Visual confusion is the core mechanism for field expansion in patients with field loss to detect collision in mobility. Although binocular visual confusion using unilateral device (one eye only) is common, binocular rivalry reduces the detection performance in mobility. We develop new monocular visual confusion devices (optical see-through device) and reveals the visual mechanism of monocular visual confusion with considering contrast reduction, providing stereoscopic depth cues, and coherency of motion flows. This mechanism could explain the visual perception in augmented reality (AR) and see-through displays.

Grants

09/2020 – 08/2024, Monocular Visual Confusion for Field Expansion, NIH/NEI R01 – EY031777 (PI)

09/2019 – 08/2024, Visual field expansion through innovative multi-periscopic prism design, NIH/NEI R01- EY023385  (Co-Investigator)

07/2018 – 12/2019, Field Expansion for Acquired Monocular Vision using Multiplexing Prism, Fight for Sight Grant #GA18003 (PI)

10/2017 – 09/2018, The best field expansion configuration for using multiplexing prism for homonymous hemianopia, Alice J. Adler Fellowship, Schepens Eye Research Institute, Harvard Medical School (PI)

09/2013 – 08/2019, Visual field expansion through innovative multiplexing prism design, NIH/NEI R01- EY023385 (Co-Investigator)

12/2012-12/2013, Study on effect of super multi-view condition in three-dimensional display to accommodation response and improvement of optical vision rehabilitation device, Basic Research Fellowship, National Research Foundation of Korea, 2012R1A6A3A03038820 (PI)

Publications

Falahati M, Kurukuti, NM, Peli E, Jung J-H. (2023). Oblique Multi-Periscopic Prism for field expansion of homonymous hemianopia. Biomed Opt Express. Submitted. Optica Open. Preprint. https://doi.org/10.1364/opticaopen.21913110.v1

Jung, J. – H., Kurukuti, N. M., & Peli, E. (2021). Photographic Depiction of the Field of View with Spectacles-mounted Low Vision AidsOptometry and Vision Science , 98 (10), 1210-1226. Publisher’s Version

Peli, E., Vargas-Martin, F., Kurukuti, N. M., & Jung, J. – H. (2020). Multi-periscopic prism device for field expansionBiomed. Opt. Express , 11 (9), 4872–4889 . OSA. Publisher’s Version  

Jung, J. – H., Castle, R., Kurukuti, N. M., Manda, S., & Peli, E. (2020). Field Expansion with Multiplexing Prism Glasses Improves Pedestrian Detection for Acquired Monocular VisionTranslational Vision Science & Technology , 9 (8), Article 35. Publisher’s Version  jung_2020_tvst.xlsx

Choi, H. – J., Peli, E., Park, M., & Jung, J. – H. (2020). Design of 45∘ periscopic visual field expansion device for peripheral field lossOptics Communications , 454, 124364. Publisher’s Version

Jung, J. – H., & Peli, E. (2018). No Useful Field Expansion with Full-field PrismsOptometry and Vision Science , 95 (9), 805-813. Publisher’s Version datasharing_fullfield_1.xlsx

Jung, J. – H., & Peli, E. (2018). Field Expansion for Acquired Monocular Vision Using a Multiplexing PrismOptometry and Vision Science , 95 (9), 814-828. Publisher’s VersionAbstract datasharing_amv_mxp_4.xlsx

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 PrismsTranslational Vision Science & Technology , 7 (5), 1-1. Publisher’s Version

Peli, E., & Jung, J. – H. (2017). Multiplexing Prisms for Field ExpansionOptometry and Vision Science , 94 (8), 817-829. Publisher’s Version datasharing_mxp_fov_3.xlsx

Peli, E., Bowers, A., Keeney, K., & Jung, J. – H. (2016). High Power Prismatic Devices for Oblique Peripheral PrismsOptometry and Vision Science , 93 (5). data_sharing_high_power_3.xlsx

Jung, J. – H., & Peli, E. (2014). Impact of high power and angle of incidence on prism corrections for visual field lossOptical Engineering , 53 (6), 061707. Publisher’s Version highpowerprism_datasharing_2.xlsx