An improved A-star algorithm coupled with graph division and AIS data for ship path planning

High computation cost and substantial memory consumption are two significant challenges in the practical applications of the traditional A-star algorithm, particularly for the ship path planning in large-scale navigation areas. To overcome such limitations on the algorithm applicability, a Traffic-F...

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Published inOcean engineering Vol. 330; p. 121234
Main Authors Yang, Tian-Yu, Zou, Lu, Wu, Zi-Xin, Chen, Wei-Min
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 30.06.2025
Subjects
AIS data
Generalized Voronoi diagrams
Improved A-star algorithm
Path planning
Traffic feature extraction
AIS data
Generalized Voronoi diagrams
Path planning
Traffic feature extraction
Improved A-star algorithm
Online AccessGet full text
ISSN0029-8018
DOI10.1016/j.oceaneng.2025.121234

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Abstract High computation cost and substantial memory consumption are two significant challenges in the practical applications of the traditional A-star algorithm, particularly for the ship path planning in large-scale navigation areas. To overcome such limitations on the algorithm applicability, a Traffic-Feature Informed A-star (TFIA-star) algorithm is proposed in the study of ship path planning. The regular grid cells for space discretization in the traditional A-star algorithm are replaced with irregular polygons, and the historical ship traffic features in a large area are incorporated. Firstly, the selected Region of Interest (ROI) is initialized by a graph division method based on Generalized Voronoi Diagrams (GVD). Then, the K-means clustering algorithm coupled with the blue noise sampling is adopted as the traffic feature extraction method to incorporate ship traffic patterns from historical Automatic Identification System (AIS) data into path planning. To evaluate the performance of the proposed TFIA-star algorithm, simulations of two representative cases with both simple and complex navigation scenarios are conducted. The path planning results and the analyses in terms of five evaluation criteria indicate that, compared with the other path planning algorithms, the proposed TFIA-star algorithm achieves superior path planning performances with smaller computation costs and less memory usages. •A-star Algorithm is improved to reduce computation time and memory usage for large-scale problems.•Regular grid cells are replaced with irregular polygons by Generalized Voronoi Diagrams (GVD).•GVD coupled with blue noise sampling is applied to initialize the navigation map of path planning.•Ship traffic features extracted from AIS data are integrated into TFIA-star algorithm.•TFIA-star is superior to the other algorithms with better path-planning effectiveness and robustness.
AbstractList High computation cost and substantial memory consumption are two significant challenges in the practical applications of the traditional A-star algorithm, particularly for the ship path planning in large-scale navigation areas. To overcome such limitations on the algorithm applicability, a Traffic-Feature Informed A-star (TFIA-star) algorithm is proposed in the study of ship path planning. The regular grid cells for space discretization in the traditional A-star algorithm are replaced with irregular polygons, and the historical ship traffic features in a large area are incorporated. Firstly, the selected Region of Interest (ROI) is initialized by a graph division method based on Generalized Voronoi Diagrams (GVD). Then, the K-means clustering algorithm coupled with the blue noise sampling is adopted as the traffic feature extraction method to incorporate ship traffic patterns from historical Automatic Identification System (AIS) data into path planning. To evaluate the performance of the proposed TFIA-star algorithm, simulations of two representative cases with both simple and complex navigation scenarios are conducted. The path planning results and the analyses in terms of five evaluation criteria indicate that, compared with the other path planning algorithms, the proposed TFIA-star algorithm achieves superior path planning performances with smaller computation costs and less memory usages. •A-star Algorithm is improved to reduce computation time and memory usage for large-scale problems.•Regular grid cells are replaced with irregular polygons by Generalized Voronoi Diagrams (GVD).•GVD coupled with blue noise sampling is applied to initialize the navigation map of path planning.•Ship traffic features extracted from AIS data are integrated into TFIA-star algorithm.•TFIA-star is superior to the other algorithms with better path-planning effectiveness and robustness.
ArticleNumber 121234
Author Wu, Zi-Xin
Chen, Wei-Min
Yang, Tian-Yu
Zou, Lu
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Keywords AIS data
Generalized Voronoi diagrams
Path planning
Traffic feature extraction
Improved A-star algorithm
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SubjectTerms AIS data
Generalized Voronoi diagrams
Improved A-star algorithm
Path planning
Traffic feature extraction
Title An improved A-star algorithm coupled with graph division and AIS data for ship path planning
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