Journal of Jilin University(Engineering and Technology Edition) ›› 2025, Vol. 55 ›› Issue (1): 325-332.doi: 10.13229/j.cnki.jdxbgxb.20230339

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Robot path planning method based on double-origin ant colony algorithm

Jian LI1(),Xiao-hai SUN2,Chang-yi LIAO1,Jian-ping YANG2()   

  1. 1.College of Information Technology,Jilin Agricultural University,Changchun 130118,China
    2.College of Big Data,Yunnan Agricultural University,Kunming 650500,China
  • Received:2023-04-11 Online:2025-01-01 Published:2025-03-28
  • Contact: Jian-ping YANG E-mail:liemperor@163.com;yangjpyn@163.com

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Abstract:

Due to the insufficient search accuracy of ant colony algorithm in global path planning in the real environment and its tendency to fall into local extremum, excessive iteration times, and single solving objective, this paper proposes a dual starting point ant colony algorithm. By simulating a grid map and adjusting the starting position based on the ant colony algorithm, we improved the traditional ant colony algorithm's fixed one-way moving search method by setting two starting points. On this basis, we also optimized the pheromone update strategy to guide the next iteration process, which can shorten the path search time and reduce the blindness of the ant colony algorithm in the early search, and as the number of iterations increases, the diversity of solutions that the algorithm can obtain in the early stage increases, increasing the probability of obtaining the optimal solution, and also avoiding the problem of the algorithm easily falling into local optima, accelerating the convergence speed of the algorithm in the later stage. Through simulation experiments on the dual starting point ant colony algorithm, it is shown that the algorithm has good optimization performance and iterative convergence.

Key words: ant colony algorithm, dual starting point, path planning, pheromone, raster map

CLC Number: 

  • TP399

Fig.1

Multi-step long ant colony algorithm to plan path"

Fig.2

Flow chart and pseudocode of the two-start ant colony algorithm"

Fig.3

Two-start search path"

Fig.4

Two-start search"

Fig.5

Traditional ant colony algorithm"

Fig.6

Dual starting point ant colony algorithm"

Table 1

Comparison of experimental results of traditional ant colony algorithm and improved ant colony algorithm"

算 法最佳路径长度平均长度平均迭代次数
传统蚁群算法35.8636.52136
双起点蚁群算法33.2933.8561
多步长蚁群算法34.8534.49115

Fig.7

Optimizing the path"

Fig.8

Number of iterations versus average distance"

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