[1] Butters B, Nicholls E, Walmsley R, et al. Infrared decoy and obscurant modelling and simulation for ship protection[C]//SPIE Security+Defence. International Society for Optics and Photonics, 2011:81870Q-81870Q-16.
[2] Hu Y F, Song B. Evaluation the effectiveness of the infrared flare with a tactic of dispensing in burst[C]//Systems and Control in Aeronautics and Astronautics(ISSCAA), 20103rd International Symposium on, IEEE, 2010:131-136.
[3] Aytac T, Bekmen O. Development of a target tracking algorithm for imaging infrared seekers[C]//Signal Processing, Communication and Applications Conference, SIU 2008, IEEE 16th, 2008:1-4.
[4] Oliveros C S, Aragn L M, Jareno R M. Comparison of the emission of IR decoy flare under controlled laboratory and on-field conditions[C]//SPIE Europe Security+ Defence. International Society for Optics and Photonics, 2009:74830L-74830L-9.
[5] Gray G J, Aouf N, Richardson M, et al. Countermeasure effectiveness against an intelligent imaging infrared anti-ship missile[J]. Optical Engineering, 2013, 52(2):026401-026401.
[6] Yang Dongsheng, Mu Dejun, Dai Guanzhong. Kinetic simulation of the characteristics of airborne infrared flares[J]. Journal of Northwestern Polytechnical University, 2009, 6:781-785. (in Chinese)杨东升, 慕德俊, 戴冠中. 机载红外诱饵运动特性仿真技术研究[J]. 西北工业大学学报, 2009, 6:781-785.
[7] Yang Dongsheng, Dai Guanzhong. Radiation simulation of the characteristics of infrared flares[J]. Science Technology and Engineering, 2011, 21:5104-5110. (in Chinese)杨东升, 戴冠中. 红外诱饵辐射特性仿真技术研究[J]. 科学技术与工程, 2011, 21:5104-5110.
[8] Tian Xiaofei, Ma Lihua, Hong Hua. Study on jamming characteristic and simulation of surface-type infrared decoy[J]. Laser Infrared, 2012, 42(2):165-169. (in Chinese)田晓飞, 马丽华, 洪华. 面源红外诱饵的干扰特性分析以及模拟研究[J]. 激光与红外, 2012, 42(2):165-169.
[9] Wang Chaozhe, Tong Zhongiang, Li Lin, et al. Simulation of towed infrared decoy interfering and its operational method[J]. Infrared and Laser Engineering, 2012, 41(2):446-451. (in Chinese)王超哲, 童中翔, 李琳, 等. 拖曳式红外诱饵干扰仿真与使用方法[J]. 红外与激光工程, 2012, 41(2):446-451.
[10] Hu H, Wen D. Simulation investigation of counterwork between anti-radiation missile and active decoy system[M]//Computer Engineering and Networking. New Your:Springer International Publishing, 2014:437-444.
[11] Mastin G A, Watterberg P A, Mareda J F. Fourier synthesis of ocean scenes[J]. Computer Graphics and Applications, 1987, 7(3):16-23.
[12] Karine Caillault, Sandrine Fauqueux, Christophe Bourlier, et al. Multiresolution optical characteristics of rough sea surface in the infrared[J]. Appled Optics, 2007, 22(46):5471-5481.
[13] Wolfe W L, Zissis G J. The Infrared Handbook[M]. Arlington:Office of Naval Research, Department of the Navy, 1978.
[14] Cox C S, Munk W H. Statistics of the sea surface derived from sun glitter[J]. J Mar Res, 1954, 13:198-227.
[15] Masuda K, Takashima T, Takayama Y. Emissivity of pure and sea waters for the model sea surface in the infrared window regions[J]. Remote Sensing Environment, 1988, 24:313-329.
[16] Ross V, Dion D, Potvin G. Detailed analytical approach to the gaussian surface bidirectional reflectance distribution function specular component applied to the sea surface[J]. Journal of Optical Society of America, 2005, A22:2442-2453.
[17] Pu Weihua, Du Zhiming. A new method of testing for the radiation spectrum performance of infrared bait medicaments[J]. Acta Armamentarii, 2003, 24(3):399-402. (in Chinese)蒲薇华, 杜志明. 红外诱饵剂辐射光谱性能测试的一种新方法[J]. 兵工学报, 2003, 24(3):399-402.
[18] Li Shixiang. Optoelectronic Countermeasures Technology[M]. Changsha:National University of Defense Technology Press,2000. (in Chinese)李世祥. 光电对抗技术[M]. 长沙:国防科技大学出版社,2000.
[19] Zhang Jianqi, Fang Xiaoping. Infrared Physics[M]. 2nd ed. Xi'an:Xidian University Press, 2004. (in Chinese)张建奇, 方小平. 红外物理[M]. 第2版. 西安:西安电子科技大学出版社, 2013.
[20] Guo Bingtao, Wang Xiaorui, Huang Xi, et al. Modeling and simulation of the scattering of targets surface by infrared decoys radiation[J]. Infrared and Laser Engineering, 2013, 42(2):300-304. (in Chinese)郭冰涛,王晓蕊,黄曦,等.地物环境对红外诱饵弹散射特性建模及仿真[J].红外与激光工程, 2013, 42(2):300-304.
[21] Spulber C, Borcan O V. An analytical approach regarding some radiometric problems during the detection on the sea surface with a thermal camera[J]. Applied Mechanics and Materials, 2014, 436:318-325.
[22] Belcour L, Barla P, Pacanowski R. ALTA:a BRDF analysis library[C]//EGSR Workshop on Material Appearance Modeling. Eurographics, 2014.
[23] Cook R L, Torrance K E. A reflectance model for computer graphics[J]. ACM Transactions on Graphics(TOG), 1982, 1(1):7-24.
[24] Jason T Ward. Realistic texture in simulated thermal infrared imagery[D]. New York:Rochester Institute of Technology,2008.
[25] Xiao Liping, Cao Ju, Gao Xiaoying. Detection for ship targets in complicated background of sea and land[J]. Opto-Electronic Engineering, 2007, 34(6):6-10. (in Chinese)肖利平, 曹炬, 高晓颖. 复杂海地背景下的舰船目标检测[J]. 光电工程, 2007, 34(6):6-10.
[26] Li Hong, Zheng Chengyong, Gao Jingli. Weak and small object detection based on wavelet multi-scale analysis and fisher algorithm[J]. Journal of Infrared and Millimeter Waves, 2003, 22(5):353-356. (in Chinese)李红, 郑成勇, 高景丽. 基于小波多尺度分析及Fisher分割的红外弱小目标检测术[J]. 红外与毫米波学报, 2003, 22(5):353-356.
[27] Zou Ruibin, Shi Caicheng, Mao Erke. Shearlet-based infrared target detection algorithm on complex sea[J]. Chinese Journal of Scientific Instrument, 2011, 32(5):1103-1108. (in Chinese)邹瑞滨, 史彩成, 毛二可. 基于剪切波变换的复杂海面红外目标检测算法[J]. 仪器仪表学报, 2011, 32(5):1103-1108.
[28] Tessendorf J. Simulating ocean water[J]. Simulating Nature:Realistic and Interactive Techniques. SIGGRAPH, 2001, 1(2):5-24.
[29] Schlick C. A customizable reflectance model for everyday rendering[C]//Fourth Eurographics Workshop on Rendering. 1993:73-83.