Asymptotically CFAR-Unsupervised Target Detection and Discrimination in Hyperspectral Images With Anomalous-Component Pursuit

Author

Huck, Alexis ; Guillaume, Mireille

Author_Institution

Magellium, Ramonville Saint Agne, France

Volume

48

Issue

11

fYear

2010

Firstpage

3980

Lastpage

3991

Abstract

This paper addresses the problem of anomaly detection in hyperspectral images. We propose and exploit a data model to establish the link between two main approaches in the area of anomaly detection, which are the hypothesis testing (HT) and projection pursuit. We show that combining these two approaches enables one to overcome some limitations of each method when taken separately. Indeed, the resulting detection algorithm, namely, anomalous component pursuit (ACP) has an asymptotically constant false-alarm rate, like HT-based detectors, and enables anomaly spectral discrimination, including the estimation of the number of classes. We assess the ACP algorithm on real-world data, in terms of detection and discrimination, and discuss some theoretical limitations.

Keywords

geophysical image processing; object detection; remote sensing; ACP algorithm; anomalous component pursuit; anomalous-component pursuit; anomaly detection; anomaly spectral discrimination; asymptotically CFAR-unsupervised target detection; asymptotically constant false-alarm rate; hyperspectral images; hypothesis testing; projection pursuit; Covariance matrix; Data models; Detectors; Gaussian distribution; Hyperspectral imaging; Pixel; Anomaly detection; constant false-alarm rate (CFAR); hyperspectral imaging; projection pursuit (PP);

fLanguage

English

Journal_Title

Geoscience and Remote Sensing, IEEE Transactions on

Publisher

ieee

ISSN

0196-2892

Type

jour

DOI

10.1109/TGRS.2010.2063434

Filename

5593214