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Large-size PVG-based waveguide simulation and uniformity optimization for AR-HUD

Ran Wei, Canran Yang, Chuang Wang, Jieyi Zhang, Wei Wang, Yuchen Gu, Nan Lin, Xusheng Pan, Weiqi Zhou, Yishi Weng, Yuning Zhang

2024Optics Express10 citationsDOIOpen Access PDF

Abstract

Polarization volume grating (PVG), a kind of diffractive optical element, is applied widely for augmented reality (AR) near-eye display (NED) lately. However, PVG-based AR head-up display (AR-HUD) requires a large-size exit pupil and uniform efficiency, and there is presently no systematic simulation method for this type of application. Here, we introduce a unique simulation analysis method via the large-size PVG-based waveguide technology for AR-HUD. Through the self-built particle swarm optimization (PSO) algorithm, on the waveguide structure of 290 mm × 160 mm × 3 mm, with an eyerelief distance of 600 mm, the binocular field of view uniformity reaches 35.37% at an eye box of 100 mm × 50 mm, and the monocular uniformity can reach 31.65% and 32.48% respectively. The design scheme in this paper provides guidance for the large-size diffractive waveguide display for AR-HUD.

Topics & Concepts

OpticsWaveguideAugmented realityComputer scienceParticle swarm optimizationGratingMaterials sciencePhysicsArtificial intelligenceAlgorithmAdvanced Optical Imaging TechnologiesOptical Wireless Communication TechnologiesOptical Coatings and Gratings
Large-size PVG-based waveguide simulation and uniformity optimization for AR-HUD | Litcius