Multi-Robot Task Allocation -- Complexity and Approximation
It addresses a fundamental issue in robotics for applications like search and rescue, but appears incremental in its computational analysis.
The paper tackles the problem of allocating robots to tasks to maximize the number of tasks completed under budget constraints, providing complexity analysis and approximation results.
Multi-robot task allocation is one of the most fundamental classes of problems in robotics and is crucial for various real-world robotic applications such as search, rescue and area exploration. We consider the Single-Task robots and Multi-Robot tasks Instantaneous Assignment (ST-MR-IA) setting where each task requires at least a certain number of robots and each robot can work on at most one task and incurs an operational cost for each task. Our aim is to consider a natural computational problem of allocating robots to complete the maximum number of tasks subject to budget constraints. We consider budget constraints of three different kinds: (1) total budget, (2) task budget, and (3) robot budget. We provide a detailed complexity analysis including results on approximations as well as polynomial-time algorithms for the general setting and important restricted settings.