[5] Branchitta F, Diani M, Romagnoli M. New technique for the visualization of high dynamic range infrared images[J]. Optical Engineering, 2009, 48(9): 6401.
[6] Durand F, Dorsey J. Fast bilateral filtering for the display of high-dynamic-range images[C]//Conference on Computer Graphics and Interactive Techniques. ACM, 2002: 257-266.
[7] Bae S, Paris S. Two-scale tone management for photographic look[C]// ACM, 2006: 637-645.
[8] ZUO C, CHEN Q, REN J. Display and detail enhancement for high-dynamic-range infrared images[J]. Optical Engineering, 2011, 50(12): 895-900.
[9] Anderson G L, Netravali A N. Image restoration based on a subjective criterion[J]. IEEE Trans. Syst. Man Cybern., 1976, 6(12): 845-853.
[10] Katsaggelos A K, Biemond J, Schafer R W, et al. A regularized iterative image restoration algorithm[J]. IEEE Transactions on Signal Processing, 1991, 39(39): 914-929.
[11] HE K, SUN J, TANG X. Guided Image Filtering[J]. Pattern Analysis & Machine Intelligence IEEE Transactions on, 2013, 35(6): 1397-1409.
[12] LIU N, ZHAO D. Detail enhancement for high-dynamic-range infrared images based on guided image filter[J]. Infrared Physics & Technology, 2014, 67: 138-147.
[13] SONG Q, WANG Y, BAI K. High dynamic range infrared images detail enhancement based on local edge preserving filter[J]. Infrared Physics & Technology, 2016, 77: 464-473.
[14] Farbman Z, Fattal R, Lischinski D, et al. Edge-preserving decompo-sitions for multi-scale tone and detail manipulation[J]. ACM Transactions on Graphics, 2008, 27(3): 1-10.
[18] A Pardo, G Sapiro. Visualization of high dynamic range images[J]. IEEE Trans Image Processing, 2003, 12(6): 639-647.
[21] Stockham T G. Image processing in the context of a visual model[C]// Proc. IEEE, 1972, 60(7): 828-842.
[22] Reinhard E, Stark M, Shirley P, et al. Photographic tone reproduction for digital images[J]. ACM Transactions on Graphics, 2002, 21(3): 267-276.
[23] Drago F, Myszkowski K, Annen T, et al. Adaptive Logarithmic Mapping For Displaying High Contrast Scenes[J]. Computer Graphics Forum, 2003, 22(3): 419-426.
[24] Monobe Y, Yamashita H, Kurosawa T, et al. Dynamic range compression preserving local image contrast for digital video camera[J]. IEEE Transactions on Consumer Electronics, 2005, 51(1): 1-10.
[26] KAO W C, WANG H C. Tone mapping operator for high dynamic range imaging[C]//Consumer Electronics (ISCE), 2013 IEEE 17th International Symposium on. IEEE, 2013: 267-268.
[27] JUNG C, WANG X. Detail-preserving tone mapping for low dynamic range displays with adaptive gamma correction[J/OL]. IEEE Visual Communications & Image Processing, 2015: 1-5. DOI: 10.1109/VCIP. 2015.7457796.
[28] Durand F, Dorsey J. Fast bilateral filtering for the display of high-dynamic-range images[C]//ACM Transactions on Graphics (TOG). ACM, 2002, 21(3): 257-266.
[29] KUANG J, Yamaguchi H, Johnson G M,et al. Testing HDR image rendering algorithms[C]//Color and Imaging Conference, Society for Imaging Science and Technology, 2004, 2004(1): 315-320.
[30] Gonzalez, Rafael C, Woods, Richard E. Digital Image Processing[M]. Beijing: Publishing house of electronics industry, 2010.
[31] DUAN J, Bressan M, Dance C, et al. Tone-mapping high dynamic range images by novel histogram adjustment [J]. Pattern Recognition, 2010, 43(5): 1847-1862.
[32] CHEN Z Y, Abidi B R, Page D L,et al. Gray-level grouping (GLG): an automatic method for optimized image contrast enhancement.Part I: the basic method[J]. IEEE Trans Image Processing, 2006, 15(8): 2290-2302.
[33] Pizer S M, Amburn E P, Austin J D, et al. Adaptive histogram equalization and its variations[J]. Computer Vis. Graph. Image Process, 1987, 39(3): 355-368.
[34] Zuiderveld K. Contrast Limited Adaptive Histogram Equalization[M]. San Diego: Academic Press Professional, Inc. 1994.
[35] KIM J Y, KIM L S, HUANG S H. An advanced contrast enhancement using partially overlapped sub-block histogram equalization[J]. IEEE Transactions on Circuits And Systems for Video Technology, 2001, 11(4): 475-484.
