The paper introduces db-CBS, a three-level search method for multi-robot kinodynamic motion planning. It efficiently handles inter-robot collisions and optimizes trajectories in joint space. Experimental results demonstrate superior success rates and lower costs compared to existing methods.
The research addresses the complexity of Multi-Robot Motion Planning (MRMP) by integrating Conflict-Based Search (CBS) and discontinuity-bounded A* for efficient trajectory computation. The proposed method, db-CBS, operates in three levels to handle different robot dynamics effectively.
By combining informed discrete search with optimization techniques, db-CBS finds near-optimal solutions quickly while respecting robot dynamics constraints. The algorithm is shown to be probabilistically complete, asymptotically optimal, and capable of solving challenging tasks with high success rates.
Experimental results showcase the effectiveness of db-CBS in solving real-world problems with heterogeneous teams of robots. The method outperforms existing state-of-the-art solutions in terms of success rate and cost efficiency.
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