DocumentCode
3014355
Title
Moving target detection in infrared imagery using a regularized CDWT optical flow
Author
Castellano, Gabriela ; Boyce, James ; Sandler, Mark
Author_Institution
King´´s Coll., London, UK
fYear
1999
fDate
1999
Firstpage
13
Lastpage
22
Abstract
A modified version of the CDWT optical flow algorithm developed by Magarey et al. is applied to the problem of moving target detection in noisy infrared image sequences. The optical flow algorithm is a hierarchical, phase-based approach. The modified version includes an explicit regularization of the motion field, which is of fundamental importance for the application in question. The data used consists of infrared imagery where pixel-size targets move in strongly cluttered backgrounds. To detect the targets different frames from the sequence are compared by subtraction of one from another. However, the motion of the sensor generates an apparent motion of the background across frames, and, as a consequence, the differences between background regions dominate the residue images. To avoid this effect, the estimated motion field between the frames is used to register the background spatially, so that only objects corresponding to potential targets appear in the residue images. Results of applying the method on 3 infrared image sequences are presented, which show that the target SNR is higher when the estimated motion field for the whole scene is explicitly regularized
Keywords
image motion analysis; image sequences; infrared imaging; object detection; infrared imagery; moving target detection; noisy infrared image sequences; regularized CDWT optical flow; strongly cluttered backgrounds; Image motion analysis; Image sensors; Image sequences; Infrared detectors; Infrared imaging; Motion estimation; Object detection; Optical noise; Optical sensors; Pixel;
fLanguage
English
Publisher
ieee
Conference_Titel
Computer Vision Beyond the Visible Spectrum: Methods and Applications, 1999. (CVBVS '99) Proceedings. IEEE Workshop on
Conference_Location
Fort Collins, CO
Print_ISBN
0-7695-0050-1
Type
conf
DOI
10.1109/CVBVS.1999.781090
Filename
781090
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