This study was the first to compare the effects of three different peripheral vision multiplexing configurations—monocular opaque, monocular see-through and binocular see-through—on detection of augmented information during movement. The optimal approach might be to choose a binocular see-through display and minimize visual rivalry by manipulating eye movements.
Han S, Kim S, Jung J-H. (2023). The effect of visual rivalry in peripheral head-mounted displays on mobility. Sci. Rep. 2023 Nov;13:20199. DOI
Doyon J, Kim S, Hwang A, Jung J-H. (2024) Spatio-temporal collision envelope in virtual reality walking with colliding pedestrians. The Annual Meeting of the Vision Sciences Society 2024.
The human viewing angle reaches 200 degrees, but AR displays are around 100 degrees. Research continues to overcome uncomfortable usability and information transmission limitations.
Han S, Kim S, Jung J-H. (2023). The effect of visual rivalry in peripheral head-mounted displays on mobility. Sci. Rep. 2023 Nov;13:20199. DOI
Qiu, C., Jung, J. - H., Tuccar-Burak, M., Spano, L., Goldstein, R., & Peli, E. (2018). Measuring Pedestrian Collision Detection With Peripheral Field Loss and the Impact of Peripheral Prisms. Translational Vision Science & Technology, 7 (5), 1-1. Publisher's Version
Jung, J. - H., Aloni, D., Yitzhaky, Y., & Peli, E. (2015). Active Confocal Imaging for Visual Prostheses. Vision Research , 111 (June), 182-196. Publisher's Version
Jae-Hyun Jung, PhD, is the recipient of the 2015 Promobilia Foundation, Swden, Fellowship Award for his project, “Active confocal imaging for visual prostheses.”
Jung, J. - H., & Peli, E. (2014). Impact of high power and angle of incidence on prism corrections for visual field loss. Optical Engineering , 53 (6), 061707. DOI
Jae-Hyun Jung, PhD, is the recipient of the 2012 Best Paper Award for his paper, “A solution based on multi-view pickup for pseudoscopic problem in integral imaging.”
Jung, J. - H., Kim, J., & Lee, B. (2013). Solution of pseudoscopic problem in integral imaging for real-time processing. Opt. Lett. , 38, 76–78 . OSA. Publisher's Version
Jae-Hyun Jung, PhD, is the recipient of the 2012 Basic Research Fellowship pf National Research Foundation of Korea for his project, “Study on effect of super multi-view condition in three-dimensional display to accommodation response and improvement of optical vision rehabilitation device.”
The figures show three-dimensional images implemented by a flat panel display and a two-dimensional lens array. The vivid color moiré pattern in a conventional method (upper figures) is remarkably reduced by slanting the lens array with an appropriate angle (lower figures).
Kim, Y., Park, G., Jung, J. - H., Kim, J., & Lee, B. (2009). Color moiré pattern simulation and analysis in three-dimensional integral imaging for finding the moiré-reduced tilted angle of a lens array. Appl. Opt. , 48, 2178–2187 . OSA. Publisher's Version
Jae-Hyun Jung, PhD, is the recipient of the 2009 Merck Young Scientist Award for his paper, “360-degree Viewable Cylindrical Integral Imaging System using Electroluminescent Films.” at the International Meeting on Information Display 2009.
Jung, J. - H., Hong, K., Park, G., Chung, I., & Lee, B. (2010). 360°-viewable cylindrical integral imaging system using a 3-D/2-D switchable and flexible backlight. J. Soc. Inf. Disp. , 18, 527–534 . Publisher's Version
The figures show three-dimensional images implemented by a flat panel display and a two-dimensional lens array. The vivid color moiré pattern in a conventional method (upper figures) is remarkably reduced by slanting the lens array with an appropriate angle (lower figures).
Jung, J. - H., Yeom, J., Hong, J., Hong, K., Min, S. - W., & Lee, B. (2011). Effect of fundamental depth resolution and cardboard effect to perceived depth resolution on multi-view display. Opt. Express , 19, 20468–20482 . OSA. Publisher's Version
Experimental results of a 3D-2D convertible flat panel display system. The system is composed of a transmission type spatial light modulator (SLM) and an organic light emitting diode (OLED) backlight. In 2D display mode the OLED is used as a planar backlight source while the 2D image appears on the SLM. In 3D display mode the OLED operates as a point light source array backlight, and elemental images to integrate into a 3D image are provided to the SLM. The overall system is a thin 3D-2D convertible display system with full 2D resolution and good light efficiency for 3D mode.
Kim, Y., Kim, J., Kim, Y., Choi, H., Jung, J. - H., & Lee, B. (2008). Thin-type integral imaging method with an organic light emitting diode panel. Appl. Opt. , 47, 4927–4934 . OSA. Publisher's Version