Title :
Infrared-image classification using hidden Markov trees
Author :
Bharadwaj, Priya ; Carin, Lawrence
Author_Institution :
Acuson, Mountain View, CA, USA
fDate :
10/1/2002 12:00:00 AM
Abstract :
An image of a three-dimensional target is generally characterized by the visible target subcomponents, with these dictated by the target-sensor orientation (target pose). An image often changes quickly with variable pose. We define a class as a set of contiguous target-sensor orientations over which the associated target image is relatively stationary with aspect. Each target is in general characterized by multiple classes. A distinct set of Wiener filters are employed for each class of images, to identify the presence of target subcomponents. A Karhunen-Loeve representation is used to minimize the number of filters (templates) associated with a given subcomponent. The statistical relationships between the different target subcomponents are modeled via a hidden Markov tree (HMT). The HMT classifier is discussed and example results are presented for forward-looking-infrared (FLIR) imagery of several vehicles.
Keywords :
Karhunen-Loeve transforms; Markov processes; Wiener filters; image classification; infrared imaging; minimisation; trees (mathematics); 3D target image; FLIR imagery; HMT; IR image classification; Karhunen-Loeve representation; Wiener filters; contiguous target-sensor orientations; forward-looking-infrared imagery; hidden Markov trees; infrared-image classification; minimization; target pose; target-sensor orientation; vehicles; Classification tree analysis; Engines; Hidden Markov models; History; Image converters; Infrared imaging; Temperature dependence; Testing; Vehicles; Wiener filter;
Journal_Title :
Pattern Analysis and Machine Intelligence, IEEE Transactions on
DOI :
10.1109/TPAMI.2002.1039210
