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基于相机的多投影光度补偿系统 被引量:3

Camera-based multi-projector radiometric compensation system
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摘要 现有关于光度补偿的研究主要基于单投影,可在带有纹理和颜色的表面上进行投影显示。而在多投影系统中,由于多投影带来了重叠区域的光度不一致性,相机的每个像素覆盖的区域增大等问题,容易致使光度补偿失败。介绍一种基于相机的多投影光度补偿系统,虽然也是通过获取环境参数的手段,但提出一种方便快捷的迭代方式来提高投影表面反射率参数的获取精度,可以达到更好的效果,并仅需对投影区域捕捉两幅以上图像。同时,对多投影仪重叠区域的融合效果也做了改进,统一解决了光度补偿和投影拼接问题。最后,提供的实验结果表明有较好的改进效果。 Single projector radiometric compensation technique has made it possible for a projector to display on ordinary surface with colors and textures. However, when applying these methods to multi-projectors, many issues will happen, including the inconsistence in intensity of the overlapping areas, region expansion of a single pixel, all of which will lead to failure of the compensation. This paper presents a multi-projector and camera system with the ability of geometry correction, radiometric compensation and photometric consistency and solves the problems as mentioned. We use a convenient and iterative way to obtain more precise parameter of the reflection property for the projecting surface. This only considers two or more pictures of the projecting-surface, so that it can provide much better compensation results. We also improve the blending effects of the overlapped areas of multi-projectors and thus provide a unified solution for radiometric compensation and photometric inconsistency when displaying on non-optimized surfaces with multi-projectors. Experiments indicate the improvements of the new method compared to the original algorithm.
出处 《中国图象图形学报》 CSCD 北大核心 2011年第3期342-349,共8页 Journal of Image and Graphics
基金 国家高技术研究发展计划(863)项目(2006AA01Z307)
关键词 迭代补偿 光度补偿 光度融合 多投影系统 iterative compensation intensity blending radiometric compensation multi-projector system
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参考文献8

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同被引文献41

  • 1王修晖,华炜,鲍虎军.多投影显示墙的全局颜色校正[J].计算机辅助设计与图形学学报,2007,19(1):96-101. 被引量:18
  • 2陈锐,李辉,侯义斌,黄樟钦.由人脸朝向驱动的多方向投影交互系统[J].小型微型计算机系统,2007,28(4):706-709. 被引量:7
  • 3SAJADI B, MAJUMDER A. Autocalibration of muhiprojector CA- VE-like immersive environments[ J]. [EEE Transactions on Visual- ization and Computer Graphics, 2012, 18(3): 381 -393.
  • 4SAJADI B, LAZAROV M, GOPI M, et al. Color seamlessness in multi-projector displays using constrained gamut morphing[ J]. IEEE Transactions on Visualization and Computer Graphics, 2009, 15(6) : 1317 - 1326.
  • 5BHASKER E S, SINHA P, MAJUMDER A. Asynchronous distribu- ted calibration for scalable and reconfigurable multi-projector dis- plays[ J]. IEEE Transactions on Visualization and Computer Graph- ics, 2006, 12(5) : 1101 - 1108.
  • 6SAJADI B, MAJUMDER A. At, tocalibrating tiled projectors on piecewise smooth vertically extruded surfaces[ J]. IEEE Transac- tions on Visulization and Computer Graphics, 2011, 17 (9) : 1209 - 1222.
  • 7OKATANI T, DEGUCHI K. Easy calibration of a multi-projector display system[J]. International Journal of Computer Vision, 2009, 85(1): 1-18.
  • 8SAJADI B, MAJUMDER A. Automatic registration of muhi-projec- tor domes using a single unealibrated camera[ C]// Proceedings of the 13th Eurographics / IEEE - VGTC Conference on Visualiza- tion. Aire-la-Ville, Switzerland: Eurograpbics Association, 2011: 1161 - 1170.
  • 9LINCOLN P, WELCH G, FUCHS H. Continual surface-based multi-projector blending for moving objects [ C]// Proceedings of the 2011 IEEE Virtual Reality Conference. Piscataway, NJ: IEEE Press, 2011:115 -118.
  • 10ZOIDO C, MAROTO J, ROMERO G, et al. Optimized methods for muhi-projector display correction[ J]. International Journal on Interactive Design and Manufacturing, 2012, 7 (1) : 13 - 25.

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