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Light field blender: designing optics and rendering methods for see-through and aerial near-eye display.

, , , , , и . SIGGRAPH Asia Technical Briefs, стр. 9:1-9:4. ACM, (2017)

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Yuta Toriyama

Naoki Itoh

Itoh Wihardjo Surjono

 

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Light Attenuation Display: Subtractive See-Through Near-Eye Display via Spatial Color Filtering., , , , и . IEEE Trans. Vis. Comput. Graph., 25 (5): 1951-1960 (2019)Towards Indistinguishable Augmented Reality: A Survey on Optical See-through Head-mounted Displays., , , и . ACM Comput. Surv., 54 (6): 120:1-120:36 (2022)Vision enhancement: defocus correction via optical see-through head-mounted displays., и . AH, стр. 1-8. ACM, (2015)Blending Shadows: Casting Shadows in Virtual and Real using Occlusion-Capable Augmented Reality Near-Eye Displays., и . ISMAR, стр. 422-430. IEEE, (2021)Computational Augmented Reality Displays., , и . ISS, стр. 477-479. ACM, (2018)Automatic Labeling of Training Data by Vowel Recognition for Mouth Shape Recognition with Optical Sensors Embedded in Head-Mounted Display., , , , , и . ICAT-EGVE, стр. 9-16. Eurographics Association, (2019)Light field blender: designing optics and rendering methods for see-through and aerial near-eye display., , , , , и . SIGGRAPH Asia Technical Briefs, стр. 9:1-9:4. ACM, (2017)A Survey of Calibration Methods for Optical See-Through Head-Mounted Displays., , , и . CoRR, (2017)WARP: Contributional Tracking Architecture Towards a Worldwide Augmented Reality Platform., и . ISMAR Adjunct, стр. 71-72. IEEE, (2019)HySAR: Hybrid material rendering by an optical see-through head-mounted display with spatial augmented reality projection., , , , и . VR, стр. 211-212. IEEE Computer Society, (2017)