Distributed Multi-agent System for Solving Traveling Salesman Problem Using Ant Colony Optimization

Ant System (AS) was the first Ant Colony Optimization (ACO) algorithm, which converged too slowly and consumed huge computation. Among the variants of AS, Ant Colony System (ACS) was one of the most successful algorithms. But ACS converged so rapidly that it always was in early stagnation. An improved Ant Colony System based on Negative Biased (NBACS) was introduced in the paper to overcome the early stagnation of the ACS. Experiments for Traveling Salesman Problem (TSP) showed that better solutions were obtained at the same time when the convergence rate accelerated more rapidly.

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DEVELOPMENT OF THE PARALLEL ANT COLONY OPTIMIZATION ALGORITHM BASED ON THE TRAVELING SALESMAN PROBLEM

Collection of scholarly papers of Dniprovsk State Technical University (Technical Sciences) ◽

10.31319/2519-2884.36.2020.17 ◽

2020 ◽

Vol 1 (36) ◽

pp. 105-108

Author(s):

V. A. Syzko ◽

M. V. Babenko ◽

N. M. Lymar ◽

I. O. Gosalo

Keyword(s):

Ant Colony Optimization ◽

Traveling Salesman Problem ◽

Optimization Algorithm ◽

Traveling Salesman ◽

Ant Colony ◽

Ant Colony Optimization Algorithm ◽

The Traveling Salesman Problem

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Particle Swarm Optimization Combined with Ant Colony Optimization for the Multiple Traveling Salesman Problem

Materials Science Forum ◽

10.4028/www.scientific.net/msf.626-627.717 ◽

2009 ◽

Vol 626-627 ◽

pp. 717-722 ◽

Cited By ~ 1

Author(s):

Hong Kui Feng ◽

Jin Song Bao ◽

Jin Ye

Keyword(s):

Particle Swarm Optimization ◽

Ant Colony Optimization ◽

Traveling Salesman Problem ◽

Particle Swarm ◽

Traveling Salesman ◽

Ant Colony ◽

Great Success ◽

Swarm Optimization ◽

Continuous Space ◽

Multiple Traveling Salesman Problem

A lot of practical problem, such as the scheduling of jobs on multiple parallel production lines and the scheduling of multiple vehicles transporting goods in logistics, can be modeled as the multiple traveling salesman problem (MTSP). Due to the combinatorial complexity of the MTSP, it is necessary to use heuristics to solve the problem, and a discrete particle swarm optimization (DPSO) algorithm is employed in this paper. Particle swarm optimization (PSO) in the continuous space has obtained great success in resolving some minimization problems. But when applying PSO for the MTSP, a difficulty rises, which is to find a suitable mapping between sequence and continuous position of particles in particle swarm optimization. For overcoming this difficulty, PSO is combined with ant colony optimization (ACO), and the mapping between sequence and continuous position of particles is established. To verify the efficiency of the DPSO algorithm, it is used to solve the MTSP and its performance is compared with the ACO and some traditional DPSO algorithms. The computational results show that the proposed DPSO algorithm is efficient.

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