Browse > Article

라이트필드 및 홀로그램 기반 근안 디스플레이 기술 동향  

Park, Jae-Hyeong (인하대학교)
Publication Information
Broadcasting and Media Magazine / v.24, no.2, 2019 , pp. 39-52 More about this Journal
Keywords
Citations & Related Records
연도 인용수 순위
  • Reference
1 Y.-H. Lee, G. Tan, K. Yin, T. Zhan, and S.-T. Wu, "Compact see-through near-eye display with depth adaption," J. Soc. Inform. Disp. 26, 64, (2018).   DOI
2 C. Yoo, K. Bang, C. Jang, D. Kim, C.-K. Lee, G. Sung, H.-S. Lee, and B. Lee, "Dual-focus waveguide see-through neareye display with polarization dependent lenses,"Opt. Lett. 44, 1920, (2019).   DOI
3 D. Kim, S. Lee, S. Moon, J. Cho, Y. Jo, and B. Lee, "Hybrid multi-layer displays providing accommodation cues," Opt. Express 26, 17170, (2018).   DOI
4 S. Lee, Y. Jo, D. Yoo, J. Cho, D. Lee, and B. Lee, "Tomoreal: Tomographic displays," arXiv preprint arXiv:1804.04619 (2018).
5 T. Ueno, and Y. Takaki, "Super multi-view near-eye display to solve vergence-accommodation conflict," Opt. Express 26, 30703, (2018).   DOI
6 S.-B. Kim and J.-H. Park, "Optical see-through Maxwellian near-to-eye display with an enlarged eyebox," Opt. Lett. 43, 767, (2018).   DOI
7 J.-H. Park, "Recent progresses in computer generated holography for three-dimensional scene," J. Inform. Display 18, 1, (2017).   DOI
8 J. S. Hong, Y. M. Kim, S. H. Hong, C. S. Shin, and H. J. Kang, "Gaze contingent hologram synthesis for holographic head-mounted-display,"Proc. SPIE 9771, 97710K6, (2016).
9 Y.-G. Ju, and J.-H. Park, "Fast generation of mesh based CGH in head-mounted displays using foveated rendering technique," Digital Holography and 3-D Imaging (DH 2018), OSA Imaging and Applied Optics Congress, Wyndham Orlando Resort International Drive, Orlando, FL, USA, paper DTu5F.6, June 2018.
10 https://www.magicleap.com/press-resources
11 https://www.microsoft.com/en-us/hololens/hardware
12 J. Hong, Y. Kim, H.-J. Choi, J. Hahn, J.-H. Park, H. Kim, S.-W. Min, N. Chen, and B. Lee, "Three-dimensional display technologies of recent interest: principles, status, and issues," Appl. Opt. 50, H87, (2011).   DOI
13 S. J. Watt, K. Akeley, M. O. Ernst, and M. S. Banks, "Focus cues affect perceived depth," J. Vis. 5, 7, (2005).
14 T. Shibata, J. Kim, D.M. Hoffman, and M. S. Banks, "The zone of comfort: Predicting visual discomfort with stereo displays," J. Vis. 11, 1, (2011).
15 C. Jang, K. Bang, S. Moon, J. Kim, S. Lee, and B. Lee, "Retinal 3D: Augmented reality near-eye display via pupiltracked light field projection on retina," ACM Trans. Graph. 36, article 190, (2017).
16 A. Maimone, A. Georgiou, and J. S. Kollin, "Holographic near-eye displays for virtual and augmented reality," ACM Trans. Graph 36, article 85 (2017).
17 Y. Takaki, and N. Fujimoto, "Flexible retinal image formation by holographic Maxwellian-view display," Opt. Express 26, 22985, (2018).   DOI
18 J.-H. Park, and S.-B. Kim, "Optical see-through holographic near-eye-display with eyebox steering and depth of field control," Opt. Express 26, 27076, (2018).   DOI
19 H.-J. Yeom, H.-J. Kim, S.-B. Kim, H. Zhang, B. Li, Y.-M. Ji, S.-H. Kim, and J.-H. Park, "3D holographic head mounted display using holographic optical elements with astigmatism aberration compensation," Opti. Express 23, 32025, (2015).   DOI
20 C. Jang, K. Bang, G. Li, and B. Lee, "Holographic near-eye display with expanded eye-box," ACM Trans. Graph. 37, article 195, (2018).
21 F.-C. Huang, G. Wetzstein, B. A. Barsky, and R. Raskar, "Eyeglasses-free display: towards correcting visual aberrations with computational light field displays," ACM Trans. Graph. 33, article 59 (2014).
22 S.-B. Kim, and J.-H. Park, "HMD type integral imaging system by using waveguide configuration," The 16th International Meeting on Information Display (IMID 2016), paper P2-74, ICC Jeju, Jeju, Korea, August 2016.
23 N. Darkhanbaatar, C.-W. Shin, M.-U. Erdenebat, K.-Y. Lee, and N. Kim, "Holographic waveguide-type three-dimensional augmented-reality display using the holographic optical element-mirror array," Proc. SPIE 10942, 1094216, (2019).
24 H. Huang and H. Hua, "High-performance integral-imaging-based light field augmented reality display using freeform optics," Opt. Express 26, 17578, (2018).   DOI
25 K. Aksit, J. Kautz, and D. Luebke, "Slim near-eye display using pinhole aperture arrays," Appl. Opt. 54, 3422, (2015).   DOI
26 P.-Y. Chou, J.-Y. Wu, S.-H. Huang, C.-P. Wang, Z. Qin, C.-T. Huang, P.-Y. Hsieh, H.-H. Lee, T.-H. Lin, and Y.-P. Huang, "Hybrid light field head-mounted display using time-multiplexed liquid crystal lens array for resolution enhancement," Opt. Express 27, 1164, (2019).   DOI
27 G. Wetzstein, D. Lanman, M. Hirsch, and R. Raskar, "Tensor displays: compressive light field synthesis using multiplayer displays with directional backlighting,"ACM Trans. Graph. 31, article 80, (2012).
28 Y. -M. Ji, and J.-H. Park, "Dual layered display that presents auto-stereoscopic 3D images to multiple viewers in arbitrary positions," J. Soc. Inf. Display 24, 641, (2016).   DOI
29 D. Lanman and D. Luebke, "Near-eye light field displays," ACM Trans. Graph. 32, 220 (2013).
30 A. Maimone, D. Lanman, K. Rathinavel, K. Keller, D. Luebke, and H. Fuchs, "Pinlight displays: wide field of view augmented reality eyeglasses using defocused point light sources," ACM Trans. Graph. 33, 1, (2014).
31 F.-C. Huang, K. Chen, and G. Wetzstein, "The light field stereoscope: immersive computer graphics via factored neareye light field display with focus cues," ACM Trans. Graph. 34, article 60, (2015).
32 C.-K. Lee, S. Moon, S. Lee, D. Yoo, J.-Y. Hong, and B. Lee, "Compact three-dimensional head-mounted display system with Savart plate," Opt. Express 24, 19531, (2016).   DOI
33 S. Moon, C.-K. Lee, D. Lee, C. Jang, and B. Lee, "Layered display with accommodation cue using scattering polarizers," IEEE J. Sel. Topics Signal Process. 11, 1223, (2017).   DOI