This paper deals with the large-scale task allocation problem for Unmanned Aerial Vehicle (UAV) swarms in surveillance missions. The task allocation problem is proven to be NP-hard which means that finding the optimal solution requires exponential time. This paper presents a practically efficient decentralized task allocation algorithm for UAV swarms based on lazy sample greedy. The proposed algorithm can provide a solution with an expected optimality ratio of at least ${p}$ for monotone submodular objective functions and of ${p}(1 - p)$ for non-monotone submodular objective functions. The individual computational complexity for each UAV is ${O}(pr^{2})$, where ${p}\,\in \,(0,0.5]$ is the sampling probability, ${r}$ is the number of tasks. The performance of the proposed algorithm is testified through digital simulations of a multi-target surveillance mission. Simulation results indicate that the proposed algorithm achieves a comparable solution quality to state-of-the-art algorithms with dramatically less running time. Moreover, a trade-off between the solution quality and the running time is obtained by adjusting the sampling probability.
Efficient Decentralized Task Allocation for UAV Swarms in Multi-target Surveillance Missions
2019-06-01
441741 byte
Conference paper
Electronic Resource
English
Springer Verlag | 2009
|DOAJ | 2023
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