ETRI Journal

Electronics and Telecommunications Research Institute (한국전자통신연구원)
권호 표지

Computational Technique of Volumetric Object Reconstruction in Integral Imaging by Use of Real and Virtual Image Fields

  • Shin, Dong-Hak (3D Display Research Center, the School of Electronic Engineering, Kwangwoon University) ;
  • Cho, Myung-Jin (Digital Media Part of Samsung Electronics Co., Ltd) ;
  • Park, Kyu-Chil (Department of Electronic, Computer and Telecommunication Engineering, Pukyong National University) ;
  • Kim, Eun-Soo (3D Display Research Center, the School of Electronic Engineering, Kwangwoon University)
  • Received : 2004.12.20
  • Published : 2005.12.31
Download PDF
⟨ Previous Next ⟩

Abstract

We propose a computational reconstruction technique in large-depth integral imaging where the elemental images have information of three-dimensional objects through real and virtual image fields. In the proposed technique, we reconstruct full volume information from the elemental images through both real and virtual image fields. Here, we use uniform mappings of elemental images with the size of the lenslet regardless of the distance between the lenslet array and reconstruction image plane. To show the feasibility of the proposed reconstruction technique, we perform preliminary experiments and present experimental results.

Keywords

References

  1. Comptes-Rendus Academie des Sciences v.146 La Photographie Integrale Lippmann, G.
  2. J. Opt. Soc. Am. v.21 Optical Properties of a Lippmann Lenticulated Sheet Ives, H.E.
  3. Opt. Eng. v.33 Design and Analysis of an Image Transfer System Using Microlens Arrays Davies, N.;McCormick, M.;Brewin, M.
  4. Appl. Opt. v.36 Real-Time Pickup Method for a Three-Dimensional Image Based on Integral Photography Okano, F.;Hoshino, H.;Arai, J.;Yuyama, I.
  5. Opt. Lett. v.27 Improved Viewing Resolution of Three-Dimensional Integral Imaging with Nonstationary Micro-Optics Jang, J.S.;Javidi, B.
  6. Appl. Opt. v.42 Enhanced Three-Dimensional Integral Imaging System by Use of Double Display Devices Min, S.W.;Javidi, B.;Lee, B.
  7. Appl. Opt. v.40 High-Resolution Digital Integral Photography by Use of a Scanning Microlens Array Erdmann, L.;Gabriel, K.J.
  8. Opt. Exp. v.12 High-Quality Integral Videography Using a Multiprojector Liao, H.;Iwahara, M.;Hata, N.;Dohi, T.
  9. ETRI J. v.27 Computational Implementation of Asymmetric Integral Imaging by Use of Two Crossed Lenticular Sheets Shin, D.H.;Cho, M.;Kim, E.S.
  10. Appl. Opt. v.43 Integral Imaging with Improved Depth of Field by Use of Amplitude Modulated Microlens Array Martinez-Corral, M.;Javidi, B.;Martines Cuenca, R.;Saavedra, G.
  11. Opt. Lett. v.30 Three-Dimensional Display with a Long Viewing Distance by Use of Integral Photography Liao, H.;Iwahara, M.;Katayama, Y.;Hata, N.;Dohi, T.
  12. Opt. Exp. v.13 3D Integral Imaging Using Diffractive Fresnel Lens Arrays Hain, M.;Spiegel, W.;Schmiedchen, M.;Tschudi, T.;Javidi, B.
  13. Opt. Lett. v.28 Three-Dimensional Integral Imaging with Large Depth of Focus Using Real and Virtual Image Fields Jang, J.S.;Jin, F.;Javidi, B.
  14. Opt. Lett. v.29 Effects of Device Resolution on Three-Dimensional Integral Imaging Jin, F.;Jang, J.S.;Javidi, B.
  15. Opt. Lett. v.26 Integral Three-Dimensional Imaging with Digital Reconstruction Arimoto, H.;Javidi, B.
  16. J. Opt. Soc. Am. A v.22 Multifacet Structure of Observed Reconstructed Integral Images Martinez-Corral, M.;Javidi, B.;Martines Cuenca, R.;Saavedra, G.
  17. Appl. Opt. v.41 Digital Three-Dimensional Image Correlation by Use of Computer-Reconstructed Integral Imaging Frauel, Y.;Javidi, B.
  18. Opt. Exp. v.12 Three-Dimensional Volumetric Object Reconstruction Using Computational Integral Imaging Hong, S.;Jang, J.S.;Javidi, B.
  19. Opt. Expr. v.8 3-D Computer Graphics Based on Integral Photography Naemura, T.;Yoshida, T.;Harashima, H.