Paper Info
Title
Controlling a Fleet of Unmanned Aerial Vehicles to Collect Uncertain Information in a Threat Environment
Abstract
AbstractUnmanned aerial vehicles UAVs have been proved to be successful and efficient for information collection in a modern battlefield, especially in areas that are considered to be dangerous for human pilots. Currently, a UAV is remotely controlled by a ground station through frequent data communications, which make the current system vulnerable in a threat environment. We propose a decentralized control strategy while requiring UAVs to maintain radio silence during the entire mission. The strategy is analyzed based on a scenario where a fleet of vehicles is assigned to search and collect uncertain information in a set of regions within a given mission time. We demonstrate that a region-sharing strategy is beneficial even when there is no extra reward gained from additional information collection. Implementing a region-sharing strategy requires solving a decentralized time allocation problem, which is computationally intractable. To overcome this, an approximate formulation is developed under an independence assumption for information collected by different vehicles. This approximate formulation allows us to decompose, by vehicle, the time allocation problem, and obtain an easily implementable policy that takes on a Markovian form. We develop a sufficient condition under which the approximate formulation becomes exact. A numerical study establishes the computational efficiency of the method; only a few CPU seconds are needed for problems with a planning horizon of 300 time units and 40 regions. We further present a case study to illustrate region-sharing behaviors among UAVs while using practical parameter values. Finally, we compare the obtained policy with the optimal policy found using a complete enumeration method for small instances. Under different parameter settings, the average optimality gap ranges from 0.23% to 19.90%.The e-companion is available at https://doi.org/10.1287/opre.2017.1590.
Year
DOI
Venue
2017
10.1287/opre.2017.1590
Periodicals
Keywords
Field
DocType
search theory,decentralized control,resource allocation,Markovian policy,multiagent system
Radio silence,Decentralised system,Battlefield,Time allocation,Computer security,Search theory,Mission time,Resource allocation,Ground station,Operations management,Mathematics
Journal
Volume
Issue
ISSN
65
3
0030-364X
Citations 
PageRank 
References 
3
0.40
9
Authors
3
Name
Order
Citations
PageRank
Yan Xia12510.31
Rajan Batta284989.39
Rakesh Nagi344345.82