期刊
RELIABILITY ENGINEERING & SYSTEM SAFETY
卷 213, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.ress.2021.107752
关键词
Maritime safety; Ship maneuverability; Ship domain; AIS data; Velocity obstacle; Ship-ship collision
资金
- China Scholarship Council [201606950009]
- Marine Technology research group in Aalto University [9170094]
- National Science Foundation of China (NSFC) [52001237, 52001241]
- Canada First Research Excellence Fund, through the Ocean Frontier Institute
This paper introduces a new ship domain concept and analytical framework that estimates the size of the ship domain based on the ship's first evasive maneuver and the perceived collision risk level. The method is applied to AIS data in the Northern Baltic Sea, constructing separate ship domains with different maneuverability characteristics and explicitly incorporating the dynamic nature of encounter process and evasive maneuvers.
This paper introduced a new ship domain concept and an analytical framework. The ship domain takes the point of the ship's first evasive maneuver as a basis and correlates it with the navigator-perceived collision risk level. The first evasive maneuver of a ship is detected based on the ship turning point identification and ship intention estimation. The available maneuvering margin (AMM) is utilized as a proxy to measure the perceived collision risk by the navigator. Interpreting the first evasive maneuver in terms of this AMM over a large sample of vessel encounters taken from automatic identification system (AIS) data finally enables an empirical estimation of the size of this ship domain. The method is applied to AIS data in the Northern Baltic Sea, and separate ship domains are constructed for the give-way and stand-on vessels with different maneuverability characteristics. Compared to the existing proximity-based ship domain, this ship domain explicitly incorporates the dynamic nature of the encounter process and the navigator's evasive maneuvers. Several advantages of this proposed ship domain concept and limitations of the presented modeling approach are discussed. Finally, possible future applications are explained, including waterway safety assessment and navigational decision support systems to reduce ship-ship collision risk.
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