Light Control Film for Cholesteric LCD Image Quality Enhancement

Slides:

Advertisements

Similar presentations

Jason D. Myers, Sang-Hyun Eom, Vincent Cassidy, and Jiangeng Xue

Advertisements

LCD DISPLAY TECHNOLOGY

Optical Modeling of a-Si:H Thin Film Solar Cells with Rough Interfaces Speaker ： Hsiao-Wei Liu 08/18/2010 Wed.

DESIGN OF 2.2-INCH LED BACKLIGHT UNITS FOR BRIGHTNESS UNIFORMITY AND REDUCTION OF HOT-SPOT EFFECT Jeng-Feng Lin, Chin-Chieh Kang, and Chih-Yang Liu Department.

ANALYTICAL HAZE SIMULATION OF OPTICAL FILMS WITH 2D PARABOLOIDAL MICROLENS ARRAY Jeng-Feng Lin, Chin-Chieh Kang, and Shih-Fu Tseng Department of Electro-Optical.

Fabrication of large area sub-wavelength structures for anti-reflection optical film Reporter ﹕ Wen-Yu Lee Advisor ： Cheng-Hsin Chuang Department of Mechanical.

University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell Previous lecture Reflectance I BRDF, BTDF, BSDF Ideal specular.

3-D Computer Vision CSc83029 / Ioannis Stamos 3-D Computer Vision CSc Radiometry and Reflectance.

© 2002 by Davi GeigerComputer Vision January 2002 L1.1 Image Formation Light can change the image (and appearances). What is the relation between pixel.

Introduction to Computer Vision CS / ECE 181B Tues, May 18, 2004 Ack: Matthew Turk (slides)

LCD COMPONENTS. GoalsGoals 1.Light Guiding Plates 2.Reflector Sheet 3.Light Collimator Films 4.Diffusers 5.Polarizers 6.Non - Absorptive Polarizers 7.Quarter.

TFT LCD. What is TFT LCD –Flat Panel Display What is TFT LCD  TFT-LCD stands for Thin-Film Transistor Liquid- Crystal Display  It is an advanced display.

Introduction to display technologies Jean-Michel Lechevallier.

Reflectance Map: Photometric Stereo and Shape from Shading

Total Internal Reflections in Liquid Crystals Optics and Photonics Presented in Partial Fulfillment of the Second Midterm Clinton Braganza Liquid Crystal.

Environment Mapping. Examples Fall Motivation Silver candlestick No appropriate texture for it “ environment ” map Simulates the results of ray-tracing.

In this paper, we present a novel approach for the design of an edge-type LED backlight unit (BLU) with no light guide plate. The effect of several important.

1 Display Device Lab Dong-A University Dong-A University Optical compensation design of vertically aligned LC cell using wide view circular polarizer Je-Wook.

Advanced Geometry Conic Sections Lesson 4

Reflection Behavior of the Screen Nitto Jushi Kogyo Co.,Ltd No.9-29,Hiratsuka 2-chome,Shinagawa-ku,Tokyo ,Japan TEL FAX

PCB Soldering Inspection. Structured Highlight approach Structured Highlight method is applied to illuminating and imaging specular surfaces which yields.

DECam Daily Flatfield Calibration DECam calibration workshop, TAMU April 20 th, 2009 Jean-Philippe Rheault, Texas A&M University.

HKUST Liquid Crystal Switching Using Comb-on-Plane Electrodes M Wong, Z G Meng and H S Kwok Center for Display Research Hong Kong University of Science.

Laser-Based Finger Tracking System Suitable for MOEMS Integration Stéphane Perrin, Alvaro Cassinelli and Masatoshi Ishikawa Ishikawa Hashimoto Laboratory.

Study of Bright “Fringes” near the Incident Surface of a Wedge-Type Light Guide Plate in an Edge-Type Backlight Unit Chih-Chieh Kang, Jeng-Feng Lin, Yu-Chang.

Conic Sections An Introduction. Conic Sections - Introduction Similar images are located on page 604 of your book. You do not need to try and recreate.

1 Improved PVA LC Cell using Strong Fringe Field Effect for Fast response time Seung-Hoon Ji *, Yong-Hyun Choi *, Jung-Hee Son * and Gi-Dong Lee * * Department.

Analysis for Optics Lab  Choose 6 hypothesis/data sections and analyze the hypothesis and the data 1. Briefly summarize the experimental setup 2. Summarize.

Moiré Interference In Multilayered Display Gareth Bell, PureDepth Inc., Journal of SID07 Moiré Interference In Multilayered Display Gareth Bell, PureDepth.

1 Flat Panel Display System Lab Human Visual perception for Color Breakup Artifact Evaluation 量化色分離現象之人眼視覺指標 Speaker: Chen Sheng-Chang ( 陳勝昌 ) Advisors:

Principles of Color Technology Chapter 6 Producing Colors BOYS. BERNS Principles of Color Technology Chapter 6 Producing Colors BOYS. BERNS Speaker:Yi-Ling.

Speaker: Hao-Wen Chuang ( 莊浩彣 ) Advisor: Assistant Prof. Chung-Hao Tien Assistant Prof. Yi-Pai Huang Display Institute, National Chiao Tung University,

Principles of Color Technology

Date of download: 5/29/2016 Copyright © 2016 SPIE. All rights reserved. DMD functionality. The light steering action of a single micromirror is illustrated.

光學元件精密製造與檢測 Precision Manufacturing & Inspection of Optical Components

Precision Manufacturing and Inspection of Optical Components

1/21 Flat Panel Display System Lab. C.L. Wu Speaker: Chi-Lin Wu ( 吳其霖 ) Advisor: Prof. Han-Ping D. Shieh Department of Photonics and Display Institute,

Optical Design, Fabrication and Measurement Associate Professor: Yi-Pai Huang Department of Photonics and Display Institute 2010/02/25.

1 Advanced Display Optics Lab Syuan Li APL 05 Variable-focus liquid lens by changing aperture Hongwen Ren and Shin-Tson Wu College of Optics and Photonics,

Optical Design of Phosphor Sheet Structure in LED Backlight System

Principles of Color Technology Billmeyer and Saltaman Chapter 5 Colorants Principles of Color Technology Billmeyer and Saltaman Chapter 5 Colorants Speaker:

Speaker: Tsung-Wei Pai ( 白宗緯 ) Advisors: Prof. Han-Ping D. Shieh ( 謝漢萍教授 ) Prof. Yi-Pai Huang ( 黃乙白教授 ) Institute of Electro-Optical Engineering, National.

Light Engine Design and Manufacturing Development in Projection System

Speaker: Hao-Wen Chuang ( 莊浩彣 ) Advisor: Prof. Chung-Hao Tien ( 田仲豪助理教授 ) Prof. Yi-Pai Huang ( 黃乙白助理教授 ) Display Institute, National Chiao Tung University,

Speaker: Yi-Ching Huang 黃怡菁 Advisor: Prof. Han-Ping D. Shieh( 謝漢萍教授 ) Prof. Yi-Pai Huang( 黃乙白教授 ) Institute of Electro-Optical Engineering, National Chiao.

A New MVA-LCD by Polymer Sustained Alignment Technology

1 Ch. 4: Radiometry–Measuring Light Preview 。 The intensity of an image reflects the brightness of a scene, which in turn is determined by (a) the amount.

Motion blur on 2D dimming backlight and motion picture simulation Motion blur on 2D dimming backlight and motion picture simulation Speaker: Chi-Wei Chen.

Date of download: 7/9/2016 Copyright © 2016 SPIE. All rights reserved. Reference glass substrates (a) total transmission (b) and refractive index. Figure.

Speaker: Pi-Cheng Wu ( 吳璧丞 ) Advisor: Prof. Yi-Pai Huang ( 黃乙白 ) Institute of Electro-Optical Engineering, National Chiao Tung University, Hsinchu, Taiwan.

A Multi-Performance Film for Highly Efficient LCD Backlights

Speaker: Tsung-Wei Pai ( 白宗緯 ) Advisor: Prof. Han-Ping D. Shieh ( 謝漢萍教授 ) Prof. Yi-Pai Huang ( 黃乙白教授 ) Institute of Electro-Optical Engineering, National.

Precision Manufacturing & Inspection of Optical Components 光學元件精密製造與檢測 --- Ch 11.1~11.2 Precision Manufacturing & Inspection of Optical Components 光學元件精密製造與檢測.

Speaker: Bo-Wen Xiao ( 蕭博文 ) Advisor: Prof. Yi-Pai Huang ( 黃乙白教授 ) Prof. Chung-Hao Tien( 田仲豪教授 ) Institute of Electro-Optical Engineering, National Chiao.

Asymmetric Reflector with Free-form Curvature for Uniform Projecting Illumination Hao-Wen Chuang 1 ( 莊浩彣 ), Chien-Hsiang Hung 2 ( 洪健翔 ), Chung-Hao Tien.

1 FPD / ADO Lab Yi-Ching Huang 2009 Paper Review 31.3: Reduction and Measurement of 3D Moiré Caused by Lenticular Sheet and Backlight Shin-ichi Uehara,

1 Yi-Pai HuangAdvanced Display Optics Lab 學研計畫 --- 子計畫二掃描式光學元件 --- 多電極液晶透鏡 Speaker: Yi-Pai Huang ( 黃乙白教授 ) Department of Photonics and Display Institute,

Liquid Crystal Lenses Presentation On By: Dheeraj Kumar

CS262 – Computer Vision Lect 4 - Image Formation

Ultra broadband plasmonic absorbers for terahertz waves

Department of Photonics, Chiao Tung University

PC 11.4 Translations & Rotations of Conics

BRDFs Randy Rauwendaal.

Radiosity Dr. Scott Schaefer.

Part One: Acquisition of 3-D Data 2019/1/2 3DVIP-01.

An optical technique for measuring surface recombination velocity

Find the area of the surface obtained by rotating the curve about the x-axis. {image} {image}

Find the area of the surface obtained by rotating the curve about the x-axis. {image}

Environment Mapping.

Planar gradient meta-surface to focus EM waves in reflection geometry

Presentation transcript:

Light Control Film for Cholesteric LCD Image Quality Enhancement Speaker: Ching-Yao Huang (黃靖堯) Advisors: Prof.Yi-Pai Huang (黃乙白教授) Prof.Chung-Hao Tien (田仲豪教授) Institute of Electro-Optical Engineering, National Chiao Tung University, Hsinchu, Taiwan Oct.13 2008

Outline Introduction Motivation and objective Simulation module Conclusions and future works

Introduction of Cholesteric LCD E-book Billboard Advantages: Low power consumption Stable structure No color filter Disadvantages: Specular reflection The glare effect Color shift

Outline Introduction Motivation and objective Simulation module Conclusions and future works

Motivation Line light source X LCF Viewing region Substrate Electrode Alignment layer LCF Cholesteric LC Ch-LCD Viewing region Alignment layer Electrode Substrate The lens specification can be determined by the position of light source, display, and viewers.

The position of light source and display size Objective Measurement (BRDF of the display) Indoor large billboard Ch-LCD The position of light source and display size Optical film Mathematical module Film design Light source The viewing region Uniform illumination

Outline Introduction Motivation and objective Simulation module Conclusions and future works

BRDF Bidirectional reflectance distribution function(BRDF) Definition: BRDF defines the reflective characteristic of the surface.

Simulation Structure 10cm 20cm 30cm 14.03 ° 5.71 ° 180cm 160cm 20mm LCF Up glass Ch-LC cell Low glass Light source Light source 20cm 10cm Ch-LCD 30cm 14.03 ° 10mm 20mm 5.71 ° 180cm 160cm 2m 15mm

Microstructure ρ=25° ρ=50° ρ: incident angle σ: reflection angle α, β: inclined angle of slope ρ=60° The mark area is the slope range of micro-lens corresponding to the expected reflection angle.

Simulation result The reflected light redistributed to the expected region by adding the LCF in front of the display. Bare Ch-LCD With LCF

Outline Introduction Motivation and objective Simulation module Conclusions and future works

Conclusions The design process can get the appropriate parameters of the micro-lens. The angular distribution of reflected light with LCF redistributed to the expected value in simulation. The incident angle can’t be too large that causes the shadow effect.

Future Works Realize the design of LCF . Verify the design process with the experimental result and improve if there is any drawback. (1) BRDF (2) Experimental setup

Thanks for your kind attention

The curved surface can be expressed as: Its tangent vector is: The wavefront unit vector of incident light

Light source

Conic constant k = 0 sphere -1 < k < 0 ellipse with major axis on the z axis k = -1 parabola k < -1 hyperbola k > 0 oblate sphere (ellipse swept about minor axis)

Planar texture Focal conic texture Homeotropic texture