PortMiner: unsupervised data mining for functional areas extraction in port areas
PortMiner: unsupervised data mining for functional areas extraction in port areas
Accurate extraction of functional areas in port waters is essential for enhancing port operational oversight, optimizing vessel scheduling, and supporting maritime safety. However, existing approaches often rely on supervised learning, extensive parameter tuning, and labeled datasets, limiting their scalability, adaptability, and operational efficiency. To address these gaps, this study proposes PortMiner, a novel unsupervised data mining framework that systematically extracts functional areas from raw vessel trajectory data without requiring manual annotations. The framework introduces a Spatio-Temporal Adaptive Sliding Windows (STASW) method to detect stop behaviors dynamically, using self-adaptive parameters derived directly from the data. Trajectories are first encoded into geohash-based sequential grids, enabling efficient detection of stop and port inbound/outbound behaviors. Functional zones such as berths, anchorages, and navigational channels are then delineated through multi-level spatial aggregation and connectivity-based clustering. Experimental results on benchmark datasets show that STASW achieves 98.83% accuracy, outperforming state-of-the-art deep learning methods, while significantly reducing computational time and cost. Validation against official nautical charts confirms PortMiner’s high fidelity in identifying port-functional structures. The extracted results are also made publicly accessible via an interactive platform ( https://portminer.netlify.app/ ), offering practical insights for intelligent port operation and maritime logistics planning.
AIS data, Data mining framework, Functional area extraction, Intelligent port operation, Recognition of vessel behaviors
Qiang, Huimin
29b9f511-f67b-42f9-b718-c1efc0acb5c2
Niu, Wenlong
465f66be-e734-448d-9af8-e0f459534d0e
Peng, Xiaodong
d36d2d5a-4257-4fbf-8a1f-4a52432549f8
Li, Huanhuan
5e806b21-10a7-465c-9db3-32e466ae42f1
Yang, Zaili
82d4eebc-4532-4343-8555-35169e79bb6d
2 February 2026
Qiang, Huimin
29b9f511-f67b-42f9-b718-c1efc0acb5c2
Niu, Wenlong
465f66be-e734-448d-9af8-e0f459534d0e
Peng, Xiaodong
d36d2d5a-4257-4fbf-8a1f-4a52432549f8
Li, Huanhuan
5e806b21-10a7-465c-9db3-32e466ae42f1
Yang, Zaili
82d4eebc-4532-4343-8555-35169e79bb6d
Qiang, Huimin, Niu, Wenlong, Peng, Xiaodong, Li, Huanhuan and Yang, Zaili
(2026)
PortMiner: unsupervised data mining for functional areas extraction in port areas.
Transportation Research Part E: Logistics and Transportation Review, 209, [104715].
(doi:10.1016/j.tre.2026.104715).
Abstract
Accurate extraction of functional areas in port waters is essential for enhancing port operational oversight, optimizing vessel scheduling, and supporting maritime safety. However, existing approaches often rely on supervised learning, extensive parameter tuning, and labeled datasets, limiting their scalability, adaptability, and operational efficiency. To address these gaps, this study proposes PortMiner, a novel unsupervised data mining framework that systematically extracts functional areas from raw vessel trajectory data without requiring manual annotations. The framework introduces a Spatio-Temporal Adaptive Sliding Windows (STASW) method to detect stop behaviors dynamically, using self-adaptive parameters derived directly from the data. Trajectories are first encoded into geohash-based sequential grids, enabling efficient detection of stop and port inbound/outbound behaviors. Functional zones such as berths, anchorages, and navigational channels are then delineated through multi-level spatial aggregation and connectivity-based clustering. Experimental results on benchmark datasets show that STASW achieves 98.83% accuracy, outperforming state-of-the-art deep learning methods, while significantly reducing computational time and cost. Validation against official nautical charts confirms PortMiner’s high fidelity in identifying port-functional structures. The extracted results are also made publicly accessible via an interactive platform ( https://portminer.netlify.app/ ), offering practical insights for intelligent port operation and maritime logistics planning.
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1-s2.0-S1366554526000554-main
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More information
Accepted/In Press date: 22 January 2026
e-pub ahead of print date: 2 February 2026
Published date: 2 February 2026
Keywords:
AIS data, Data mining framework, Functional area extraction, Intelligent port operation, Recognition of vessel behaviors
Identifiers
Local EPrints ID: 509018
URI: http://eprints.soton.ac.uk/id/eprint/509018
ISSN: 1366-5545
PURE UUID: 286d3abe-fc7a-424f-ad0d-83667c602114
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Date deposited: 10 Feb 2026 17:35
Last modified: 11 Feb 2026 03:17
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Contributors
Author:
Huimin Qiang
Author:
Wenlong Niu
Author:
Xiaodong Peng
Author:
Huanhuan Li
Author:
Zaili Yang
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