Research on ship navigation optimization considering shipboard equipment disturbance

Guanglei Li; Cungui Yu; Qingtian Ma; Shuang Liu; Junyi Ma; Zhenhua Gao

doi:10.1117/12.3025563

28 February 2024 Research on ship navigation optimization considering shipboard equipment disturbance

Guanglei Li, Cungui Yu, Qingtian Ma, Shuang Liu, Junyi Ma, Zhenhua Gao

Proceedings Volume 13071, International Conference on Mechatronic Engineering and Artificial Intelligence (MEAI 2023); 130711G (2024) https://doi.org/10.1117/12.3025563
Event: International Conference on Mechatronic Engineering and Artificial Intelligence (MEAI 2023), 2023, Shenyang, China

Abstract

To reduce the impact of ship swaying motion on the on-board equipment during movement in complex sea conditions, and improve the performance of on-board equipment in the operation of the ship. Based on the theory of seakeeping, the relationship between the sailing state of a ship and its motion performance under specific sea conditions was studied to address the issue of the ship's sailing state (collectively referred to as the heading and speed) during functioning under sailing conditions; And the multi body dynamics simulation software was used to simulate and analyze the nozzle response characteristics and initial disturbance of on-board equipment during function under different sailing states. The research results indicate that adjusting the ship's navigation state during the on-board equipment in the operation can reduce the disturbance caused by ship sway, and provide guiding strategies for optimizing the ship's navigation state during the function of on-board equipment.

(2024) Published by SPIE. Downloading of the abstract is permitted for personal use only.

Citation Download Citation

Guanglei Li, Cungui Yu, Qingtian Ma, Shuang Liu, Junyi Ma, and Zhenhua Gao "Research on ship navigation optimization considering shipboard equipment disturbance", Proc. SPIE 13071, International Conference on Mechatronic Engineering and Artificial Intelligence (MEAI 2023), 130711G (28 February 2024); https://doi.org/10.1117/12.3025563

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KEYWORDS

Nozzles

Motion analysis

Motion models

Vibration

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