Journal• ISSN: 1006-6268
Advanced Display
About: Advanced Display is an academic journal. The journal publishes majorly in the area(s): Liquid-crystal display & Backlight. Over the lifetime, 125 publications have been published receiving 347 citations.
Papers
Journal Article•
TL;DR: These techniques leverage the unique features of volumetric displays, including a 360° viewing volume that enables manipulation from any viewpoint around the display, as well as natural and accurate perception of true depth information in the displayed 3D scene.
Abstract: Volumetric displays provide interesting opportunities and challenges for 3D interaction and visualization, particularly when used in a highly interactive manner. We explore this area through the design and implementation of techniques for interactive direct manipulation of objects with a 3D volumetric display. Motion tracking of the user's fingers provides for direct gestural interaction with the virtual objects, through manipulations on and around the display's hemispheric enclosure. Our techniques leverage the unique features of volumetric displays, including a 360° viewing volume that enables manipulation from any viewpoint around the display, as well as natural and accurate perception of true depth information in the displayed 3D scene. We demonstrate our techniques within a prototype 3D geometric model building application.
85 citations
Journal Article•
TL;DR: In this paper, a new technology is developed that combines the familiar construction of a small molecule organic LED with an inorganic emissive core that uses quantum dots, which combine the soluable nature of polymers for ease of manufacture with the potential for high-efficiency emission similar to phosphorescent materials.
Abstract: A new technology is being developed that combines the familiar construction of a small molecule organic LED with an inorganic emissive core that uses quantum dots. QD-LEDs combine the soluable nature of polymers for ease of manufacture with the potential for high-efficiency emission similar to phosphorescent materials.
24 citations
Journal Article•
TL;DR: At this work, map searching program is used for touch and gesture recognition and multi-touch LCD shows its usefulness and it can replace conventional HCI device (mouse, keyboard).
Abstract: Multi-touch function is integrated with a 52in LCMIR image sensors detect touches around normal panelA few IR image sensors are placed to detect touchesTriangulation,image processing technology and pattern recognition are used for touch algorithmPositions of touch points are calculated simultaneously by using IR image sensors,IR light sources and a LCD panelThe number of touches and its area is used to perform multi-touch functionsMulti-touch LCD can also detect human gesturesAt this work,map searching program is used for touch and gesture recognitionAs a result,multi-touch LCD shows its usefulness and it can replace conventional HCI device(mouse,keyboard)
23 citations
Journal Article•
TL;DR: This paper formulates the problem in two mathematical models: an iterative de-convolution approach and a linear optimization approach, and an image database composed of 161 high dynamic range images is built to evaluate the performances of these two approaches.
Abstract: LED backlight technique dramatically enhances the dynamic range of an LCD display and hence extends its ability to present images with high reality. This is achieved by modulating LEDs individually, thus providing an area-adaptive backlight for the display. However, crosstalk of LEDs is not only a blessing for supplying high brightness but is also a curse for causing potential artifacts, making the derivation of LED driving signal a challenging task. This paper formulates the problem in two mathematical models: an iterative de-convolution approach and a linear optimization approach. Algorithms for solving these two models are provided. An image database composed of 161 high dynamic range images is built to evaluate the performances of these two approaches.
14 citations
Journal Article•
TL;DR: In this paper, a 12.1" WXGA AMOLED prototype display fabricated by an amorphous indium-gallium-zincoxide (a-IGZO) TFT backplane is presented.
Abstract: In this work,we review the current technological challenges for large-size AMOLED displays with an emphasis on the backplane technology. Then,it will be discussed how the new technology of oxide TFTs combines the advantages of LTPS and a-Si TFTs to make an optimal solution for large-size backplanes. In particular,we reveal the technological challenges in oxide TFTs by comparing the device characteristics of conventional excimer laser annealing(ELA) LTPS and amorphous indium-gallium-zinc-oxide(a-IGZO) TFTs. Finally,we demonstrate a 12.1" WXGA AMOLED prototype display fabricated by an a-IGZO TFT backplane.
12 citations
Related Journals (5)
Performance Metrics
| Year | Papers |
|---|---|
| 2013 | 2 |
| 2012 | 10 |
| 2011 | 7 |
| 2010 | 13 |
| 2009 | 16 |
| 2008 | 15 |