Unsupervised hierarchical methodology of maritime traffic pattern extraction for knowledge discovery
Unsupervised hierarchical methodology of maritime traffic pattern extraction for knowledge discovery
Owing to the space–air–ground integrated networks (SAGIN), seaborne shipping has attracted increasing interest in the research on the motion behavior knowledge extraction and navigation pattern mining problems in the era of maritime big data for improving maritime traffic safety management. This study aims to develop a novel unsupervised methodology for feature extraction and knowledge discovery based on automatic identification system (AIS) data, allowing for seamless knowledge transfer to support trajectory data mining. The unsupervised hierarchical methodology is constructed from three parts: trajectory compression, trajectory similarity measure, and trajectory clustering. In the first part, an adaptive Douglas–Peucker with speed (ADPS) algorithm is created to preserve critical features, obtain useful information, and simplify trajectory information. Then, dynamic time warping (DTW) is utilized to measure the similarity between trajectories as the critical indicator in trajectory clustering. Finally, the improved spectral clustering with mapping (ISCM) is presented to extract vessel traffic behavior characteristics and mine movement patterns for enhancing marine safety and situational awareness. Comprehensive experiments are conducted and implemented in the Chengshan Jiao Promontory in China to verify the feasibility and effectiveness of the novel methodology. Experimental results show that the proposed methodology can effectively compress the trajectories, determine the number of clusters in advance, guarantee the clustering accuracy, and extract useful navigation knowledge while significantly reducing the computational cost. The clustering results are further explored and follow the Gaussian mixture distribution, which can help provide new discriminant criteria for trajectory clustering.
Li, Huanhuan
5e806b21-10a7-465c-9db3-32e466ae42f1
Lam, Jasmine Siu Lee
8781a433-1624-44fb-90e9-934cf87083bc
Yang, Zaili
82d4eebc-4532-4343-8555-35169e79bb6d
Liu, Jingxian
0cd82a7d-41c8-4da2-9826-e01cb1685b1c
Liu, Ryan Wen
07bfc16a-a6e9-4353-99eb-43aa46c8e5af
Liang, Maohan
b4d47ae9-30ff-438a-8956-19e78f4ce81a
Li, Yan
ce4fdacf-cdac-433d-8414-9b6ab4541924
24 August 2022
Li, Huanhuan
5e806b21-10a7-465c-9db3-32e466ae42f1
Lam, Jasmine Siu Lee
8781a433-1624-44fb-90e9-934cf87083bc
Yang, Zaili
82d4eebc-4532-4343-8555-35169e79bb6d
Liu, Jingxian
0cd82a7d-41c8-4da2-9826-e01cb1685b1c
Liu, Ryan Wen
07bfc16a-a6e9-4353-99eb-43aa46c8e5af
Liang, Maohan
b4d47ae9-30ff-438a-8956-19e78f4ce81a
Li, Yan
ce4fdacf-cdac-433d-8414-9b6ab4541924
Li, Huanhuan, Lam, Jasmine Siu Lee, Yang, Zaili, Liu, Jingxian, Liu, Ryan Wen, Liang, Maohan and Li, Yan
(2022)
Unsupervised hierarchical methodology of maritime traffic pattern extraction for knowledge discovery.
Transportation Research Part C: Emerging Technologies, 143, [103856].
(doi:10.1016/j.trc.2022.103856).
Abstract
Owing to the space–air–ground integrated networks (SAGIN), seaborne shipping has attracted increasing interest in the research on the motion behavior knowledge extraction and navigation pattern mining problems in the era of maritime big data for improving maritime traffic safety management. This study aims to develop a novel unsupervised methodology for feature extraction and knowledge discovery based on automatic identification system (AIS) data, allowing for seamless knowledge transfer to support trajectory data mining. The unsupervised hierarchical methodology is constructed from three parts: trajectory compression, trajectory similarity measure, and trajectory clustering. In the first part, an adaptive Douglas–Peucker with speed (ADPS) algorithm is created to preserve critical features, obtain useful information, and simplify trajectory information. Then, dynamic time warping (DTW) is utilized to measure the similarity between trajectories as the critical indicator in trajectory clustering. Finally, the improved spectral clustering with mapping (ISCM) is presented to extract vessel traffic behavior characteristics and mine movement patterns for enhancing marine safety and situational awareness. Comprehensive experiments are conducted and implemented in the Chengshan Jiao Promontory in China to verify the feasibility and effectiveness of the novel methodology. Experimental results show that the proposed methodology can effectively compress the trajectories, determine the number of clusters in advance, guarantee the clustering accuracy, and extract useful navigation knowledge while significantly reducing the computational cost. The clustering results are further explored and follow the Gaussian mixture distribution, which can help provide new discriminant criteria for trajectory clustering.
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Accepted/In Press date: 8 August 2022
e-pub ahead of print date: 24 August 2022
Published date: 24 August 2022
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Local EPrints ID: 503688
URI: http://eprints.soton.ac.uk/id/eprint/503688
ISSN: 0968-090X
PURE UUID: 65bc2cb5-e122-43ef-b0e6-270b5b2730fa
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Date deposited: 11 Aug 2025 16:30
Last modified: 22 Aug 2025 02:49
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Contributors
Author:
Huanhuan Li
Author:
Jasmine Siu Lee Lam
Author:
Zaili Yang
Author:
Jingxian Liu
Author:
Ryan Wen Liu
Author:
Maohan Liang
Author:
Yan Li
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