Abstract
One of the common issues of virtual reality systems regardless if they are head mounted or projection based is that they cannot provide correct perspective views to more than one user. This limitation increases collaboration times and reduces usability of such systems. Lenticular lenses have been previously used to separate users in multi-user VR systems. On this paper we present an assessment of the area of interaction of users in a multi-user VR system that uses lenticular lenses.
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References
Brar, R.S., et al.: Laser-based head-tracked 3D display research. J. Display Technol. 6(10), 531–543 (2010)
Brar, R.S., Surman, P., Sexton, I., Hopf, K.: Multi-user glasses free 3D display using an optical array. In: 2010 3DTV-Conference: The True Vision-Capture, Transmission and Display of 3D Video (3DTV-CON), pp. 1–4. IEEE (2010)
Kooima, R., Prudhomme, A., Schulze, J., Sandin, D., DeFanti, T.: A multi-viewer tiled autostereoscopic virtual reality display. In: proceedings of the 17th ACM Symposium on Virtual Reality Software and Technology, pp. 171–174. ACM (2010)
LenstarLenticular: Possible lenticular effects, December 2018. https://www.lenstarlenticular.com/lenticular-effects/. Accessed 15 Dec 2018
Lipton, L., Feldman, M.H.: New autostereoscopic display technology: the synthaGram. In: Stereoscopic Displays and Virtual Reality Systems IX, vol. 4660, pp. 229–236. Intl Society for Optics and Photonics (2002)
Little, G.R., Gustafson, S.C., Nikolaou, V.E.: Multiperspective autostereoscopic display. In: Cockpit Displays, vol. 2219, pp. 388–395. Intl Society for Optics and Photonics (1994)
Matsumoto, K., Honda, T.: Research of 3D display using anamorphic optics. In: Stereoscopic Displays and Virtual Reality Systems IV, vol. 3012, pp. 199–208. Intl Society for Optics and Photonics (1997)
Matusik, W., Pfister, H.: 3D TV: a scalable system for real-time acquisition, transmission, and autostereoscopic display of dynamic scenes. In: ACM Transactions on Graphics (TOG), vol. 23, pp. 814–824. ACM (2004)
Munoz-Arango, J.S., Reiners, D.: Analyzing pixel spread correlation with lenticular lens efficiency on multi user VR displays. In: WSCG, p. 10. ACM (2019)
Munoz-Arango, J.S., Reiners, D., Cruz-Neira, C.: Maximizing lenticular lens performance for multi user VR displays. In: Laval Virtual, p. 10. ACM (2019)
Nguyen, D., Canny, J.: Multiview: spatially faithful group video conferencing. In: Proceedings of the SIGCHI Conference on Human Factors in Computing Systems, pp. 799–808. ACM (2005)
Nguyen, D.T., Canny, J.: Multiview: improving trust in group video conferencing through spatial faithfulness. In: Proceedings of the SIGCHI Conference on Human Factors in Computing Systems, pp. 1465–1474. ACM (2007)
Omura, K., Shiwa, S., Miyasato, T.: Lenticular autostereoscopic display system: multiple images for multiple viewers. J. Soc. Inf. Disp. 6(4), 313–324 (1998)
Pollock, B., Burton, M., Kelly, J.W., Gilbert, S., Winer, E.: The right view from the wrong location: depth perception in stereoscopic multi-user virtual environments. IEEE Trans. Vis. Comput. Graph. 4, 581–588 (2012)
Surman, P., et al.: Head tracked single and multi-user autostereoscopic displays (2006)
Takaki, Y.: Thin-type natural three-dimensional display with 72 directional images. In: Stereoscopic Displays and Virtual Reality Systems XII, vol. 5664, p. 56. Intl Society for Optics and Photonics (2005)
Takaki, Y.: Super multi-view display with 128 viewpoints and viewpoint formation. In: Stereoscopic Displays and Applications XX, vol. 7237, p. 72371T. Intl Society for Optics and Photonics (2009)
Takaki, Y., Nago, N.: Multi-projection of lenticular displays to construct a 256-view super multi-view display. Opt. Express 18(9), 8824–8835 (2010)
Takaki, Y., Yokoyama, O., Hamagishi, G.: Flat panel display with slanted pixel arrangement for 16-view display. In: Stereoscopic Displays and Applications XX, vol. 7237, p. 723708. Intl Society for Optics and Photonics (2009)
Van Berkel, C.: Image preparation for 3D LCD. In: Stereoscopic Displays and Virtual Reality VI, vol. 3639, pp. 84–92. Intl Society for Optics and Photonics (1999)
Van Berkel, C., Clarke, J.A.: Characterization and optimization of 3D-LCD module design. In: Stereoscopic Displays and Virtual Reality IV, vol. 3012, pp. 179–187. Intl Society for Optics and Photonics (1997)
Zang, S.F., Wang, Q.H., Zhao, W.X., Zhang, J., Liang, J.L.: A frontal multi-projection autostereoscopic 3D display based on a 3D-image-guided screen. J. Display Technol. 10(10), 882–886 (2014)
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Munoz-Arango, J.S., Reiners, D., Cruz-Neira, C. (2019). Physical Space Performance Mapping for Lenticular Lenses in Multi-user VR Displays. In: Gavrilova, M., Chang, J., Thalmann, N., Hitzer, E., Ishikawa, H. (eds) Advances in Computer Graphics. CGI 2019. Lecture Notes in Computer Science(), vol 11542. Springer, Cham. https://doi.org/10.1007/978-3-030-22514-8_45
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