A. Li, Lavanya Sharan, & A model of visual adaptation for realistic image synthesis. We use cookies to ensure that we give you the best experience on our website. Dicarlo, J. M., and Wandell, B. The ACM Digital Library is published by the Association for Computing Machinery. Mann, S., and Picard, R. 1995. and Cognitive Sciences, and Computer Science and Artificial Intelligence Laboratory However, we demonstrate that they can work when properly implemented. 1999. 2002. In APGV '04: Proceedings of the 1st Symposium on Applied perception in graphics and visualization, ACM Press, 83--90. Annual Conference Series, 287--298. for compressing the dynamic range while retaining important visual information. SPIE, vol. on PAMI 14, 7, 710--732. Bilateral filtering for gray and color images. IEEE Trans. Compressing and Companding High Dynamic Range Images with Subband Architectures. We propose a dynamic range compression technique using subband architectures and smooth gain control. In Proceedings of SIGGRAPH 97, Computer Graphics Proceedings, Annual Conference Series. Free Access. Ferwerda, J. We also show that the technique can be adapted However, we demonstrate that they can work when properly Seetzen, H., Heidrich, W., Stuerzlinger, W., Ward, G., Whitehead, L., Trentacoste, M., Ghosh, A., and Vorozcovs, A. In IS&T's 48th annual conference, 422--428. The radiance lighting simulation and rendering system. converted to an LDR image, and later expanded back to high dynamic range. 9, 427--443. IEEE Transactions on Visualization and Computer Graphics 3, 4, 291--306. 7, 10, 2032--2040. Tomasi, C., and Manduchi, R. 1998. A., Fairchild, M. D., and Greenberg, D. P. 1998. and Companding High Dynamic Range Images with Subband Architectures, Yuanzhen Characterization of signals from multiscale edges. In Proceedings of SIGGRAPH 98, Computer Graphics Proceedings. We also show that the technique can be adapted for the related problem of "companding", in which an HDR image is converted to an LDR image, and later expanded back to high dynamic range. 1997. Photographic tone reproduction for digital images. Devlin, K., Chalmers, A., Wilkie, A., and Purgathofer, W. 2002. flowchart) should be: In the downloadable 1997. 1971. Automatic tone adjustment by contrast gain-control on edges. Image companding,, is designed to squeeze higher-bit images to lower bit ones, based on which to reproduce outputs with higher bits. New York: Academic. High dynamic range High dynamic range (HDR) imaging is an area of increasing importance, but most display devices still have limited dynamic range (LDR). Land, E. H., and McCann, J. J. Various techniques have been proposed Compressing and Companding High Dynamic Range Images with Subband Architectures . IEEE Computer Graphics & Applications 13, 6 (Nov.), 42--48. 1994. Graph}, year = {2005}, pages = {836--844}} Image processing in the context of a visual model. In In Proc. 5,805,721. We use a symmetrical analysis-synthesis filter bank, and apply local gain control to the subbands. Image contrast enhancing method. 2004. Massachusetts Institute of Technology, Cambridge, MA. Transactions on Graphics, Proceedings of SIGGRAPH 2005 5,717,791. IJG. Mallat, S., and Zhong, S. 1992. We also adapt this technique for a related problem of "companding", in which the dynamic range of an image is compressed and then expanded. A visibility matching tone reproduction operator for high dynamic range scenes. Dept. Copyright © 2020 ACM, Inc. Adelson, E. H., Simoncelli, E., and Hingorani, R. 1987. 3965, 392--401. Fattal, R., Lischinski, D., and Werman, M. 2002. Star: Tone reproduction and physically based spectral rendering. IEEE Int. three arrows (marked in blue) have wrong directions. Stockham, T. 1972. A., Pattanaik, S., Shirley, P. S., and Greenberg, D. P. 1996. 3 Compressing and companding high dynamic range images with subband architectures. High dynamic range (HDR) imaging is an area of increasing importance, but most display devices still have limited dynamic range (LDR). ACM Transactions on Graphics 21, 3 (July), 267--276. Why. processing tasks, have a reputation of causing halo artifacts when used for A multi-scale retinex for bridging the gap between color images and the human observation of scenes. Three methods of detail-preserving contrast reduction for displayed images. Contrast in complex images. Reinhard, E., and Devlin, K. 2005. of Brain Half-squaring in responses of cat simple cells. Tumblin, J. Recovering high dynamic range radiance maps from photographs. Dynamic range reduction inspired by photoreceptor physiology. on Graphics, Proceedings of SIGGRAPH 2005. In Visual Communications and Image Processing II, Proc. Lee, H.-C., 2001. High dynamic range (HDR) imaging is an area of increasing importance, but most display devices still have limited dynamic range (LDR). BibTeX @ARTICLE{Li05compressingand, author = {Yuanzhen Li and Lavanya Sharan and Edward H. Adelson}, title = {Compressing and companding high dynamic range images with subband architectures}, journal = {ACM Trans. Check if you have access through your login credentials or your institution to get full access on this article. A. In Proceedings of SIGGRAPH 99, Computer Graphics Proceedings, Annual Conference Series, 83--90. High dynamic range display systems. range compressing. 2001. ACM Transactions on Graphics 23, 3 (Aug.), 760--768. http://www.ijg.org/files/. Nakazawa, Masayuki, Tsuchino, and Hisanori, 1995. United States Patent 5,471,987. Tone reproduction for realistic images. and contracts from NTT Labs, Shell Labs, and the National Geospatial Intelligence Soc. Vuylsteke, P., and Schoeters, E., 1998. High dynamic range imaging: Spatially varying pixel exposures. In Proceedings of SIGGRAPH 96, Computer Graphics Proceedings, Annual Conference Series, 249--258. Reinhard, E., Stark, M., Shirley, P., and Ferwerda, J. 369--378. MURI grant via the Office of Naval Research (N00014-01-1-0625), NSF grant BCS-0345805, J. Opt. Rendering high dynamic range images. IEEE 60, 828--842. still have limited dynamic range (LDR). Mallat, S. 1998. Natural scenes contain huge ranges of light levels. Multi-scale image processing techniques, which are widely used for many image processing tasks, have a reputation of causing halo artifacts when used for range compression. Compressing and companding high dynamic range images with subband architectures, All Holdings within the ACM Digital Library. In IEEE CVPR, 472--479. Various techniques have been proposed for compressing the dynamic range while retaining important visual information. Gradient domain high dynamic range compression. Mitsunaga, T., and Nayar, S. K., 2000. of Brain and Cognitive Sciences, and Computer Science and Artificial Intelligence Lab Massachusetts Institute of Technology, Cambridge, MA Abstract High dynamic range (HDR) imaging is an area of increasing im- Debevec, P. E., and Malik, J. Pattanaik, S. N., Ferwerda, J. We use a symmetrical analysis-synthesis filter bank, and apply Ward, G. J. Compressing and Companding High Dynamic Range Images with Subband Architectures Yuanzhen Li Lavanya Sharan Edward H. Adelson Dept. Larson, G. W., Rushmeier, H., and Piatko, C. 1997. Ward, G., and Simmons, M. 2004. for the related problem of "companding", in which an HDR image is Tumblin, J., and Turk, G. 1999. In Proceedings of SIGGRAPH 94, Computer Graphics Proceedings, Annual Conference Series, 459--472. of Technology. ACM Transactions on Graphics 21, 3 (July), 249--256. 2002. United States Patent 6,285.798, September. Edward H. Adelson, Dept. Supported by a Various techniques have been proposed for compressing the dynamic range while retaining important visual information. IEEE Transactions on Visualization and Computer Graphics. Compressing and companding high dynamic range images with subband architectures. Conf. Tumblin, J., and Rushmeier, H. E. 1993. of Brain and Cognitive Sciences, and Computer Science and Artificial Intelligence Laboratory Massachusetts Institute of Technology, Cambridge, MA. PhD thesis, College of Computing Georgia Inst. High dynamic range (HDR) imaging is an area of increasing importance, but most display devices still have limited dynamic range (LDR). To manage your alert preferences, click on the button below. Method of compressing a dynamic range for a radiation image. Proc. A multiscale model of adaptation and spatial vision for realistic image display. Jobson, D. J., Rahman, Z., and Woodell, G. A. on Computer Vision, 836--846. ... No. paper file above, this figure has been corrected. Compressing Being 'undigital' with digital cameras: Extending dynamic range by combining differently exposed pictures. implemented. We tried various subband architectures, and found that analysis-synthesis architectures, such as QMFs, Haars, Laplacian pyramids, etc., work remarkably well when smooth gain maps are computed, allowing huge compression while keeping detail in both bright and dark regions and avoiding unnatural artifacts. Multi-scale image processing techniques, which are widely used for many image processing tasks, have a reputation of causing halo artifacts when used for range compression. Agency (NGA). Lcis: A boundary hierarchy for detail-preserving contrast reduction. In: State of the Art Reports, Eurographics (September), 101--123. Multiscale image processing techniques, which are widely used for many image Massachusetts Institute