Emerging 3D Display Technologies


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Section 6 of the BYO3D SIGGRAPH 2010 Course

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Emerging 3D Display Technologies

  1. 1. Course Outline<br /><ul><li>Introduction: History and Physiology
  2. 2. Representation and Display
  3. 3. Glasses-bound Stereoscopic Displays
  4. 4. Unencumbered Automultiscopic Displays
  5. 5. Source Material: Rendering and Capture
  6. 6. Emerging Technology
  7. 7. Conclusion and Q & A</li></li></ul><li>Summary:<br />Glasses-bound Stereoscopic Displays<br />Immersive<br />Head-mounted<br />(blocks direct-viewing of real world)<br />(eyepiece-objective and microdisplay)<br />See-through<br />Glasses-bound<br />Stereoscopic<br />(superimposes synthetic images onto real world)<br />Spatially-multiplexed (field-concurrent)<br />Multiplexed <br />(color filters, polarizers, autostereograms, etc.)<br />(stereo pair with same display surface)<br />Temporally-multiplexed (field-sequential)<br />(LCD shutter glasses)<br />
  8. 8. Summary:<br />UnencumberedAutomultiscopic Displays<br />Parallax Barriers<br />Multi-planar<br />Static<br />(uniform array of 1D slits or 2D pinhole arrays)<br />(time-sequential projection onto swept surfaces)<br />(holographic films) <br />Integral Imaging<br />Transparent Substrates<br />Dynamic<br />(lenticular sheets or fly’s eye lenslet arrays)<br />(intersecting laser beams, fog layers, etc.)<br />(holovideo)<br />Parallax-based<br />(2D display with light-directing elements)<br />Unencumbered<br />Automultiscopic<br />Volumetric<br />(directly illuminate points within a volume)<br />Holographic<br />(reconstructs wavefront using 2D element)<br />
  9. 9. Recent Work:<br />NYU Autostereoscopic Display<br />Time-shifted Parallax Barriers<br />Varying-width Parallax Barriers<br />K. Perlin, S. Paxia, J. Kollin.An Autostereoscopic Display. ACM SIGGRAPH, 2000<br />K. Perlin, C. Poultney, J. Kollin, D. Kristjansson,S. Paxia. Recent Advances in the NYU Autostereoscopic Display. Proceedings of the SPIE, 2001<br />
  10. 10. Recent Work:<br />Dynallax and Cylindrical Varrier Displays<br />D. J. Sandin et al.The Varrier Autostereoscopic Virtual Reality Display. ACM SIGGRAPH, 2005<br />T. Peterka et al.Dynallax: Solid State Dynamic Parallax Barrier Autostereoscopic VR Display. IEEE Virtual Reality, 2007<br />
  11. 11. Recent Work:<br />Antialiasing for Automultiscopic 3D Displays<br />Reconstruction Filter Only<br />Combined Resampling Filter<br />M. Zwicker, W. Matusik, F. Durand, H. Pfister.Antialiasing for Automultiscopic 3D Displays. EGSR, 2006<br />
  12. 12. Recent Work:<br />An Interactive 360º Light Field Display<br />A. Jones, I. McDowall, H. Yamada, M. Bolas, P. Debevec.Rendering for an Interactive 360º Light Field Display. ACM SIGGRAPH, 2007<br />
  13. 13. Recent Work:<br />Zebra Imaging, Inc. and RabbitHoles Holdings Corp.<br />
  14. 14. Recent Work:<br />Conventional Parallax Barriers [Ives, 1903]<br />rear mask<br />front mask<br />
  15. 15. Recent Work:<br />Content-Adaptive Parallax Barriers<br />rear mask<br />front mask<br />Douglas Lanman1,2 Matthew Hirsch1<br />Yunhee Kim1 Szymon Jakubczak3 Ramesh Raskar1<br />1MIT Media Lab 2Brown University 3MIT CSAIL<br />Touchy-Feely Session<br />Thursday, 29 July | 3:45 PM - 5:15 PM | Theater 411<br />
  16. 16. Course Outline<br /><ul><li>Introduction: History and Physiology
  17. 17. Representation and Display
  18. 18. Glasses-bound Stereoscopic Displays
  19. 19. Unencumbered Automultiscopic Displays
  20. 20. Source Material: Rendering and Capture
  21. 21. Emerging Technology
  22. 22. Conclusion and Q & A</li></li></ul><li>Conclusion<br />Questions and Answers<br />{mhirsch, dlanman}@media.mit.edu<br />http://web.media.mit.edu/~mhirsch/byo3d/<br />
  23. 23. Thank you for attending.<br />Please come up front to look at the demos.<br />{mhirsch, dlanman}@media.mit.edu<br />http://web.media.mit.edu/~mhirsch/byo3d/<br />