Field-of-view correction in a VR HMD display with varifocal optics

IF 0.5 Q4 OPTICS

Photonics Letters of Poland Pub Date : 2022-07-01 DOI:10.4302/plp.v14i2.1148

M. Piszczek, Kacper Suchecki, A. Kucharczyk, M. Pomianek, M. Maciejewski, L. Jodłowski, Piotr Krukowski

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Abstract

Nowadays, we observe a progressive increase amount of virtual technologies application. VR devices, i.e. HMDs, are still struggling with the VAC. It is possible to “implement” the accommodation mechanism in HMDs using a varifocal system. By using focus tuneable lenses, we achieve high speed and smoothness of displacement of the virtual image plane. This solution involves also unfavourable changes of geometrical parameters of the projected image i.e. change in magnification. This can be solved by software modification parameters of the virtual camera. In this paper, the developed construction of varifocal HMD is presented, including the method of maintaining the constancy magnification. Full Text: PDF ReferencesY-J. Wang , Y-H. Lin, "Liquid crystal technology for vergenceaccommodation conflicts in augmented reality and virtual reality systems: a review", Liq. Cryst. Rev. 9. 35 (2021). CrossRef P.P. Monticone, M. Menozzi, M. Schlup, "Instrument for high-speed recording of accommodation of the human eye", Biomed. Tech. 55: 83 (2010). CrossRef G. Kramida, "Resolving the vergence-accommodation confict in headmounted displays", IEEE Trans. Vis. Comput. Graph. 22, 1912 (2016). CrossRef S. Shiwa, K. Omura, and F. Kishino, "Proposal for a 3-D display with accommodative compensation: 3DDAC," J. Soc. Inf. Disp. 4, 255 (1996). CrossRef K. Rathinavel, G. Wetzstein, H. Fuchs, "Varifocal Occlusion-Capable Optical See-through Augmented Reality Display based on Focus-tunable Optics," IEEE Trans. Vis. Comput. Graph. 25, 3125 (2019). CrossRef

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变焦距光学VR HMD显示器的视场校正

如今，我们观察到虚拟技术的应用量在不断增加。VR设备，即HMD，仍在与VAC作斗争。使用变焦距系统可以在HMD中“实现”调节机制。通过使用可调焦透镜，我们实现了虚像平面位移的高速和平滑。该解决方案还涉及投影图像的几何参数的不利变化，即放大率的变化。这可以通过虚拟相机的软件修改参数来解决。本文介绍了变焦距HMD的发展结构，包括保持恒定放大率的方法。全文：PDF参考资料Y-J。王，Y-H。林，“增强现实和虚拟现实系统中边缘调节冲突的液晶技术：综述”，液晶。修订版9。35（2021）。CrossRef P.P.Monticone，M.Menozzi，M.Schlup，“人眼调节的高速记录仪器”，Biomed。Tech.55:83（2010）。CrossRef G.Kramida，“解决头戴式显示器中的会聚调节冲突”，IEEE Trans。Vis。Comput。图表1912年12月22日（2016）。CrossRef S.Shiwa、K.Omura和F.Kishino，“具有调节补偿的3D显示器的建议：3DDAC”，J.Soc.Inf.Disp.4255（1996）。CrossRef K.Rathinavel，G.Wetzstein，H.Fuchs，“基于焦点可调光学的可变焦遮挡光学透视增强现实显示器”，IEEE Trans。Vis。Comput。图表251125（2019）。CrossRef

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来源期刊

Photonics Letters of Poland OPTICS-

CiteScore

1.40

自引率

0.00%

发文量