Abstract
The color gamut of printing devices is generally smaller than that of imaging devices. Therefore, vivid color images cannot be reproduced on printed materials. This paper proposes a color gamut extension system for printed images by using a projector-camera system. The proposed system can capture a printed image using a video camera and extend the color gamut of the printed image by super-imposing a compensation image obtained from a projector device on the printed image. The compensation image is produced in the hue, saturation, and value (HSV) color space for iteratively adjusting the saturation and brightness values toward the boundary of the color gamut in the projector-camera system at each pixel. The feasibility of the proposed system is verified by experiments performed using real printed images.
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References
Kotera, H., Mita, T., Hung-Shing, C., Saito, R.: Image-dependent gamut compression extension. In: Image Processing, Image Quality, Image Capture Systems Conferences, vol. 4, pp. 288–292 (2001)
Kang, B., Morovic, J., Luo, M., Cho, M.: Gamut compression and extension algorithms based on observer experimental data. ETRI J. 25, 156–170 (2003)
Kim, M., Shin, Y., Song, Y.L., Kim, I.: Wide gamut multi-primary display for HDTV. In: European Conference on Colour in Graphics, Imaging, and Vision, pp. 248–253 (2004)
Laird, J., Muijs, R., Kuang, J.: Development and evaluation of gamut extension algorithms. Color Research and Applications 34, 443–451 (2009)
Tsukada, M., Tajima, J.: Projector color reproduction adapted to the colored wall projection. In: European Conference on Colour in Graphics, Imaging, and Vision, pp. 449–453 (2004)
Grossberg, M., Peri, H., Nayar, S., Belhumeur, P.: Making one object look like another: Controlling appearance using a projector-camera system. In: IEEE Conference on Computer Vision and Pattern Recognition, vol. 1, pp. 452–459 (2004)
Bimber, O., Wetzstein, G., Emmerling, A., Nitschke, C., Grundhofer, A.: Enabling view-dependent stereoscopic projection in real environments. In: IEEE International Symposium on Mixed and Augmented Reality, pp. 14–23 (2005)
Renani, S., Tsukada, M., Hardeberg, J.: Compensating for non-uniform screens in projection display systems. In: SPIE Electronic Imaging, Color Imaging XIV: Displaying, Hardcopy, Processing, and Applications, vol. 7241 (2009)
Fujii, K., Grossberg, M., Nayar, S.: Projector-camera system with real-time photometric adaptation for dynamic environment. In: IEEE Conference on Computer Vision and Pattern Recognition, vol. 1, pp. 814–821 (2005)
Johnson, T., Fuchs, H.: Real-time projector tracking on complex geometry using ordinary imagery. In: IEEE Conference on Computer Vision and Pattern Recognition Workshop, pp. 1–8 (2007)
Amano, T., Kato, H.: Appearance enhancement using a projector-camera feedback system. In: IEEE International Conference on Pattern Recognition, pp. 1–4 (2008)
Zhang, Z.: A flexible new technique for camera calibration. IEEE Trans. Pattern Anal. and Machine Intell. 22, 1330–1334 (2000)
Smith, A.: Color gamut transform pairs. ACM SIGGRAPH Computer Graphics 12, 12–19 (1978)
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Horiuchi, T., Uno, M., Tominaga, S. (2010). Color Gamut Extension by Projector-Camera System. In: Bebis, G., et al. Advances in Visual Computing. ISVC 2010. Lecture Notes in Computer Science, vol 6453. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-17289-2_18
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DOI: https://doi.org/10.1007/978-3-642-17289-2_18
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-17288-5
Online ISBN: 978-3-642-17289-2
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