Online Tracking of Outdoor Lighting Variations for Augmented Reality with Moving Cameras

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Liu , Yanli; Granier , Xavier;
  • Publisher: Institute of Electrical and Electronics Engineers
  • Related identifiers: doi: 10.1109/TVCG.2012.53
  • Subject: [INFO.INFO-CV]Computer Science [cs]/Computer Vision and Pattern Recognition [cs.CV] | [ INFO.INFO-GR ] Computer Science [cs]/Graphics [cs.GR] | [ INFO.INFO-CV ] Computer Science [cs]/Computer Vision and Pattern Recognition [cs.CV] | [INFO.INFO-GR]Computer Science [cs]/Graphics [cs.GR]

International audience; In augmented reality, one of key tasks to achieve a convincing visual appearance consistency between virtual objects and video scenes is to have a coherent illumination along the whole sequence. As outdoor illumination is largely dependent on the... View more
  • References (33)
    33 references, page 1 of 4

    [1] M. Andersen, T. Jensen, and C. Madsen. Estimation of Dynamic Light Changes in Outdoor Scenes Without the use of Calibration Objects. In Int. Conf. Pattern Recognition (ICPR), pages 91-94. IEEE Computer Society, 2006.

    [2] K. Cornelis, M. Pollefeys, M. Vergauwen, L. V. Gool, and K. U. Leuven. Augmented reality using uncalibrated video sequences. In Lecture Notes in Computer Science, volume 2018, pages 144-160, 2001.

    [3] E. Eibenberger and E. Angelopoulou. Beyond the neutral interface reflection assumption in illuminant color estimation. In Proc. IEEE Int. Conf. Image Processing (ICIP), number 2, pages 4689-4692, 2010.

    [4] T. Haber and P. Bekaert. Image-Based Acquisition of Shape and Spatially Varying Reflectance. In British Machine Vision Conference (BMVC) - Poster, 2008.

    [5] K. Hara, K. Nishino, and K. Ikeuchi. Light Source Position and Reflectance Estimation from a Single View without the Distant Illumination Assumption. IEEE Trans. Pattern Anal. Mach. Intell., 27:493-505, 2005.

    [6] V. Havran, M. S. G. Krawczyk, K. Myskowski, and H.-P. Seidel. Interactive System for Dynamic Scene Lighting using Captured Video Environment Maps. In Proc. Eurographics Symposium on Rendering 2005, pages 31-42, 2005.

    [7] T.-Y. Ho, L. Wan, C.-S. Leung, P.-M. Lam, and T.-T. Wong. Unicube for dynamic environment mapping. IEEE Trans. Visualization and Comp. Graph., 17(1):51-63, 2011.

    [8] D. Hoiem, A. A. Efros, and M. Hebert. Recovering surface layout from an image. Int. J. Comp. Vision, 75(1):151-172, Oct. 2007.

    [9] K. Jacobs, A. H. Nielsen, J. Vesterbaek, and C. Loscos. Coherent radiance capture of scenes under changing illumination conditions for relighting applications. The Visual Comp., 26(3):171-185, 2010.

    [10] N. Jacobs, N. Roman, and R. Pless. Consistent Temporal Variations in Many Outdoor Scenes. In IEEE conf. Comp. Vision and Pattern Recognition (CVPR), pages 1-6. IEEE Computer Society, 2007.

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