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Hierarchical Collision Avoidance Algorithm with Route Exchange Concept for Autonomous and Conventional Ships
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  • Melih Akdağ,
  • Tom Arne Pedersen,
  • Thor I Fossen,
  • Tor Arne Johansen
Melih Akdağ

Corresponding Author:[email protected]

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Tom Arne Pedersen
Thor I Fossen
Tor Arne Johansen

Abstract

This study proposes a decentralized collision avoidance method for multiple ships and utilizes information exchange between vessels. The method is formulated with a hierarchical algorithm architecture and communicates with other ships using the route exchange concept to calculate collision-free trajectories. The hierarchical architecture consists of mid-level and reactive trajectory planners and considers navigational rules, e.g. the COLREG, and both static and dynamic obstacles. Dynamic obstacles represent the ships in the scenarios and the algorithm accounts for both cooperative and non-cooperative vessels. The mid-level planner is used for finding effective control actions by combining the A* algorithm with a proactive collision avoidance optimizer based on the MPC. The reactive planner uses the Informed SB-MPC algorithm and serves as a final barrier for finding solutions to problematic scenarios where the mid-level planner solutions are infeasible. The main motivations of the study include 1) to utilize ship-to-ship information exchange to convey intentions and to solve collision avoidance problems and 2) to prevent autonomous ships to initiate aggressive maneuvers in close-range encounters by calculating and applying proactive control actions in advance. The performance of the method is validated via simulations of 22 Imazu problem cases and a case scenario defined in the Trondheim Fjord. The results support that the algorithm can generate collision-free trajectories considering the COLREG rules 8, 13-18 and maintains a minimum safety distance. Finally, the hierarchical algorithm demonstrates computationally efficient run times to be used in real-time applications.
20 Dec 2023Submitted to TechRxiv
22 Dec 2023Published in TechRxiv