Formation control of unmanned rotorcraft systems with state constraints and inter-agent collision avoidance

Panpan Zhou, Shupeng Lai, Jinqiang Cui, Ben M. Chen
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Abstract

We present in this paper a novel framework and distributed control laws for the formation of multiple unmanned rotorcraft systems, be it single-rotor helicopters or multi-copters, with physical constraints and with inter-agent collision avoidance, in cluttered environments. The proposed technique is composed of an analytical distributed consensus control solution in the free space and an optimization based motion planning algorithm for inter-agent and obstacle collision avoidance. More specifically, we design a distributed consensus control law to tackle a series of state constraints that include but not limited to the physical limitations of velocity, acceleration and jerk, and an optimization-based motion planning technique is utilized to generate numerical solutions when the consensus control fails to provide a collision-free trajectory. Besides, a sufficiency condition is given to guarantee the stability of the switching process between the consensus control and motion planning. Finally, both simulation and real flight experiments successfully demonstrate the effectiveness of the proposed technique.

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具有状态约束和避免代理间碰撞的无人驾驶旋翼机系统的编队控制
我们在本文中提出了一种新颖的框架和分布式控制法则,用于在杂乱的环境中组建多个无人驾驶旋翼机系统,无论是单旋翼直升机还是多旋翼直升机,都具有物理约束和避免代理间碰撞的功能。所提出的技术由自由空间分布式共识控制分析方案和基于优化的运动规划算法组成,用于避免代理间碰撞和障碍物碰撞。更具体地说,我们设计了一种分布式共识控制法则,以解决一系列状态约束,包括但不限于速度、加速度和颠簸等物理限制,并利用基于优化的运动规划技术,在共识控制无法提供无碰撞轨迹时生成数值解决方案。此外,还给出了一个充分条件,以保证共识控制和运动规划之间切换过程的稳定性。最后,模拟和实际飞行实验成功证明了所提技术的有效性。
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