[1] Jing-Hua Zhang, Yan Zhang, Zhi-Guang Shi. Study and modeling of infrared polarization characteristics based on sea scene in long wave band. J.Infrared Millim. Waves, 37, 76-84(2018).
[2] Jing-Hua Zhang, Yan Zhang, Zhi-Guang Shi. Enhancement of dim targets in a sea background based on long-wave infrared polarisation features. IET Image Processing, 12, 2042-2050(2018).
[3] P L Walker, W J Lentz, A W Cooper. Atmospheric and sea state dependence of polarized infrared contrast. Proceedings of SPIE - The International Society for Optical Engineering, 2469(1995).
[4] F Cremer, P B W Schwering, W D Jong et al. Infrared polarisation measurements of targets and backgrounds in a Marine Environment. Proceedings of SPIE - The International Society for Optical Engineering, 4370(2001).
[5] Cong-Li Li, Wen-Jun Lu, Song Xue et al. Quality assessment of polarization analysis images in foggy conditions. 2014 IEEE International Conference on Image Processing (ICIP), 551-555(2014).
[6] Mo-Gen Xue, Feng Wang, Guo-Ming Xu et al. Polarization imaging detection technology research(2013).
[7] Feng Wang, Cheng-Liang Yin, Yong Wang. Research of polarization imaging detection method for water surface target in foggy weather(2013).
[8] Hong-kun Li, N Pinel, C Bourlier. Polarized infrared emissivity of 2D sea surfaces with one surface reflection. Remote Sensing of Environment, 124, 299-309(2012).
[9] B Smith. Geometrical shadowing of a random rough surface. IEEE Transactions on Antennas and Propagation, 15, 668-671(1967).
[10] K Masuda, T Takashima, Y Takayama. Emissivity of pure and sea waters for the model sea surface in the infrared window regions. Remote Sensing of Environment, 24, 313-329(1988).
[11] L T Cheung, A Ishimaru. Transmission, backscattering, and depolarization of waves in randomly distributed spherical particles. Applied Optics, 21, 3792-3798(1982).
[12] Qian-Qian Zhang, Jun Gao, Xiao-Hong Xu et al. Analysis of Multiple Scattering Polarization Transmission Properties. Chinese Journal of Lasers, 39, 1213001(2012).
[13] Kim Yoon-Sik. A Study on the Infrared Signature of a Naval Ship under the Marine Climate. Journal of the Society of Naval Architects of Korea, 49, 264-272(2012).
[14] D A Vaitekunas, D S Fraedrich, W R Davis. Validation of the NATO-standard ship signature model (SHIPIR). Proceedings of SPIE - The International Society for Optical Engineering, 3699(1999).
[15] A W Cooper, P L Walker, W J Lentz. Ship signature measurements for tactical decision-aid input. Proceedings of SPIE - The International Society for Optical Engineering, 1486(1991).
[16] B Brian, N Edgar, W Roy et al. Infrared decoy and obscurant modelling and simulation for ship protection. Proc. SPIE 8187, Technologies for Optical Countermeasures VIII, 81870Q.
[17] Xuan Chen, Li Yang, Fengrui Sun. Research of infrared stealth criterion of targets based on signal-to-noise ratio. Proceedings of SPIE-The International Society for Optical Engineering, 7383, 168(2009).