Abstract
Multi-Agent Motion Planning (MAMP) is the problem of computing feasible paths for a set of agents each with individual start and goal states within a continuous state space. Existing approaches can be split into coupled methods which provide optimal solutions but struggle with scalability or decoupled methods which provide scalable solutions but offer no optimality guarantees. Recent work has explored hybrid approaches that leverage the advantages of both coupled and decoupled approaches in an easier discrete subproblem, Multi-Agent Pathfinding (MAPF). In this work, we adapt recent developments in hybrid MAPF to the continuous domain of MAMP. We demonstrate the scalability of our method to manage groups of up to 32 agents, demonstrate the ability to handle up to 8 high-DOF manipulators, and plan for heterogeneous teams. In all scenarios, our approach plans significantly faster while providing higher quality solutions.
Highlights
In automated manufacturing, high DOF manipulators working in tight coordination must avoid colliding with each other while planning efficient motions
We present an efficient method for solving multiagent motion planning (MAMP) problems with heterogeneous agents in a continuous state space
We focus on providing a team path which is optimal with respect to the current representation of each individual agent’s state space
Summary
High DOF manipulators working in tight coordination must avoid colliding with each other while planning efficient motions. Video games with large multi-agent teams must produce feasible plans These are only a few examples of the multiagent motion planning (MAMP) problem. MAMP solutions require geometrically feasible collision free paths through continuous state spaces for each agent in the team. Most real world problems, such as the high DOF manipulator and heterogenous multi-agent teams mentioned previously cannot be solved directly by discrete MAPF techniques as their conflict detection mechanism depends on a unified representation of the agents’ state space. We present an efficient method for solving MAMP problems with heterogeneous agents in a continuous state space. Our new MAMP method, which we call CBS-MP, produces conflict-free motion plans for a heterogeneous multi-agent team which are optimal with respect to the individual agent state space representation. In addition to significantly improved planning times, we show lower cost solutions than the coupled and decoupled PRM variants
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