We demonstrate fast time-division color etectroholography using a multiple-graphics-processing-unit (GPU) cluster system with a spatial light modulator and a controller to switch the color of the reconstructing ligh...We demonstrate fast time-division color etectroholography using a multiple-graphics-processing-unit (GPU) cluster system with a spatial light modulator and a controller to switch the color of the reconstructing light. The controller comprises a universal serial bus module to drive the liquid crystal optical shutters. By using the controller, the computer-generated hologram (CGH) display node of the multiple-GPU cluster system synchronizes the display of the CGH with the color switching of the reconstructing light. Fast time-division color electroholography at 20 fps is realized for a three-dimensional object comprising 21,000 points per color when 13 GPUs are used in a multiple-GPU cluster system.展开更多
Visible light positioning (VLP) is an emerging candidate for indoor positioning, which carl simultaneously meet the requirements for accuracy, cost, coverage area, and security. However, intercell interference causc...Visible light positioning (VLP) is an emerging candidate for indoor positioning, which carl simultaneously meet the requirements for accuracy, cost, coverage area, and security. However, intercell interference causcd by light intensity superposition linfits the application of VLP. In this Letter, we propose a united block sequence mapping (UBSM)-based VLP that utilizes superposition to integrate the multidimensional information from dense small cells into 2D information. The experimental result shows that UBSM-based VLP can achieve an accuracy of 1.5 cm with a 0.4 m row spacing and 0.35 m column spacing of LED lights.展开更多
We design a package patterned with red and green emitting phosphors excited by a blue LED to emit tri-basic mixing color.For high backlight display quality, we compare several phosphors.According to our measurements, ...We design a package patterned with red and green emitting phosphors excited by a blue LED to emit tri-basic mixing color.For high backlight display quality, we compare several phosphors.According to our measurements, green phosphors 0752G, 0753G and red phosphor 0763R are preferred for producing a good backlight source.Compared to RGB-LED backlight units, this frame typically benefits the lighting uniformity, and can sim-plify the structures.It also provides higher color render and better CCT than the traditional package method of a yellow phosphor with a blue chip.However, its light efficiency needs to be further improved for the use of backlights for LCDs.展开更多
基金partially supported by the Japan Society for the Promotion of Science through a Grant-in-Aid for Scientific Research(C)under Grant No.15K00153
文摘We demonstrate fast time-division color etectroholography using a multiple-graphics-processing-unit (GPU) cluster system with a spatial light modulator and a controller to switch the color of the reconstructing light. The controller comprises a universal serial bus module to drive the liquid crystal optical shutters. By using the controller, the computer-generated hologram (CGH) display node of the multiple-GPU cluster system synchronizes the display of the CGH with the color switching of the reconstructing light. Fast time-division color electroholography at 20 fps is realized for a three-dimensional object comprising 21,000 points per color when 13 GPUs are used in a multiple-GPU cluster system.
基金supported in part by the National 973Program of China(No.2013CB329205)the National Science Foundation of China(No.61401032)
文摘Visible light positioning (VLP) is an emerging candidate for indoor positioning, which carl simultaneously meet the requirements for accuracy, cost, coverage area, and security. However, intercell interference causcd by light intensity superposition linfits the application of VLP. In this Letter, we propose a united block sequence mapping (UBSM)-based VLP that utilizes superposition to integrate the multidimensional information from dense small cells into 2D information. The experimental result shows that UBSM-based VLP can achieve an accuracy of 1.5 cm with a 0.4 m row spacing and 0.35 m column spacing of LED lights.
文摘We design a package patterned with red and green emitting phosphors excited by a blue LED to emit tri-basic mixing color.For high backlight display quality, we compare several phosphors.According to our measurements, green phosphors 0752G, 0753G and red phosphor 0763R are preferred for producing a good backlight source.Compared to RGB-LED backlight units, this frame typically benefits the lighting uniformity, and can sim-plify the structures.It also provides higher color render and better CCT than the traditional package method of a yellow phosphor with a blue chip.However, its light efficiency needs to be further improved for the use of backlights for LCDs.
