Abstract
In this paper, a new experimental technique for generating anaglyph stereo images for three-dimensional visualization of sculpture arts is proposed. The images are taken at fixed distance using the imaging system consisting of single CCD camera and turntable. This system allows generation of stereo images at variable distances from the target object. The feasibility study of this technique is demonstrated by showing some anaglyph stereo images of a sculpture art.
Graphical Abstract
Similar content being viewed by others
References
Brown K (2007) The use of integral imaging to realize three dimensional images in true space. FLUCOME 2007 (Tallahassee), No. 160
Burge P (2007) Hidden pattern. J Vis 10(2):171–178
Dodgson NA (2004) Variation and extrema of human interpupillary distance. Proc SPIE (San Jose) 5291:36–46
Fujisawa N, Verhoeckx M, Dabiri D, Gharib M, Hertzberg J (2007) Recent progress in flow visualization techniques toward the generation of fluid art. J Vis 10(2):163–170
Fujisawa N, Brown K, Nakayama Y, Hyatty J, Corby T (2008) Visualization of scientific art and some examples of application. J Vis 11(4):387–394
Hertzberg J, Sweetman A (2005) Images of fluid flow: art and physics by students. J Vis 8(2):145–152
Ideses I, Yaroslavsky L (2005) Three methods that improve the visual quality of color anaglyphs. J Opt A Pure Appl Opt 7:755–762
Matsuura F, Fujisawa N (2008a) Application of anaglyph stereo visualization technique using depth information. J Vis 11(1):7
Matsuura F, Fujisawa N (2008b) Anaglyph stereo visualization by the use of a single image and depth information. J Vis 11(1):79–86
Sakashita R, Fujisawa N, Matsuura F, Takizawa K (2007) Anaglyph stereo visualization of rhythmical movements. J Vis 10(4):345–346
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Matsuura, F., Fujisawa, N. A new experimental technique for generating anaglyph stereo images for sculpture arts. J Vis 13, 257–261 (2010). https://doi.org/10.1007/s12650-009-0022-5
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s12650-009-0022-5