2017-06-012024-05-17https://scholars.lib.ntu.edu.tw/handle/123456789/685407摘要：國立台灣大學和雙瑩科技股份有限公司共同提出本計畫，開發具有透視能力的輕質頭戴式顯示器，用於在劇烈的環境中使用。該技術基於陣列波導，聚合物分散液晶和微透鏡陣列。所有這些組件都被證明在劇烈的環境中是可靠的。所提出的顯示器有三個顯著特徵： （1）顯示器基於“陣列波導”結構。發射器陣列由發射三原色的發光二極管的線性陣列組成。由於不像傳統LCD中那樣需要濾色器，所以提高了光效率。在不使用圖像區域上的濾色器的情況下，我們可以提供透視能力和全色功能。 （2）將聚合物分散液晶（PDLC）插入在波導陣列和上透明基板之間，其上形成條形電極。 PDLC用作光開關以控制來自波導的光輸出。 （3）顯示器可以建立在透明和柔性基板上，例如薄玻璃或塑料。這不僅使設備重量輕，而且可以應用在曲面上。 <br> Abstract: National Taiwan University and Team-Luck Ltd. are submitting this proposal to develop light weight head-mounted display with a see-through capability for use in vigorous environment. The technology is based on array waveguides, polymer-dispersed liquid crystal, and microlens arrays. All these components are proven to be reliable in vigorous environment. There are three distinctive features of the proposed display: (1) The display is based on an “array waveguide” structure. The emitter array consists of a linear array of light emitting diodes emitting three primary colors. The light efficiency is improved because no color filter is needed as in traditional LCDs. Without using color filters on image area, we can both provide see-through capability and full-color function. (2) The polymer-dispersed liquid crystal (PDLC) is inserted between the waveguide array and the upper transparent substrate, on which stripe-shaped electrodes are formed. The PDLC serves as light switches to control light output from waveguide. (3) The display can be built on transparent and flexible substrate such as thin glass or plastic. This not only makes the device lightweight, but also can be applied on curved surface.陣列波導聚合物分散液晶微透鏡陣列array wave-guidepolymer dispersed liquid crystalmicrolens array