Although communication delays can disrupt multiagent systems, most of the existing multiagent trajectory planners lack a strategy to address this issue. State-of-the-art approaches typically assume perfect communication environments, which is hardly realistic in real-world experiments. This paper presents Robust MADER (RMADER), a decentralized and asynchronous multiagent trajectory planner that can handle communication delays among agents. By broadcasting both the newly optimized trajectory and the committed trajectory, and by performing a delay check step, RMADER is able to guarantee safety even under communication delay. RMADER was validated through extensive simulation and hardware flight experiments and achieved a 100% success rate of collision-free trajectory generation, outperforming state-of-the-art approaches.
翻译:虽然通信延误会扰乱多试剂系统,但大多数现有的多试剂轨迹规划人员缺乏解决这一问题的战略。最先进的方法通常假设完美的通信环境,这在现实世界的实验中是不现实的。本文介绍Robust MacAR(RMADER),这是一个分散的和不同步的多试剂轨迹规划人员,可以处理代理商之间的通信延误。通过广播新优化的轨迹和承诺的轨迹,并通过执行延迟检查步骤,RMADER即使在通信延误的情况下也能保证安全。RMADER通过广泛的模拟和硬件飞行实验得到了验证,实现了100%的无碰撞轨迹生成成功率,超过了最先进的方法。