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Design of a Ship Path Planning Scheme Incorporating Wind and Current Effects with COLREGS Compliance
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<div class="section abstract"><div class="htmlview paragraph">Path planning algorithms are critical technologies for intelligent ship systems,
as scientifically optimized paths enable safe navigation and efficient avoidance
of waterborne obstacles. To address the limitations of current ship path
planning models, which often fail to adequately consider the combined effects of
wind, current, and the International Regulations for Preventing Collisions at
Sea (COLREGS), this study proposes an enhanced path planning method. The method
integrates environmental factors, such as wind and current, and COLREGS into an
improved Artificial Potential Field(APF) framework. Specifically, the influence
of wind and current is modeled as "environmental forces," while the navigation
constraints imposed by COLREGS are transformed into virtual obstacles,
generating corresponding repulsive forces to refine the algorithm. Simulation
experiments conducted under both single-ship and multi-ship scenarios validate
the feasibility and effectiveness of the proposed approach, demonstrating its
potential to align planned paths more closely with real-world navigational
conditions.</div></div>
SAE International
Title: Design of a Ship Path Planning Scheme Incorporating Wind and Current
Effects with COLREGS Compliance
Description:
<div class="section abstract"><div class="htmlview paragraph">Path planning algorithms are critical technologies for intelligent ship systems,
as scientifically optimized paths enable safe navigation and efficient avoidance
of waterborne obstacles.
To address the limitations of current ship path
planning models, which often fail to adequately consider the combined effects of
wind, current, and the International Regulations for Preventing Collisions at
Sea (COLREGS), this study proposes an enhanced path planning method.
The method
integrates environmental factors, such as wind and current, and COLREGS into an
improved Artificial Potential Field(APF) framework.
Specifically, the influence
of wind and current is modeled as "environmental forces," while the navigation
constraints imposed by COLREGS are transformed into virtual obstacles,
generating corresponding repulsive forces to refine the algorithm.
Simulation
experiments conducted under both single-ship and multi-ship scenarios validate
the feasibility and effectiveness of the proposed approach, demonstrating its
potential to align planned paths more closely with real-world navigational
conditions.
</div></div>.
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