Title :
Compact near-eye display system using a superlens-based microlens array magnifier
Author :
Park, Hongbae S. ; Hoskinson, Reynald ; Abdollahi, Hamid ; Stoeber, Boris
Author_Institution :
Univ. of British Columbia, Vancouver, BC, Canada
Abstract :
This paper reports a new approach to making a very compact near-eye display (NED) using only two layers of microlens arrays (MLA) working in conjunction as a magnifying lens (MLA magnifier). The purpose of the MLA magnifier is to generate a virtual image of a display, positioned within several centimeters from the eye, at optical infinity to minimize the optical disparity between the surrounding scenery and the image on the display. Our MLA magnifier is about 2 mm thick with a system focal length of 5 mm and a total thickness of around 7 mm (excluding the thickness of the display) in non-folded optics configuration, which is much more compact in comparison to other popular NEDs such as Google Glass or Recon Instrument´s Snow goggles having folded optics.
Keywords :
display instrumentation; microlenses; optical arrays; Google Glass; MLA; NED; Recon Instrument Snow goggles; compact near-eye display system; nonfolded optics configuration; optical disparity; optical infinity; superlens-based microlens array magnifier; virtual image; Cameras; Equations; Lenses; Mathematical model; Microoptics; Optical imaging;
Conference_Titel :
Micro Electro Mechanical Systems (MEMS), 2015 28th IEEE International Conference on
Conference_Location :
Estoril
DOI :
10.1109/MEMSYS.2015.7051118
