Cabral, Kleber (Queen's University), Silveira, Jefferson (Queen's University), Rabbath, Camille Alain (Defence Research and Development Canada), Givigi, Sidney (Queen's University)

Hierarchical Cooperative Assignment Algorithm (CAA) for Mission and Path Planning of Multiple Fixed-Wing UAVs Based on Maximum Independent Sets

Scheduled for presentation during the Regular Session "Path Planning IV" (ThB3), Thursday, June 8, 2023, 11:40−12:00, Room 464

2023 International Conference on Unmanned Aircraft Systems (ICUAS), June 6-9, 2023, Lazarski University, Warsaw, Poland

This information is tentative and subject to change. Compiled on May 1, 2024

Abstract

Mission planning can be solved as a combinatorial optimization problem which involves computing the path and selecting the agents that will be assigned to a given task. In scenarios with multiple UAVs, the proper control of the vehicle to achieve the proposed path is also a relevant task. This paper proposes a solution to the mission planning problem that involves probabilistic search and optimization of path planning and a graph-based combinatorial solution of task assignment. In addition, we propose an invariant model predictive controller based on the SO(2) manifold to deal with the execution of UAV missions. Our results demonstrate that the algorithm is capable of assigning all agents to tasks and computing a viable and smooth trajectory for the UAVs to follow. Also, the control strategy is capable of guiding the vehicle through the trajectories generated from a start position to the task location.