Performance evaluation of dual-layer architectures for high dynamic range head mounted displays

IF 3.7 3区工程技术 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

Journal of Information Display Pub Date : 2023-01-02 DOI:10.1080/15980316.2022.2154861

Miaomiao Xu, H. Hua

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Abstract

A high dynamic range head mounted display (HDR-HMD) using a dual-layer per-pixel modulation method was recently demonstrated where both the display and modulation layers spatially overlap with an equal pixel resolution and are well-aligned to each other such that per-pixel dynamic range modulation becomes feasible. Besides the per-pixel modulation method, two other modulation methods can also be implemented via a dual-layer construction: the extended layer separation method where the display and modulation layers are largely separated in space, and the coarse backlight method where the display and modulation layers have largely different pixel resolutions such that the modulation layer may be treated as a locally-controllable backlight to the display layer. In this paper, we develop a generalize model to simulate the image formation process of dual-layer HDR displays and to evaluate the image performance of these different configurations and modulation methods. Maximum displayable spatial frequencies under different configurations are characterized. Experimental results using resolution targets support the model.

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高动态范围头戴式显示器双层结构的性能评估

最近展示了使用每像素双层调制方法的高动态范围头戴式显示器（HDR-HMD），其中显示层和调制层以相等的像素分辨率在空间上重叠，并且彼此良好对准，使得每像素动态范围调制变得可行。除了每像素调制方法之外，还可以通过双层结构实现另外两种调制方法：扩展层分离方法，其中显示层和调制层在空间上很大程度上分离，以及粗略背光方法，其中显示层和调制层具有很大不同的像素分辨率，使得调制层可以被视为显示层的局部可控背光。在本文中，我们开发了一个通用模型来模拟双层HDR显示器的图像形成过程，并评估这些不同配置和调制方法的图像性能。表征了不同配置下的最大可显示空间频率。使用分辨率目标的实验结果支持该模型。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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