Title :
Sensor selection in adversarial setting
Author_Institution :
Dept. of Electr. & Comput. Eng., Ohio State Univ., Columbus, OH, USA
Abstract :
We consider the problem of sensor selection for a binary hypothesis testing problem when the conditional density of the sensor readings can be affected by an adversary. A typical application of the proposed setup is surveillance with spatially distributed sensors, where the adversary is changing locations to evade detection. We consider a zero-sum game model where the primary and the adversary are choosing open loop randomized strategies and the payoffs are specified by the asymptotic detection probability under a false alarm constraint. We prove the existence of the Nash equilibrium of this surveillance game and characterize the optimal min-max strategies and the value of the game. A computed example of decentralized detection with sensors providing binary valued observations is given to illustrate the results.
Keywords :
distributed sensors; game theory; minimax techniques; sensor placement; surveillance; Nash equilibrium; adversarial setting; binary hypothesis testing problem; conditional density; false alarm constraint; optimal min-max strategy; sensor selection; spatially distributed sensor; surveillance game; zero-sum game model; Games; Nash equilibrium; Observers; Servers; Signal processing; Surveillance; Decision Theory; Game Theory; Sensor Management;
Conference_Titel :
Statistical Signal Processing Workshop (SSP), 2012 IEEE
Conference_Location :
Ann Arbor, MI
Print_ISBN :
978-1-4673-0182-4
Electronic_ISBN :
pending
DOI :
10.1109/SSP.2012.6319684
