Networked Decision Making for Poisson Processes With Applications to Nuclear Detection

Author

Pahlajani, Chetan D. ; Poulakakis, Ioannis ; Tanner, Herbert G.

Author_Institution

Dept. of Math. Sci., Univ. of Delaware, Newark, DE, USA

Volume

59

Issue

1

fYear

2014

fDate

Jan. 2014

Firstpage

193

Lastpage

198

Abstract

This paper addresses a detection problem where a network of radiation sensors has to decide, at the end of a fixed time interval, if a moving target is a carrier of nuclear material. The problem entails determining whether or not a time-inhomogeneous Poisson process due to the moving target is buried in the recorded background radiation. In the proposed method, each of the sensors transmits once to a fusion center a locally processed summary of its information in the form of a likelihood ratio. The fusion center then combines these messages to arrive at an optimal decision in the Neyman-Pearson framework. The approach offers a pathway toward the development of novel fixed-interval detection algorithms that combine decentralized processing with optimal centralized decision making.

Keywords

decision making; nuclear engineering computing; nuclear materials safeguards; radiation detection; sensor arrays; sensor fusion; stochastic processes; Neyman-Pearson framework; Poisson processes; background radiation; decentralized processing; detection problem; fixed interval detection algorithms; fusion center; likelihood ratio; networked decision making; nuclear detection; nuclear material; optimal centralized decision making; radiation sensors; time-inhomogeneous Poisson process; Decision making; inhomogeneous Poisson processes; nuclear detection; sensor networks;

fLanguage

English

Journal_Title

Automatic Control, IEEE Transactions on

Publisher

ieee

ISSN

0018-9286

Type

jour

DOI

10.1109/TAC.2013.2267399

Filename

6527912