A Framework for Manipulating Multi-Perspective Image Using A Parametric Surface
Pages 181 - 188
Abstract
We have designed a framework for manipulating multi-perspective images. In this paper, we present (1) an accelerated multi-perspective rendering method, (2) a parametric surface based multi-perspective camera control method and (3) an interface to manipulate multi-perspective images. Our camera control method can express transition of camera parameters by deforming the parametric surface and manipulating control points. Our rendering method performs about 2.5 times faster than the previous method at best. We also show two application examples utilizing our methods.
References
[1]
A. Agarwala, M. Agrawala, M. Cohen, D. Salesin, and R. Szeliski. Photographing long scenes with multi-viewpoint panoramas. ACM Trans. Graph., 25(3):853--861, 2006.
[2]
M. Agrawala, D. Zorin, and T. Munzner. Artistic multiprojection rendering. In Proceedings of the Eurographics Workshop on Rendering Techniques, pages 125--136, 2000.
[3]
S. Guy and C. Soler. Graphics gems revisited: Fast and physically-based rendering of gemstones. ACM Trans. Graph., 23(3):231--238, 2004.
[4]
Z. S. Hakura, J. M. Snyder, and J. E. Lengyel. Parameterized environment maps. In Proceedings of the 2001 Symposium on Interactive 3D Graphics (I3D '01), pages 203--208, 2001.
[5]
X. Hou, L.-Y. Wei, H.-Y. Shum, and B. Guo. Real-time multi-perspective rendering on graphics hardware. In Proceedings of the 17th Eurographics Conference on Rendering Techniques, EGSR '06, pages 93--102, 2006.
[6]
W.-H. Hsu, K.-L. Ma, and C. Correa. A rendering framework for multiscale views of 3d models. ACM Trans. Graph., 30(6):131:1--131:10, Dec. 2011.
[7]
A. Khan, B. Komalo, J. Stam, G. Fitzmaurice, and G. Kurtenbach. Hovercam: Interactive 3d navigation for proximal object inspection. In Proceedings of the 2005 Symposium on Interactive 3D Graphics and Games, I3D '05, pages 73--80, 2005.
[8]
J. Kopf, M. Uyttendaele, O. Deussen, and M. F. Cohen. Capturing and viewing gigapixel images. ACM Trans. Graph., 26(3), 2007.
[9]
S. Kuthirummal and S. K. Nayar. Multiview radial catadioptric imaging for scene capture. ACM Trans. Graph., 25(3):916--923, 2006.
[10]
C. Mei, V. Popescu, and E. Sacks. The occlusion camera. Computer Graphics Forum, 24:335--342, 2005.
[11]
E. Ofek and A. Rappoport. Interactive reflections on curved objects. In Proceedings of the 25th Annual Conference on Computer Graphics and Interactive Techniques (SIGGRAPH '98), pages 333--342, 1998.
[12]
S. Pasewaldt, M. Trapp, and J. Döllner. Multi-perspective detail+overview visualization for 3d building exploration. In Proceedings of 11th Theory and Practice of Computer Graphics 2013 Conference (TP.CG.2013), pages 57--64, 2013.
[13]
V. Popescu, P. Rosen, and N. Adamo-Villani. The graph camera. ACM Trans. Graph., 28(5):158:1--158:8, 2009.
[14]
P. Rademacher and G. Bishop. Multiple-center-of-projection images. In Proceedings of the 25th Annual Conference on Computer Graphics and Interactive Techniques, SIGGRAPH '98, pages 199--206, 1998.
[15]
A. Roman, G. Garg, and M. Levoy. Interactive design of multi-perspective images for visualizing urban landscapes. In Proceedings of the Conference on Visualization '04, VIS '04, pages 537--544, 2004.
[16]
S. M. Seitz and J. Kim. Multiperspective imaging. IEEE Comput. Graph. Appl., 23(6):16--19, 2003.
[17]
H.-Y. Shum and R. Szeliski. Construction of panoramic mosaics with global and local alignment. International Journal of Computer Vision, 36(2):101--130, 2000.
[18]
S. Vallance and P. Calder. Rendering multi-perspective images with trilinear projection. In Proceedings of the 29th Australasian Computer Science Conference (ACSC '06) - Volume 48, pages 227--235, 2006.
[19]
M. Wand and W. Straßer. Real-time caustics. Comput. Graph. Forum, 22(3):611--620, 2003.
[20]
D. N. Wood, A. Finkelstein, J. F. Hughes, C. E. Thayer, and D. H. Salesin. Multiperspective panoramas for cel animation. In Proceedings of the 24th Annual Conference on Computer Graphics and Interactive Techniques (SIGGRAPH '97), pages 243--250, 1997.
[21]
C. Wyman. Interactive image-space refraction of nearby geometry. In Proceedings of the 3rd International Conference on Computer Graphics and Interactive Techniques in Australasia and Southeast Asia 2005, pages 205--211, 2005.
[22]
C. Wyman and S. Davis. Interactive image-space techniques for approximating caustics. In Proceedings of the 2006 Symposium on Interactive 3D Graphics and Games (I3D '06), pages 153--160, 2006.
[23]
J. Ye and J. Yu. Ray geometry in non-pinhole cameras: a survey. The Visual Computer, 30(1):93--112, 2014.
[24]
J. Yu and L. McMillan. A framework for multiperspective rendering. In Proceedings of the Fifteenth Eurographics Conference on Rendering Techniques, EGSR'04, pages 61--68, 2004.
[25]
J. Yu and L. McMillan. General linear cameras. In Computer Vision - ECCV 2004, pages 14--27. 2004.
[26]
J. Yu and L. McMillan. Modelling reflections via multiperspective imaging. In 2005 IEEE Computer Society Conference on Computer Vision and Pattern Recognition (CVPR 2005), pages 117--124, 2005.
[27]
J. Yu, L. McMillan, and P. Sturm. Multi-perspective modelling, rendering and imaging. Computer Graphics Forum, 29(1):227--246, 2010.
- A Framework for Manipulating Multi-Perspective Image Using A Parametric Surface
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Information & Contributors
Information
Published In
May 2016
200 pages
ISBN:9781450347457
DOI:10.1145/2915926
- Conference Chairs:
- Nadia Magnenat Thalmann,
- Marina L. Gavrilova,
- Program Chairs:
- Taku Komura,
- Frederic Cordier,
- Daniel Thalmann
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Published: 23 May 2016
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