Acta Photonica Sinica, Volume. 44, Issue 3, 311001(2015)
Infrared Image Sequence Complexity Analysis Based on Multi-attribute Decision Making
[1] [1] PETERS II R A, STRICKLAND R N. Image complexity metrics for automatic target recognizers[C]. Naval Surface Warfare Center, Silver Spring, MD: Automatic Target Recognizer System and Technology Conference, 1990, 1-17.
[2] [2] BRACKNEY B A, HELTON M K, HAMMON R K. Development of the gray-level co-occurrence matrix target trackability metric for imaging infrared missile systems[C]. Orlando, Florida: SPIE Conference on Infrared imaging Systems: Design, Analysis, Modeling, and Testing IX, 1998, 240-254.
[3] [3] LANDEAU S, DAGOBERT T. Image database generation using image metric constraints: An application within the CALADIOM project[C]. Orlando (Kissimmee), FL: SPIE 6234, Automatic Target Recognition XVI, 2006, 623410.
[4] [4] NYBERG S, BOHMAN L. Assessing camouflage methods using textural features[J]. Optical Engineering, 2001, 40(9): 1869-1876.
[5] [5] YILMAZ A, JAVED O, SHAH M. Object tracking: A survey[J]. ACM Computing Surveys, 2006, 38(4): 1-46.
[6] [6] ANDERSON D R, JIM MOORE J, MONTGOMERY, et al. Infrared seeker performance metrics[R], 2003.
[7] [7] DIAO W H, MAO X, ZHENG H C, et al. Image sequence measures for automatic target tracking[J]. Progress In Electromagnetics Research, 2012, 130: 447-472.
[8] [8] ACTON S T, AKSEL A. An information theoretic trackability measure[C]. Burlingame, California, USA: SPIE 8296, Computational Imaging X, 82960W, 2012, 1-12.
[9] [9] QIAO L, XU L, GAO M. Influences of infrared image complexity on the target detection performance[J]. Infrared and Laser Engineering, 2013, 42(S1): 253-261.
[10] [10] DENG H, YEH C, WILLIS R J. Inter-company comparison using modified TOPSIS with objective weights[J]. Computer & Operations Research, 2000, 27: 963-973.
[11] [11] CHURCHMAN C W, ACKOFF R L. An approximate measure of value[J]. Journal of the Operations Research Society of America, 1954, 2(2): 172-187.
[12] [12] COPELAND A C, TRIVEDI M M. Signature strength metrics for camouflaged targets corresponding to human perceptual cues[J]. Optical Engineering, 1998, 37(2): 582-591.
[13] [13] MAGGIO E, CAVALLARO A. Accurate appearance-based Bayesian tracking for maneuvering targets[J]. Journal Computer Vision and Image Understanding, 2009, 113(4): 544-555.
[14] [14] COLLINS R, ZHOU X, TEH S K. An open source tracking testbed and evaluation web site[C]. IEEE International Workshop on Performance Evaluation of Tracking and Surveillance, 2005.
[15] [15] LAVELLEE P D, LIGHTFOOT J A, CHAMBLISS M A, et al. Methodology for evaluating autonomous IR tracker performance[R]. Houghton, 2002.
Get Citation
Copy Citation Text
QIAO Li-yong, XU Li-xin, GAO Min. Infrared Image Sequence Complexity Analysis Based on Multi-attribute Decision Making[J]. Acta Photonica Sinica, 2015, 44(3): 311001
Category: Imaging Systems
Received: Sep. 12, 2014
Accepted: --
Published Online: Apr. 14, 2015
The Author Email: Li-yong QIAO (lile-116@163.com)