Global ETD Search

51	Multi-user retinal displays with two components. New degrees of freedom. Biverot, Hans January 2001 (has links) No description available. visual perception retinal display line display stereo 3D
52	Development Of The Depth-Fused Multi-Focal-Plane Display Technology Hu, Xinda January 2014 (has links) Conventional stereoscopic displays present a pair of stereoscopic images on a single and fixed image plane. In consequence, these displays lack the capability of correctly rendering focus cues (i.e. accommodation and retinal blur) and may induce the discrepancy between accommodation and convergence. A number of visual artifacts associated with incorrect focus cues in stereoscopic displays have been reported, limiting the applicability of these displays for demanding applications and daily usage. Depth-fused multi-focal-plane display was proposed to create a fixed-viewpoint volumetric display capable of rendering correct or nearly-correct focus cues in a stereoscopic display through a small number of discretely placed focal planes. It effectively addresses the negative effects of conventional stereoscopic displays on depth perception accuracy and visual fatigue. In this dissertation, the fundamental design methods and considerations of depth-fused displays were refined and extended based on previous works and a high-resolution optical see-through multi-focal-plane head-mounted display enabled by state-of-the-art freeform optics was developed. The prototype system is capable of rendering nearly-correct focus cues for a large volume of 3D space extending into a depth range from 0 to 3 diopters at flicker-free speed. By incorporating freeform optics, the prototype not only achieves high quality imagery across a large 3D volume for the virtual display path but it also maintains better than 0.5 arcminutes visual resolution of the see-through view. The optical design, implementation and experimental validation of the display are presented and discussed in detail. Accommodation Freeform optics Head-mounted display 3D display Optical Sciences
53	A color blending model and a color correction algorithm for additive optical see-through displays Kirshnamachari Sridharan, Srikanth 06 October 2013 (has links) Optical see-through display (OSTD) is a transparent digital display which simultaneously gives access to the digital contents and the real world objects behind it. Additive optical see-though display is a hardware subtype of OSTD which has its own light source to create the digital contents. In Additive OSTD, light coming from background objects mixes with the light originating from the display causing what is known as the color blending problem. The work in this thesis provides a solution to the color blending problem. In order to understand the problem, this thesis first presents a new color blending model for additive OSTD based on two display induced distortions: the Render distortion and the Material distortion. A new method called Binned Profile (BP) method which accounts for the render distortion is developed to predict the blended color, when applied on the color blending model. BP method is validated with other known methods and is shown to be the most accurate in predicting the color blends with 9 just noticeable differences (JND) in worst case. Based on the BP method, a new color correction algorithm called BP color correction is created to solve the color blending problem. BP-color correction finds the alternative digital color to counter balance the blending. The correction capacity of various digital colors were analysed using the BP color correction approach. BP color correction is also compared and proven to be better than the existing solution. A quicker version of the correction called quick correction is also explored. The thesis concludes with an exploration of the material distortion, explains the limitations of BP-correction, provides design recommendations . Color blending See-through display Color correction Transparent display
54	The Expandable Display: an ad hoc grid of autonomous displays MacDougall, James Scott 29 April 2014 (has links) Networking multiple "smart" displays together is an affordable way of creating large high-resolution display systems. In this work I propose a new structure and data distribution paradigm for displays of this nature. I model my work on the peer-to-peer style of content distribution, as opposed to the traditional client-server model for this kind of system. In taking a peer-to-peer approach, I present a low-cost and scalable system without the inherent constraints imposed by the client-server model. I present a new class of applications specifically designed for this peer-to-peer style of display system, and provide an easy-to-use framework for developers to use in creating this type of system. / Graduate / 0984 display expandable scalable graphics networking projectors games large format display
55	The Expandable Display: an ad hoc grid of autonomous displays MacDougall, James Scott 29 April 2014 (has links) Networking multiple "smart" displays together is an affordable way of creating large high-resolution display systems. In this work I propose a new structure and data distribution paradigm for displays of this nature. I model my work on the peer-to-peer style of content distribution, as opposed to the traditional client-server model for this kind of system. In taking a peer-to-peer approach, I present a low-cost and scalable system without the inherent constraints imposed by the client-server model. I present a new class of applications specifically designed for this peer-to-peer style of display system, and provide an easy-to-use framework for developers to use in creating this type of system. / Graduate / 0984 display expandable scalable graphics networking projectors games large format display
56	A color blending model and a color correction algorithm for additive optical see-through displays Kirshnamachari Sridharan, Srikanth 06 October 2013 (has links) Optical see-through display (OSTD) is a transparent digital display which simultaneously gives access to the digital contents and the real world objects behind it. Additive optical see-though display is a hardware subtype of OSTD which has its own light source to create the digital contents. In Additive OSTD, light coming from background objects mixes with the light originating from the display causing what is known as the color blending problem. The work in this thesis provides a solution to the color blending problem. In order to understand the problem, this thesis first presents a new color blending model for additive OSTD based on two display induced distortions: the Render distortion and the Material distortion. A new method called Binned Profile (BP) method which accounts for the render distortion is developed to predict the blended color, when applied on the color blending model. BP method is validated with other known methods and is shown to be the most accurate in predicting the color blends with 9 just noticeable differences (JND) in worst case. Based on the BP method, a new color correction algorithm called BP color correction is created to solve the color blending problem. BP-color correction finds the alternative digital color to counter balance the blending. The correction capacity of various digital colors were analysed using the BP color correction approach. BP color correction is also compared and proven to be better than the existing solution. A quicker version of the correction called quick correction is also explored. The thesis concludes with an exploration of the material distortion, explains the limitations of BP-correction, provides design recommendations . Color blending See-through display Color correction Transparent display
57	Metal-induced unilaterally crystallized polycrystalline silicon thin-film transistor technology and application to flat-panel displays / Meng, Zhiguo. January 2002 (has links) Thesis (Ph. D.)--Hong Kong University of Science and Technology, 2002. / Includes bibliographical references. Also available in electronic version. Access restricted to campus users.
58	Entwicklung und Erprobung eines kontaktanalogen Head-up-Displays im Fahrzeug Schneid, Marcus January 2009 (has links) Zugl.: München, Techn. Univ., Diss., 2009
59	High performance micro scanners for miniature laser projection displays Hsu, Shu-Ting January 2009 (has links) Zugl.: Dresden, Techn. Univ., Diss., 2009
60	Anwendungen und Marktpotenziale einer neuen Displaytechnologie am Beispiel OLED Näf, Michael. January 2008 (has links) (PDF) Bachelor-Arbeit Univ. St. Gallen, 2008.

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