Advanced search
Publication Cover
Journal of Information Display Volume 24, 2023 - Issue 4
Submit an article Journal homepage
1,543
Views
0
CrossRef citations to date
0
Altmetric
Articles

Constructing physical space design for high color gamut in mixed reality environment

Jihyung Kima Future IT Innovation Laboratory, Pohang University of Science and Technology (POSTECH), Pohang, Republic of KoreaView further author information
,
Jonghyeon Kab Department of Electrical Engineering, Pohang University of Science and Technology (POSTECH), Pohang, Republic of KoreaView further author information
,
Ju Hong Parkc Department of Convergence IT Engineering, Pohang University of Science and Technology (POSTECH), Pohang, Republic of KoreaView further author information
&
Wooksung Kimb Department of Electrical Engineering, Pohang University of Science and Technology (POSTECH), Pohang, Republic of KoreaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-0305-5213View further author information
ORCID Icon
Pages 227-237 | Received 18 Jan 2023, Accepted 22 Mar 2023, Published online: 09 Apr 2023

References

  • J. Kim, S.W. Oh, J. Choi, S. Park, and W. Kim, Optical see-through head-mounted display including transmittance-variable display for high visibility, J. Inf. Disp. 23 (2), 121–127 (2022).
  • J. Kim, S. Park, and W. Kim, A structure of optical see-through head mounted display, 2020 International Conference on Electronics, Information, and Communication (ICEIC), IEEE, 2020. p. 1–3.
  • Y. Wang, Z. Su, N. Zhang, R. Xing, D. Liu, T.H. Luan, and X. Shen, A survey on metaverse: Fundamentals, security, and privacy, IEEE Communications Surveys & Tutorials, 2022.
  • J. Han, J. Heo, and E. You, Analysis of metaverse platform as a new play culture: Focusing on roblox and ZEPETO, CEUR Workshop Proceedings 3026, 27–36, 2021.
  • J.J. Cummings, and J.N. Bailenson, How Immersive Is Enough? A Meta-Analysis of the Effect of Immersive Technology on User Presence, Media Psychology 19 (2), 272–309 (2016).
  • B. Laha, K. Sensharma, J.D. Schiffbauer, and D.A. Bowman, Effects of Immersion on Visual Analysis of Volume Data, IEEE Trans. Visual. Comput. Graphics 18 (4), 597–606 (2012).
  • Y.F. Wang, S. Petrina, and F. Feng, VILLAGE—Virtual Immersive Language Learning and Gaming Environment: Immersion and Presence, Br. J. Educ. Technol. 48 (2), 431–450 (2017).
  • M. Slater, V. Linakis, M. Usoh, and R. Kooper, Immersion, presence and performance in virtual environments: An experiment with tri-dimensional chess, Proceedings of the ACM Symposium on Virtual Reality Software and Technology, 163–172, 1996.
  • M. Slater, and S. Wilbur, A Framework for Immersive Virtual Environments (FIVE): Speculations on the Role of Presence in Virtual Environments, Presence: Teleoperators Virtual Environ. 6 (6), 603–616 (1997).
  • M. Slater, A note on presence terminology, Presence connect 3 (3), 1–5 (2003).
  • Agrewal, S., Simon, A.M.D., Bech, S., Bærentsen, K.B. and Forchammer, S., Defining immersion: Literature review and implications for research on audiovisual experiences, J. Audio Eng. Soc. 68 (6), 404–417 (2020).
  • I. Uspenski, and J. Guga, Embodying Metaverse as artificial life: At the intersection of media and 4E cognition theories, Filozofija i drustvo 33 (2), 326–345 (2022).
  • J. Keil, D. Edler, T. Schmitt, and F. Dickmann, Creating Immersive Virtual Environments Based on Open Geospatial Data and Game Engines, KN – J. Cartography Geog. Inf. 71 (1), 53–65 (2021).
  • T. Rose, C.S. Nam, and K.B. Chen, Immersion of virtual reality for rehabilitation - Review, Appl. Ergon. 69, 153–161 (2018).
  • Y. Itoh, T. Langlotz, J. Sutton, and A. Plopski, Towards Indistinguishable Augmented Reality, ACM Comput. Surv. 54 (6), 1–36 (2022).
  • H.J. Jang, J.Y. Lee, G.W. Baek, J. Kwak, and J.H. Park, Progress in the development of the display performance of AR, VR, QLED and OLED devices in recent years, J. Inf. Disp. 23 (1), 1–17 (2022).
  • H.J. Jang, J.Y. Lee, J. Kwak, D. Lee, J.H. Park, B. Lee, and Y.Y. Noh, Progress of display performances: AR, VR, QLED, OLED, and TFT, J. Inf. Disp. 20 (1), 1–8 (2019).
  • J.L. Gabbard, J.E. Swan, J. Zedlitz, and W.W. Winchester, More than meets the eye: An engineering study to empirically examine the blending of real and virtual color spaces, 2010 IEEE Virtual Reality Conference (VR), 79–86, 2010.
  • J.D. Hincapié-Ramos, L. Ivanchuk, S.K. Sridharan, and P. Irani, SmartColor: Real-time color correction and contrast for optical see-through head-mounted displays, 2014 IEEE International Symposium on Mixed and Augmented Reality (ISMAR), 187–194, 2014.
  • C. Weiland, A.K. Braun, and W. Heiden, Colorimetric and photometric compensation for op- tical see-through displays, International Conference on Universal Access in Human- Computer Interaction, 603–612, 2009.
  • Y. Zhang, R. Wang, Y. Peng, W. Hua, and H. Bao, Color Contrast Enhanced Rendering for Optical See-Through Head-Mounted Displays, IEEE Trans. Visual. Comput. Graphics 28 (12), 4490–4502 (2022).
  • K. Kiyokawa, M. Billinghurst, B. Campbell, and E. Woods, An occlusion capable optical see-through head mount display for supporting co-located collaboration, The Second IEEE and ACM International Symposium on Mixed and Augmented Reality, 2003. Proceedings, 133–141, 2003.
  • K. Kiyokawa, Y. Kurata, and H. Ohno, An optical see-through display for mutual occlusion of real and virtual environments, Proceedings IEEE and ACM International Symposium on Augmented Reality (ISAR 2000), 60–67, 2000.
  • Y. Yamaguchi, and Y. Takaki, See-through integral imaging display with background occlusion capability, Appl. Optics 55 (3), A144–149 (2016).
  • B. Krajancich, N. Padmanaban, and G. Wetzstein, Factored Occlusion: Single Spatial Light Modulator Occlusion-capable Optical See-through Augmented Reality Display, IEEE Trans. Visual. Comput. Graphics 26 (5), 1871–1879 (2020).
  • Y.G. Ju, M.H. Choi, P. Liu, B. Hellman, T.L. Lee, Y. Takashima, and J.H. Park, Occlusion-capable optical-see-through near-eye display using a single digital micromirror device, Opt. Lett. 45 (13), 3361–3364 (2020).
  • M. Chae, K. Bang, Y. Jo, C. Yoo, and B. Lee, Occlusion-capable see-through display without the screen-door effect using a photochromic mask, Opt. Lett. 46 (18), 4554–4557 (2021).
  • Y. Zhang, X. Hu, K. Kiyokawa, N. Isoyama, N. Sakata, and H. Hua, Optical see-through augmented reality displays with wide field of view and hard-edge occlusion by using paired conical reflectors, Opt. Lett. 46 (17), 4208–4211 (2021).
  • A. Ghosh, I. Khayrullin, Q. Wang, F. Vazan, T. Ali, I. Wacyk, K. Tice, and L. Sziklas, 3.1: Invited Paper: OLED Micro-displays for VR/AR Applications, SID International Symposium Digest of Technical Papers, 2019; 50(S1):26–27.
  • H. Chen, G. Tan, and S.T. Wu, 74-1: Invited Paper: Can LCDs Outperform OLED Displays in Ambient Contrast Ratio?, SID International Symposium Digest of Technical Papers, 2018; 49(1):981–984.
  • X. Mou, and J. Wang, 38-3: Evaluating Augmented Reality (AR) Eyewear Display Under Ambient Environment, SID International Symposium Digest of technical papers, 2019.
  • Kim JS, Lee SW. Study on how to improve visibility of transparent display for augmented reality under various environment conditions. Opt. Express. 2020;28(2):2060–2069.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.