@inproceedings{6a716a70993749a0bc75d4844e7dc740,
title = "Observed optical resolution of light field display: Empirical and simulation results",
abstract = "Light field (LF) displays are a promising 3D display technology to mitigate the vergence-accommodation conflict. Recently, we have proposed a simulation framework to model an LF display system. It has predicted that the in-focus optical resolution on the retina would drop as the relative depth of a rendered image to the display-specific optical reference depth grows. In this study, we examine the empirical optical resolution of a near-eye LF display prototype by capturing rendered test images and compare it to simulation results based on the previously developed computational model. We use an LF display prototype that employs a time-multiplexing technique and achieves a high angular resolution of 6-by-6 viewpoints in the eyebox. The test image is rendered at various depths ranging 0–3 diopters, and the optical resolution of the best-focus images is analyzed from images captured by a camera. Additionally, we compare the measurement results to the simulation results, discussing theoretical and practical limitations of LF displays.",
keywords = "Light field display, 3D display, Vergence-accommodation conflict, Optical resolution",
author = "Yuta Miyanishi and Qi Zhang and Erdem Sahin and Atanas Gotchev",
year = "2023",
month = jan,
doi = "10.2352/EI.2023.35.2.SDA-391",
language = "English",
volume = "35",
series = "Electronic Imaging",
publisher = "Society for Imaging Science and Technology",
pages = "391--1 -- 391--6",
booktitle = "Stereoscopic Displays and Applications XXXIV Conference Overview and Papers Program",
address = "United States",
note = "Stereoscopic Displays and Applications : The World's Premier Conference for 3D Innovation ; Conference date: 15-01-2023 Through 19-01-2023",
}