Computer Graphics
TU Braunschweig

A Bidirectional Light Field - Hologram Transform


A Bidirectional Light Field - Hologram Transform

In this paper, we propose a novel framework to represent visual information. Extending the notion of conventional image-based rendering, our framework makes joint use of both light fields and holograms as complementary representations. We demonstrate how light fields can be transformed into holograms, and vice versa. By exploiting the advantages of either representation, our proposed dual representation and processing pipeline is able to overcome. In this paper, we propose a novel framework to represent visual information. Extending the notion of conventional image-based rendering, our framework makes joint use of both light fields and holograms as complementary representations. We demonstrate how light fields can be transformed into holograms, and vice versa. By exploiting the advantages of either representation, our proposed dual representation and processing pipeline is able to overcome the limitations inherent to light fields and holograms alone. We show various examples from synthetic and real light fields to digital holograms demonstrating advantages of either representation, such as speckle-free images, ghosting-free images, aliasing-free recording, natural light recording, aperture-dependent effects and real-time rendering which can all be achieved using the same framework. Capturing holograms under white light illumination is one promising application for future work. the limitations inherent to light fields and holograms alone. We show various examples from synthetic and real light fields to digital holograms demonstrating advantages of either representation, such as speckle-free images, ghosting-free images, aliasing-free recording, natural light recording, aperture-dependent effects and real-time rendering which can all be achieved using the same framework. Capturing holograms under white light illumination is one promising application for future work.


Author(s):Gernot Ziegler, Simon Bucheli, Lukas Ahrenberg, Marcus Magnor, Markus Gross
Published:September 2007
Type:Article in conference proceedings
Book:Proc. Eurographics
Presented at:Eurographics 2024


@inproceedings{ziegler2007hologram2,
  title = {A Bidirectional Light Field - Hologram Transform},
  author = {Ziegler, Gernot and Bucheli, Simon and Ahrenberg, Lukas and Magnor, Marcus and Gross, Markus},
  booktitle = {Proc. Eurographics},
  volume = {26},
  number = {3},
  pages = {435--446},
  month = {Sep},
  year = {2007}
}

Authors

  • Gernot Ziegler

    External
  • Simon Bucheli

    External
  • Lukas Ahrenberg

    External
  • Marcus Magnor

    Director, Chair
  • Markus Gross

    External