Analysis and compensation of spatial distortion in integral three-dimensional imaging

  • Authors:

  • Hisayuki Sasaki;Masahiro Kawakita;Jun Arai;Makoto Okui;Fumio Okano;Yasuyuki Haino;Makoto Yoshimura;Masahito Sato

  • Affiliations:

  • NHK Science & Technology Research Labs, Kinuta Setagaya Tokyo, Japan;NHK Science & Technology Research Labs, Kinuta Setagaya Tokyo, Japan;NHK Science & Technology Research Labs, Kinuta Setagaya Tokyo, Japan;NHK Science & Technology Research Labs, Kinuta Setagaya Tokyo, Japan;NHK Engineering Services, Inc., Kinuta Setagaya Tokyo, Japan;JVC KENWOOD Holdings, Inc., Shinmei-cho Yokosuka Kanagawa, Japan;JVC KENWOOD Holdings, Inc., Shinmei-cho Yokosuka Kanagawa, Japan;JVC KENWOOD Holdings, Inc., Shinmei-cho Yokosuka Kanagawa, Japan

  • Venue:
  • Proceedings of the 3rd International Universal Communication Symposium
  • Year:
  • 2009

Quantified Score

Hi-index 0.00

Visualization

Abstract

We have been conducting research on three-dimensional (3D) television using the integral imaging method. To enhance integral 3D image quality, Extremely High-Resolution (EHR) imaging technology would be essential. Now, projection display systems are practical for EHR images and have some advantages for 3D imaging. We theoretically and experimentally analyzed the effects of distorted elemental images on a reconstructed image. We study an image processing method for a compensation of distorted elemental images in projection type 3D imaging systems. The experimental results show the effectiveness in eliminating distortion of reconstructed 3D images and improving the limitation of the viewing zone.