Mo, Yadong, You, Xiaoming, Liu, Sheng
Format Journal Article
LanguageEnglish
Published Berlin/Heidelberg Springer Berlin Heidelberg 01.02.2022
Springer Nature B.V
Subjects
Algorithms
Convergence
Engineering
Entropy (Information theory)
Game theory
Humanities and Social Sciences
multidisciplinary
Optimization
Pheromones
Research Article-Computer Engineering and Computer Science
Science
Traveling salesman problem
TSP
Pheromone fusion
Information entropy
Ant colony algorithm
Cooperative game
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Abstract In this paper, we propose a multi-colony ant optimization based on pheromone fusion mechanism of cooperative game (CGMACO) to balance the convergence speed and diversity of the algorithm. Firstly, the heterogeneous multi-colony is composed of ant colony system (ACS) and Max–Min ant system (MMAS), and these two classical colonies coordinate together to improve the solution quality. Secondly, the cooperative game model determines which sub-colonies can interact with each other based on evaluating each union’s payoff, while the pheromone fusion mechanism decides what information can exchange by regulating the pheromone matrix of each subpopulation. Those two methods can greatly diversify the solution of algorithm. In addition, the information entropy is also introduced to control the interaction frequency, which enhances the adaptability of the algorithm. Finally, the experimental results of the large-scale TSP instances show that the improved algorithm can improve the accuracy of the solution without affecting the convergence speed and better than the existing intelligent algorithms.
AbstractList In this paper, we propose a multi-colony ant optimization based on pheromone fusion mechanism of cooperative game (CGMACO) to balance the convergence speed and diversity of the algorithm. Firstly, the heterogeneous multi-colony is composed of ant colony system (ACS) and Max–Min ant system (MMAS), and these two classical colonies coordinate together to improve the solution quality. Secondly, the cooperative game model determines which sub-colonies can interact with each other based on evaluating each union’s payoff, while the pheromone fusion mechanism decides what information can exchange by regulating the pheromone matrix of each subpopulation. Those two methods can greatly diversify the solution of algorithm. In addition, the information entropy is also introduced to control the interaction frequency, which enhances the adaptability of the algorithm. Finally, the experimental results of the large-scale TSP instances show that the improved algorithm can improve the accuracy of the solution without affecting the convergence speed and better than the existing intelligent algorithms.
Author Mo, Yadong
You, Xiaoming
Liu, Sheng
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Keywords TSP
Pheromone fusion
Information entropy
Ant colony algorithm
Cooperative game
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Snippet In this paper, we propose a multi-colony ant optimization based on pheromone fusion mechanism of cooperative game (CGMACO) to balance the convergence speed and...
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SubjectTerms Algorithms
Convergence
Engineering
Entropy (Information theory)
Game theory
Humanities and Social Sciences
multidisciplinary
Optimization
Pheromones
Research Article-Computer Engineering and Computer Science
Science
Traveling salesman problem
Title Multi-Colony Ant Optimization Based on Pheromone Fusion Mechanism of Cooperative Game
URI https://link.springer.com/article/10.1007/s13369-021-06033-4
https://www.proquest.com/docview/2630279292
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