Dynamic game collision avoidance decision-making for autonomous and manned ships
[Objective]This study investigates the interactive collision avoidance(CA)problem of autonomous and manned ships in mixed navigation scenarios in order to achieve the efficient collision avoid-ance and safe navigation of ships.To this end,a multi-agent interactive ship dynamic game collision avoid-ance decision-making method is proposed.[Methods]According to sailing practices,the ship collision avoidance problem in mixed navigation environments is analyzed and understood,and the ship encounter situ-ation and collision risk are quantified on the basis of the International Regulations for Preventing Collisions at Sea(COLREGs).Dynamic game theory is introduced to model individual ships with collision risk as parti-cipants with independent thinking in the game,and the course changes of ships are taken as the strategy for de-termining the optimal action sequence under the constraints of ship safety and social and economic benefits.Different ship maneuvering modes are introduced to the simulation experiment,and the effectiveness of the collision avoidance decision-making method is verified using Python.[Results]The results show that this method can realize the safe encounter of multiple ships in a mixed navigation environment of autonomous and manned ships,and each ship can adjust its behavior strategy to achieve safe avoidance when facing target ships with different sailing styles.[Conclusion]This study can provide valuable references for the collision avoidance decision-making of autonomous and manned ships.
mixed navigation scenarioship collision avoidancemaneuvering modegame theory
万方数据
维普
