Abstract

The transmittance of the three dimensional (3D) transparent display is an important factor and can be enhanced by adding a see-through area to the displayed 3D image in order to transmit an ambient light with maximum transparency. However, there is a side effect that the perceived 3D resolution can be degraded due to the see-through area. In this paper, we propose an advanced method to resolve the above trade-off relation between the transparency and the 3D resolution by using an active parallax barrier (PB) with a see-through area. The experimental results are also presented to prove the proposed principle.

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  1. S.-H. Park, C.-S. Hwang, M. Ryu, S. Yang, C. Byun, J. Shin, J.-I. Lee, K. Lee, M. S. Oh, and S. ImTransparent and photo-stable ZnO thin-film transistors to drive an active matrix organic-light-emitting-diode display panelAdv. Mater.200921678682
  2. S.-H. Park, C.-S. Hwang, J.-I. Lee, S. Chung, Y. Yang, L. M. Do, and H. ChuTransparent ZnO thin film transistor array for the application of transparent AM-OLED displaySID International Symposium Digest of Technical PapersSociety for Information Display2006372528
  3. J. Chung, J. Lee, J. Choi, C. Park, J. Ha, H. Chung, and S. KimTransparent AMOLED display based on bottom emission structureSID International Symposium Digest of Technical PapersSociety for Information Display201041148151
  4. C.-H. Lin, W.-B. Lo, K.-H. Liu, C.-Y. Liu, J.-K. Lu, and N. SugiuraLate-news poster: Novel transparent LCD with tunable transparencySID International Symposium Digest of Technical PapersSociety for Information Display20124311591162
  5. S. Lee, C. Jang, S. Moon, J. Cho, and B. LeeAdditive light field displays: Realization of augmented reality with holographic optical elementsACM Trans. Graph. (SIG GRAPH)201635113
  6. C.-K. Lee, S. Moon, S. Lee, D. Yoo, J.-Y. Hong, and B. LeeCompact three-dimensional head-mounted display system with Savart plateOpt. Express2016241953119544
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  8. Y. Takaki, Y. Urano, S. Kashiwada, H. Ando, and K. NakamuraSuper multi-view windshield display for long-distance image information presentationOpt. Express201119704716
  9. K. Hong, J. Yeom, C. Jang, J. Hong, and B. LeeFullcolor lens-array holographic optical element for three-dimensional optical see-through augmented realityOpt. Lett.201439127130
  10. J. Yeom, J. Jeong, C. Jang, G. Li, K. Hong, and B. LeeThree-dimensional/two-dimensional convertible projection screen using see-through integral imaging based on holographic optical elementAppl. Opt.20155488568862
  11. H. Hua and B. JavidiA 3D integral imaging optical see-through head mounted displayOpt. Express2014221348413491
  12. J. Hong, S.-W. Min, and B. LeeIntegral floating display systems for augmented realityAppl. Opt.20125142014209
  13. B. LeeThree-dimensional displays, past and presentPhys. Today2013663641
  14. J. Hong, Y. Kim, H.-J. Choi, J. Hahn, J.-H. Park, H. Kim, S.-M. Min, N. Chen, and B. LeeThree-dimensional display technologies of recent interest: principles, status, and issuesAppl. Opt.201150H87H115
  15. S.-U. Kim, J. Kim, J-H. Suh, J.-H. Na, and S.-D. LeeConcept of active parallax barrier on polarizing interlayer for near-viewing autostereoscopic displaysOpt. Express2016242501025018
  16. S.-M. Wi and S.-H. LeeAutostereoscopic Display System Using a Variable Parallax BarrierKorean J. Opt. Photon.20081995102
  17. H. Kwon and H.-J. ChoiA time-sequential multi-view autostereoscopic display without resolution loss using a multi-directional backlight unit and an LCD panelProc. SPIE2012828816
  18. Y. Oh, D. Shin, B.-G. Lee, S.-I. Jeong, and H.-J. ChoiResolution-enhanced integral imaging in focal mode with a time-multiplexed electrical mask arrayOpt. Express2014221762017629
  19. H. J. Lee, H. Nam, J. Lee, H. W. Jang, M. S. Song, B. S. Kim, J. S. Gu, C. Y. Park, and K. H. ChoiA high resolution autostereoscopic display employing a time division parallax barrierSID International Symposium Digest of Technical PapersSociety for Information Display2006378184
  20. H.-J. Choi and M. ParkA time-sequential autostereoscopic 3D display using a vertical line dithering for utilizing the side lobesProc. SPIE2014927192710T
  21. M. Park, J. Kim, and H.-J. ChoiEffect of interlacing methods of stereoscopic displays on perceived image qualityAppl. Opt.201453520527

Other (21)

S.-H. Park, C.-S. Hwang, M. Ryu, S. Yang, C. Byun, J. Shin, J.-I. Lee, K. Lee, M. S. Oh, and S. ImTransparent and photo-stable ZnO thin-film transistors to drive an active matrix organic-light-emitting-diode display panelAdv. Mater.200921678682

S.-H. Park, C.-S. Hwang, J.-I. Lee, S. Chung, Y. Yang, L. M. Do, and H. ChuTransparent ZnO thin film transistor array for the application of transparent AM-OLED displaySID International Symposium Digest of Technical PapersSociety for Information Display2006372528

J. Chung, J. Lee, J. Choi, C. Park, J. Ha, H. Chung, and S. KimTransparent AMOLED display based on bottom emission structureSID International Symposium Digest of Technical PapersSociety for Information Display201041148151

C.-H. Lin, W.-B. Lo, K.-H. Liu, C.-Y. Liu, J.-K. Lu, and N. SugiuraLate-news poster: Novel transparent LCD with tunable transparencySID International Symposium Digest of Technical PapersSociety for Information Display20124311591162

S. Lee, C. Jang, S. Moon, J. Cho, and B. LeeAdditive light field displays: Realization of augmented reality with holographic optical elementsACM Trans. Graph. (SIG GRAPH)201635113

C.-K. Lee, S. Moon, S. Lee, D. Yoo, J.-Y. Hong, and B. LeeCompact three-dimensional head-mounted display system with Savart plateOpt. Express2016241953119544

Y. Takaki and Y. YamaguchiFlat-panel see-through three-dimensional display based on integral imagingOpt. Lett.20154018731876

Y. Takaki, Y. Urano, S. Kashiwada, H. Ando, and K. NakamuraSuper multi-view windshield display for long-distance image information presentationOpt. Express201119704716

K. Hong, J. Yeom, C. Jang, J. Hong, and B. LeeFullcolor lens-array holographic optical element for three-dimensional optical see-through augmented realityOpt. Lett.201439127130

J. Yeom, J. Jeong, C. Jang, G. Li, K. Hong, and B. LeeThree-dimensional/two-dimensional convertible projection screen using see-through integral imaging based on holographic optical elementAppl. Opt.20155488568862

H. Hua and B. JavidiA 3D integral imaging optical see-through head mounted displayOpt. Express2014221348413491

J. Hong, S.-W. Min, and B. LeeIntegral floating display systems for augmented realityAppl. Opt.20125142014209

B. LeeThree-dimensional displays, past and presentPhys. Today2013663641

J. Hong, Y. Kim, H.-J. Choi, J. Hahn, J.-H. Park, H. Kim, S.-M. Min, N. Chen, and B. LeeThree-dimensional display technologies of recent interest: principles, status, and issuesAppl. Opt.201150H87H115

S.-U. Kim, J. Kim, J-H. Suh, J.-H. Na, and S.-D. LeeConcept of active parallax barrier on polarizing interlayer for near-viewing autostereoscopic displaysOpt. Express2016242501025018

S.-M. Wi and S.-H. LeeAutostereoscopic Display System Using a Variable Parallax BarrierKorean J. Opt. Photon.20081995102

H. Kwon and H.-J. ChoiA time-sequential multi-view autostereoscopic display without resolution loss using a multi-directional backlight unit and an LCD panelProc. SPIE2012828816

Y. Oh, D. Shin, B.-G. Lee, S.-I. Jeong, and H.-J. ChoiResolution-enhanced integral imaging in focal mode with a time-multiplexed electrical mask arrayOpt. Express2014221762017629

H. J. Lee, H. Nam, J. Lee, H. W. Jang, M. S. Song, B. S. Kim, J. S. Gu, C. Y. Park, and K. H. ChoiA high resolution autostereoscopic display employing a time division parallax barrierSID International Symposium Digest of Technical PapersSociety for Information Display2006378184

H.-J. Choi and M. ParkA time-sequential autostereoscopic 3D display using a vertical line dithering for utilizing the side lobesProc. SPIE2014927192710T

M. Park, J. Kim, and H.-J. ChoiEffect of interlacing methods of stereoscopic displays on perceived image qualityAppl. Opt.201453520527

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