宽动态红外图像增强算法综述
周永康, 朱尤攀, 曾邦泽, 胡健钏, 欧阳慧明, 李泽民. 宽动态红外图像增强算法综述[J]. 激光技术, 2018, 42(5): 718.
ZHOU Yongkang, ZHU Youpan, ZENG Bangze, HU Jianchuan, OUYANG Huiming, LI Zemin. Review of high dynamic range infrared image enhancement algorithms[J]. Laser Technology, 2018, 42(5): 718.
[1] PIZER S M, AMBURN E P, AUSTIN J D, et al. Adaptive histogram equalization and its variations[J]. Computer Vision Graphics & Image Processing, 1987, 39(3): 355-368.
[2] ZUIDERVELD K. Contrast limited adaptive histogram equalization[M]. San Diego ,USA: Academic Press Professional, Inc., 1994: 474-485.
[3] VICKERS V E. Plateau equalization algorithm for real-time display of high-quality infrared imagery[J]. Optical Engineering, 1996, 35(7): 1921-1926.
[4] BRANCHITTA F, DIANI M, CORSINI G. New technique for the visualization of high dynamic range infrared images[J]. Optical Engineering, 2009, 48(9): 096401.
[5] DURAND F, DORSEY J. Fast bilateral filtering for the display of highdynamic range images [J]. ACM Transactions Graphics, 2002, 21(3): 257-266.
[6] BAE S, PARIS S. Two-scale tone management for photographic look[J]. ACM Transactions Graphics, 2006,25(3): 637-645.
[7] ZUO C, CHEN Q, REN J. Display and detail enhancement for high-dynamic-range infrared images[J]. Optical Engineering, 2011, 50(12): 895-900.
[8] ANDERSON G L, NETRAVALI A N. Image restoration based on a subjective criterion[J]. IEEE Transactions on Systems Man & Cybernetics, 1976,6(12): 845-853.
[9] KATSAGGELOS A K, BIEMOND J, SCHAFER R W, et al. A regularized iterative image restoration algorithm[J]. IEEE Transactions on Signal Processing, 1991, 39(4): 914-929.
[10] HE K, SUN J, TANG X. Guided image filtering[J]. IEEE Transactions on Pattern Analysis & Machine Intelligence, 2013, 35(6): 1397-1409.
[11] LIU N, ZHAO D X. Detail enhancement for high-dynamic-range infrared images based on guided image filter[J]. Infrared Physics & Technology, 2014, 67: 138-147.
[12] FARBMAN Z, FATTAL R, LISCHINSKI D. Edge-preserving decompositions for multi-scale tone and detail manipulation[J]. ACM Transactions on Graphics, 2008, 27(3): 1-10.
[13] SONG Q, WANG Y H, BAI K. High dynamic range infrared images detail enhancement based on local edge preserving filter[J]. Infrared Physics & Technology, 2016, 77: 464-473.
[14] GU B, LI W, ZHU M, et al. Local edge-preserving multiscale decomposition for high dynamic range image tone mapping[J]. IEEE Transactions on Image Processing, 2012, 22(1): 70-79.
[15] FATTAL R, LISCHINSKI D, WERMAN M. Gradient domain high dynamic range compression[C]// Conference on Computer Graphics & Interactive Techniques: Proc of 29th Annual Co Conference on Computer Graphics & Interactive Techniques. New York,USA: ACM Press, 2002: 249-256.
[16] ZHANG F F, XIE W, MA G R, et al. High dynamic range compression and detail enhancement of infrared images in the gradient domain[J]. Infrared Physics & Technology, 2014, 67: 441-454.
[17] KIM J H. Novel contrast enhancement scheme for infrared image using detail-preserving stretching[J]. Optical Engineering, 2011, 50(7): 077002.
[18] SHEWCHUK J R. An introductionto the conjugate gradient method without the agonizing pain[D]. Pittsburgh, USA: Carnegie Mellon University, 1994: 94-125.
[19] ZHANG F, XIE W, MA G, et al. High dynamic range compression and detail enhancement of infrared images in the gradient domain[J]. Infrared Physics & Technology, 2014, 67: 441-454.
周永康, 朱尤攀, 曾邦泽, 胡健钏, 欧阳慧明, 李泽民. 宽动态红外图像增强算法综述[J]. 激光技术, 2018, 42(5): 718. ZHOU Yongkang, ZHU Youpan, ZENG Bangze, HU Jianchuan, OUYANG Huiming, LI Zemin. Review of high dynamic range infrared image enhancement algorithms[J]. Laser Technology, 2018, 42(5): 718.