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31 August 2005 Design of a compact optical see-through head-worn display with mutual occlusion capability
Ozan Cakmakci, Yonggang Ha, Jannick Rolland
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Proceedings Volume 5875, Novel Optical Systems Design and Optimization VIII; 58750H (2005) https://doi.org/10.1117/12.617963
Event: Optics and Photonics 2005, 2005, San Diego, California, United States
Abstract
We present the first-order design details and preliminary lens design and performance analysis of a compact optical system that can achieve mutual occlusions. Mutual occlusion is the ability of real objects to occlude virtual objects and virtual objects to occlude real objects. Mutual occlusion is a desirable attribute for a certain class of augmented reality applications where realistic overlays based on the depth cue is important. Compactness is achieved through the use of polarization optics. First order layout of the system is similar to that of a Keplerian telescope operating at finite conjugates. Additionally, we require the image to lie on the plane of the object with unit magnification. We show that the same lens can be used as the objective and the eyepiece. The system is capable of having very close to zero distortion.
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Ozan Cakmakci, Yonggang Ha, and Jannick Rolland "Design of a compact optical see-through head-worn display with mutual occlusion capability", Proc. SPIE 5875, Novel Optical Systems Design and Optimization VIII, 58750H (31 August 2005); https://doi.org/10.1117/12.617963
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Cited by 4 scholarly publications and 8 patents.
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KEYWORDS
Objectives
Distortion
Prisms
Modulators
Liquid crystal on silicon
Augmented reality
Diffractive optical elements
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