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JUNE 6-9, 2006 (Tuesday - Friday)
MOSCONE CONVENTION CENTER
SAN FRANCISCO, CALIFORNIA, USA

Session 1: Annual SID Business Meeting
Tuesday, June 6 / 8:00 - 8:20 am / Room 134/135
Session 2: Opening Remarks / Keynote Session
Tuesday, June 6 / 8:20 - 10:20 am / Room 134/135
2.1:	Keynote Address 1: A Perspective on the TFT-LCD Industry Bock Kwon, Executive Vice President, Chief Marketing & Sales Officer, LG.Philips LCD, Seoul, Korea
2.2:	Keynote Address 2: Large-Sized FPDs: The Driving Forces for Real-Life Viewing Experiences at Home Takeshi Uenoyama, Director, Advanced Technology Research Laboratories and Image Devices Development Center, Matsushita Electric Industrial Co., Ltd., Osaka, Japan
2.3:	Keynote Address 3: A Revolution in Display Technology: Enabling Next-Generation Wireless Communications Paul Jacobs, Chief Executive Officer, QUALCOMM Inc., San Diego, CA, U.S.A.
Session 3: Motion-Artifact Characterization (Display Measurement)
Tuesday, June 6 / 10:50 am - 12:10 pm / Room 132/133
Chair: Steve Atwood, Display Consultant
Co-Chair: Lou Silverstein, VCD Sciences, Inc.
3.1:	Advanced Motion-Artifact Analysis Method for Dynamic-Contrast Degradation Caused by Line Spreading Joe Miseli, Sun Micorsystems, Inc., Menlo Park, CA, USA
3.2:	LCD Motion-Artifact Determination Using Simulation Methods Xiao-Hua Li, South East University, Electronic Research Institute, Jiangsu, China
3.3:	Edge-Blur-Width Analysis Using a Contrast Sensitivity Function Kouichi Oka, Otsuka Elctronics Co., Ltd., Shiga, Japan
3.4:	Improvement of Motion Image Quality by High Frame Rate Yoshihiko Kuroki, Sony Corp., Kanagawa Japan
Session 4: Novel Active-Matrix Devices and Displays (Active-Matrix Devices)
Tuesday, June 6 / 10:50 am - 12:30 pm / Room 103
Chair: Fan Luo, AU Optronics Corp.
Co-Chair: Takatoshi Tsujimura, Kodak Japan
4.1:	Distinguished Paper: High-Mobility Top-Gate Zinc Oxide TFTs (ZnO-TFTs) for AMLCDs Mamoru Furuta, Kochi University of Technology, Kochi, Japan
4.2:	Scaling Effects on ZnO Transparent TFTs Chung-Chih Wu, National Taiwan University, Taipei, Taiwan
4.3:	Transparent ZnO TFT Array for the Application of Transparent AMOLED Display Sang-Hee Ko Park, Electronics & Telecommunications Research Institute, Taejon, Korea
4.4:	Invited Paper: Low-Cost Dual-Select-Diode AMLCD Technology Willem Den Boer, ScanVue Technologies LLC, Hillsboro, OR, USA
4.5:	The Design and Driving of Active-Matrix Electrochromic Displays Driven by LTPS TFTs Simon W.-B. Tam, Cambridge Research Laboratory of Epson, Cambridge, U.K.
Session 5: OLED Materials (OLEDs)
Tuesday, June 6 / 10:50 am - 12:10 pm / Room 135
Chair: Fred Chen, National Chiao Tung University
Co-Chair: Heinrich Becker, Merck OLED Materials GmbH
5.1:	Fluorescent RGB OLEDs with High Performance Takashi Arakane, Idemitsu Kosan Co., Ltd., Sodegaura, Chiba, Japan
5.2:	Performance of Highly Efficient Electron Transporting Materials in OLED Displays Tommie Royster, Eastman Kodak Co., Rochester, NY, USA
5.3:	New Triazole Derivatives as Hole-Blocking and Electron-Transporting Materials for OLEDs Musubu Ichikawa, Shinshu University, Nagano, Japan
5.4:	A High-Work-Function Hole-Injection Material for Enhanced OLED Performance Che-H Hsu, DuPont Displays, Wilmington, DE, USA
Session 6: Plasma-Display Driving (Emissive Displays)
Tuesday, June 6 / 10:50 am - 11:30 pm / Room 102
Chair: Gerrit Oversluizen, Philips Research Laboratories
Co-Chair: Koichi Wani, iFire Technology Corp.
6.1:	A Study on Wall-Charge Behavior of Single Sustain Waveform Based on V_t Closed-Curve Analysis in ACPDPs Byung-Gwon Cho, Kyungpook National University, Daegu, Korea
6.2:	Hybrid Write- and Erase-Addressing of PDPs with High Contrast and High Luminance Dae-Hun Kim, The University of Electro-Communications, Tokyo, Japan
6.3L:	Late-News Paper: Fast Addressing of Plasma Display Panels Vladimir Nagorny, Plasma Dynamics Corp, Waterville, OH, USA
Session 7: Display Applications I (Applications)
Tuesday, June 6 /10:50 am - 12:10 pm / Room 104
Chair: Susan Jones, eMagin Corp.
Co-Chair: Adi Abileah, Planar Systems, Inc.
7.1:	Invited Paper: Novel Diffractive Optical Components for Near-to-Eye Virtual Displays Tapani Levola, Nokia Research Center, Tampere, Finland
7.2:	Tandem OLED and Reflective LCD with a Microlens Array Jiun-Haw Lee, National Taiwan University, Taipei, Taiwan
7.3:	Novel Structure of Carbon-Nanotube Backlight Unit Biing-Nan Lin, ERSO/ITRI, Hsinchu, Taiwan
7.4:	A Flexible Plastic SVGA e-Paper Display Seamus Burns, Plastic Logic, Ltd., Cambridge, U.K.
Session 8: 3-D Displays I (Display Systems/Applied Vision)
Tuesday, June 6 / 10:50 am - 12:10 pm / Room 130/131
Chair: Jim Larimer, Image Metrics
Co-Chair: Eric Seibel, University of Washington
8.1:	Invited Paper: Achieving Near-Correct Focus Cues in a 3-D Display Using Multiple Image Planes Martin Banks, University of California at Berkeley, Berkeley, CA, USA
8.2:	A High-Resolution Autostereoscopic Display Employing a Time-Division Parallax Barrier Hyo Jin Lee, Samsung SDI Co., Ltd., Kyunggi-do, Korea
8.3:	A Minimum Dispersion Stereoscopic Rear-Projection Display Ching-Hsiang Tsai, National Taiwan University, Taipei, Taiwan
8.4:	A Wire-Grid Stereoscopic Display Jin Jang, Kyung Hee University, Seoul, Korea
Session 9: Display Measurement and Standards (Display Measurement)
Tuesday, June 6 / 2:00 - 3:20 pm / Room 132/133
Chair: Tom Fiske, Rockwell Collins Display Systems
Co-Chair: Frank Rochow, LMT Lichtmesstechnik GmbH
9.1:	Invited Paper: International Standards for Electronic-Display Devices: Current Status and Agenda Michael Becker, Display-Metrology & Systems, Karlsruhe, Germany
9.2:	Temporal and Color Measurements in Medical Displays Aldo Badano, CDRH/FDA, Rockville, MD, USA
9.3:	High Throughput Viewing-Angle Measurements Using an Imaging Sphere Doug Kreysar, Radiant Imaging, Duvall, WA, USA
9.4:	Comparing Reflection Characteristics of Paper Materials and Display Devices John Brewer, Eastman Kodak Co., Rochester, NY, USA
Session 10: Organic TFTs (Active-Matrix Devices)
Tuesday, June 6 / 2:00 - 3:30 pm / Room 103
Chair: John Zhong, Apple Computer
Co-Chair: Mike Hack, Universal Display Corp.
10.1:	Invited Paper: Chemical and Electrical Stabilities of Organic TFTs for Display Application Jin Jang, Kyung Hee University, Seoul, Korea
10.2:	Low-Voltage-Operating AMOLED Driven by Pentacene Organic TFT Using High-K Gate Dielectric Yong Woo Choi, LG Electronics, Seoul, Korea
10.3:	A 4.0-in. OTFT-Based AMOLED Display Min Chul Suh, Samsung SDI Co., Ltd., Kyunggi-do, Korea
10.4:	Fast-Response Flexible LCD Panel Driven by a Low-Voltage Organic TFT Yoshihide Fujisaki, NHK Science & Technical Research Laboratories, Tokyo, Japan
10.5L:	Late-News Paper: All-Organic TFT-Driven QQVGA Active-Matrix Polymer-Dispersed LCD with Solution-Processed Insulator, Electrodes, and Wires Nobuhide Yoneya, Sony Corporation, Atsugi-shi, Kanagawa, Japan
Session 11: Blue-Emitting OLEDs (OLEDs)
Tuesday, June 6 / 2:00 - 3:20 pm/ Room 135
Chair: Ching Tang, Eastman Kodak Co.
Co-Chair: Chishio Hosokawa, Idemitsu Kosan Co., Ltd.
11.1:	Invited Paper: Advances in Blue-Phosphorescent OLEDs Mike Weaver, Universal Display Corp., Ewing, NJ, USA
11.2:	Efficient Deep-Blue Triplet Emitters for OLEDs Peter Erk, BASF Aktiengesellschaft, Ludwigshafen, Germany
11.3:	Control of Emission Zone in a Full-Color AMOLED with a Blue Common Layer (BCL) Mu-Hyun Kim, Samsung SDI Co., Ltd., Yongin, Korea
11.4:	Highly Efficient Blue Organic Electrophosphorescent Devices Based on 3,6-Bis(Triphenylsilyl)Carbazole as the Host Material Chung-Chih Wu, National Taiwan University, Taipei, Taiwan
Session 12: Plasma TV (Emissive Displays)
Tuesday, June 6 / 2:00 - 3:30 pm / Room 102
Chair: Larry Weber, Display Consultant
Co-Chair: Baoping Wang, Southeast University
12.1:	Invited Paper: Performance- and Cost-Oriented Full-HD PDPs with High-Picture Quality for 42 in. or Smaller Sizes Minsun Yoo, Samsung SDI, Yongin, Kyunggi-do, Korea
12.2:	Development of 50-in.-Diagonal Full-HD (1920 x 1080) PDPs Satoshi Jinno, Pioneer Corp., Yamanashi, Japan
12.3:	New Findings on Display Performance in Large-Sized PDPs Isao Kawahara, Matsushita Electric Industrial Co., Ltd., Osaka, Japan
12.4:	A Study of Full-High-Definition PDPs under 50 in. Sang-Hoon Yim, Samsung SDI Co., Ltd., Kyunggi-do, Korea
12.5L:	Late-News Paper: High-Luminance 42-in. Full High-Definition PDP Masayuki Shibata, Fujitsu Hitachi Plasma Display Ltd., Takatsu-ku, Kawasaki, Japan
Session 13: Display Applications II (Applications)
Tuesday, June 6 / 2:00 - 3:20 pm / Room 104
Chair: Jyrki Kimmel, Nokia Research Center
Co-Chair: Robert Smith-Gillespie, FPD Design & Consulting, LLC
13.1:	Ocular OLED-HMD with Simultaneous Eye Tracking Stefan Riehemann, Fraunhofer Institute for Applied Optics and Precision Engineering, Jena, Germany
13.2:	Color Imaging and Display System with Field-Sequential OCB LCD Hidehiro Seki, Hachinohe Institute of Technology, Aomori, Japan
13.3:	Improvement for DICOM GSDF Calibration for Medical Displays Tom Kimpe, Barco-Medical Imaging Systems, Kortrijk, Belgium
13.4:	Continuous-Tone Printing Using LCoS David Kessler, Eastman Kodak Co., Rochester, NY, USA
Session 14: 3-D Displays II (Applied Vision/Display Systems)
Tuesday, June 6 / 2:00 - 3:20 pm / Room 130/131
Chair: Eric Seibel, University of Washington
Co-Chair: Helge Seetzen, BrightSide Technologies
14.1:	Resolution Artifacts in Multi-View Autostereoscopic 2-D/3-D Displays Graham Woodgate, Ocuity Ltd., Oxfordshire, U.K.
14.2:	Continuous-Depth-Enhanced Integral Imaging Using Multi-Layered Display Devices Byoungho Lee, Seoul National University, Seoul, Korea
14.3:	Viewing-Angle Enhancement of an Integral Imaging System Byoungho Lee, Seoul National University, Seoul, Korea
14.4:	Computer-Generated Hologram of Full Parallax Using a White-Light Source and LCDs Xiaojie Zhang, Zhejiang University, Adrian, China
Session 15: VA-Mode LCD (Liquid-Crystal Technology)
Wednesday, June 7 / 9:00 - 10:20 am / Room 132/133
Chair: Yukito Saitoh, Fuji Photo Film
Co-Chair: Alan Lien, AU Optronics Corp.
15.1:	A Novel Architecture VA Mode for Improved Response Time Jiwon Sohn, Samsung Electronics, Kyunggi-do, Korea
15.2:	Distinguished Paper: A New Pixel Design and a Novel Driving Scheme for Multi-Domain VA-LCDs Po-Sheng Shih, HannStar, Taoyuan, Taiwan
15.3:	Analytical Solutions for the Wide-View LCDs with Uniaxial-Film Compensation Xinyu Zhu, University of Central Florida, Orlando, FL, USA
15.4:	Optical Compensation of a High-Transmittance MVA-LCD Chi-Huang Lin, Toppoly Optoelectronics Corp., Miao-Li County, Taiwan
Session 16: Mobile TFT-LCDs (Active-Matrix Devices)
Wednesday, June 7 / 9:00 - 10:20 am / Room 103
Chair: Willem Den Boer, ScanVue Technologies LLC
Co-Chair: Jin Jang, Kyung Hee University
16.1:	Invited Paper: A Novel Outdoor Readability of Portable TFT-LCD with AFFS Technology Kyung Ha Lee, BOE-HYDIS Technology Co., Ltd., Kyunggi-do, Korea
16.2:	MB7: Advanced TFT-LCD Data-Line Reduction Method Young Soon Lee, Samsung Electronics, Chungcheongnam-do, Korea
16.3:	*Invited Paper:* Advanced IPS Technology for Mobile Applications Norio Aoki, Hitachi Displays, Ltd., Tokyo, Japan
16.4:	*Invited Paper:* Value-Added Circuit and Function Integration for SOG Based on LTPS Technology Tohru Nishibe, Toshiba Matsushita Display Technology Co., Ltd., Saitama, Japan
Session 17: OLED Device Structures I (OLEDs)
Wednesday, June 7 / 9:00 - 10:20 am / Room 135
Chair: Julie Brown, Universal Display Corp.
Co-Chair: Junji Kido, Yamagata University
17.1:	Invited Paper: Carrier-Injection Barrier Formation at Metal/Organic Interfaces M.K. Fung, City University of Hong Kong, Kowloon, Hong Kong
17.2:	White-OLED Structures Using Molecularly Doped Charge-Transport Layers Ansgar Werner, Novaled GmbH, Dresden, Germany
17.3:	Study of Light-Emission Mechanism and Long Lifetime in Phosphorescent OLEDs Using Graded Doping Structure Jun Yeob Lee, Dankook University, Seoul, Korea
17.4:	High-Power Efficient OLEDs with a Novel p-Doping Layer Chan Ching Chang, National Chiao Tung University, Hsinchu, Taiwan
Session 18: Plasma-Display Discharges (Emissive Displays)
Wednesday, June 7 / 9:00 - 10:30 am / Room 102
Chair: Shigeo Mikoshiba, University of Electro-Communications
Co-Chair: Kyung Cheol Choi, Korea Advanced Institute of Science and Technology
18.1:	Invited Paper: High-Efficacy PDP Design Gerrit Oversluizen, Philips Research Laboratories, Eindhoven, The Netherlands
18.2:	Investigation of Micro-Scale Capillary Plasmas for a PDP application Sooho Park, Samsung SDI Co., Ltd., Kyunggi-do, Korea
18.3:	Microcavity Plasma Devices for Display Applications: Independently Addressable Arrays with Improved Luminous Efficacy Sung-Jin Park, University of Illinois, Urbana, IL, USA
18.4:	Ultra-Large-Sized Flexible Plasma Display with Luminous Efficiency Higher than 50 lm/W In Woo Seo, Seoul National University, Korea
Session 19: Applications and Vision (Applications/Applied Vision)
Wednesday, June 7 / 9:00 - 10:20 am / Room 104
Chair: Adi Abileah, Planar Systems, Inc.
Co-Chair: Eli Peli, The Schepens Eye Research Institute
19.1:	Improved Six-Primary-Color 23-in. WXGA LCD Using Six-Color LEDs Hiroaki Sugiura, Mitsubishi Electric Corp., Kyoto, Japan
19.2:	xvYCC: A new Standard for Video Systems Using Extended-Gamut YCC Color Space Tatsuhiko Matsumoto, Sony Corp., Tokyo, Japan
19.3:	Laser TV: Ultra-Wide Gamut for a New Extended Color-Space Standard, xvYCC Jun Someya, Mitsubishi Electric Corp., Nagaokakyo, Kyoto, Japan
19.4:	Microdisplay Panel as Vision-Test-Chart Imager Chung Jen Ou, Hsiuping Institute of Technology, Taichung, Taiwan
Session 20: Switchable 3-D Displays (Display Systems)
Wednesday, June 7 / 9:00 - 10:20 am / Room 130/131
Chair: David Eccles, Eccles Engineering
Co-Chair: John Parker, Research and Engineering Development, Inc.
20.1:	Locally Switchable 3-D Displays Martin Hiddink, Philips Research Laboratories, Eindhoven, The Netherlands
20.2:	A Convertible 2-D/3-D Display Based on a Modified Integral Imaging Technique Byoungho Lee, Seoul National University, Seoul, Korea
20.3:	A Novel Double-Display Screen with 2-D and 3-D Modes Goro Hamagishi, Sanyo Epson Imaging Devices Corp., Gifu, Japan
20.4:	Moiré Pattern and Image Crosstalk Reduction in 3-D Mobile Displays Chun-Ho Chen, National Chiao Tung University, Hsinchu, Taiwan
Session 21: Wide-Viewing-Angle LCDs (Liquid-Crystal Technology)
Wednesday, June 7 / 10:40 - 12:00 pm / Room 132/133
Chair: Phil Bos, Kent State University
Co-Chair: Hiroyuki Mori, Fuji Photo Film Co., Ltd.
21.1:	New Structure of IPS mode with In-Cell Retarder for TV Application Kyeong-Jin Kim, LG.Philips LCD, Gyungbuk, Korea
21.2:	IPS-LCD with High Contrast Ratio over 80:1 at All Viewing Angles Daisuke Kajita, Hitachi, Ltd, Ibaraki, Japan
21.3:	Compensation of Various LCD Modes by Positive O-Plates Tomohiro Ishikawa, Eastman Kodak Co., Rochester, NY, USA
21.4:	Development of Low-Retardation TAC Film for Color-Shift Improvement in LCDs Tadashi Ito, Fuji Photo Film, Ltd., Kanagawa, Japan
Session 22: Active-Matrix Integrations (Active-Matrix Devices)
Wednesday, June 7 / 10:40 am - 12:00 pm / Room 103
Chair: Fujio Okumura, NEC Corp.
Co-Chair: Norbert Fruehauf, University of Stuttgart
22.1:	Invited Paper: CGSilicon Technology and System Integration for Mobile Applications Yoshitaka Yamamoto, Sharp Corp., Nara, Japan
22.2:	*Invited Paper:* System-on-Glass Using P-Type TFTs Wein-Town Sun, AU Optronics Corp, Hsinchu, Taiwan
22.3:	A Novel Barrierless Cu Gate for TFT-LCDs Wen Ching Tsai, AU Optronics, Hsinchu, Taiwan
22.4:	*Invited Paper:* Ultra-Low-Power LTPS TFT-LCD Technology Using a Multi-Bit Pixel Memory Circuit Yoshiharu Nakajima, Sony Corp., Kanagawa, Japan
Session 23: OLED Device Structures II (OLEDs)
Wednesday, June 7 / 10:40 am - 12:00 pm / Room 135
Chair: Tariq Ali, eMagin Corp.
Co-Chair: Jutta Rasp, FP Displays
23.1:	High-Performance and High-Stability PIN OLED Tony Maindron, Thomson R&D France, Cesson-Sévigné, France
23.2:	An Efficient Stacked OLED with Double-Sided Light Emission Jiaxin Sun, Hong Kong University of Science and Technology, Kowloon, Hong Kong
23.3:	Distinguished Paper: High-Efficiency Tandem Blue OLEDs Liang-Sheng Liao, Eastman Kodak Co., Rochester, NY, USA
23.4:	Highly Efficient Top-Emitting OLEDs Shih-Feng Hsu, National Chiao Tung University, Hsinchu, Taiwan
Session 24: Plasma-Display Cell Structures (Emissive Displays)
Wednesday, June 7 / 10:40 am - 12:00 pm / Room 102
Chair: Harm Tolner, PDP Consultant
Co-Chair: Ki-Woong Whang, Seoul National University
24.1:	Invited Paper: Design and Performance of ACPDP Cells with Auxiliary Electrode Structures Kunihide Tachibana, Kyoto University, Kyoto, Japan
24.2:	Discharge Characteristics of ACPDP with Stacked Facing Electrode Jung-Woo Ok, Pusan National University, Pusan, Korea
24.3:	Experimental Study on Halo-Type Boundary Image Sticking in 42-in. ACPDPs Choon-Sang Park, Kyungpook National University, Daegu, Korea
24.4:	Invited Paper: The Improvement of Ambient Contrast in PDPs Using Subtractive Mixture of Colors Sung Hune Yoo, Samsung SDI Co., Ltd., Chungchengnam-do, Korea
Session 25: Color, Luminance, and Contrast (Applied Vision)
Wednesday, June 7 / 10:40 am - 12:00 pm / Room 104
Chair: Louis Silverstein, VCD Sciences, Inc.
Co-Chair: Tom Kimpe, Barco-Medical Imaging Systems
25.1:	Invited Paper: Development of Wide-Color-Gamut Mobile Displays with Four-Primary-Color LCDs Eiji Chino, Sanyo Epson Imaging Devices Corp., Nagano, Japan
25.2:	Distinguished Student Paper: How Color Break-Up Occurs in the Human Visual System: Mechanism of Color Break-Up Phenomenon Aya Yohso, Waseda University, Tokyo, Japan
25.3:	Observation of Contrast, Brightness, and Amplitude Resolution of Displays Helge Seetzen, BrightSide Technologies, Vancouver, BC, Canada
25.4:	Effect of MPEG-2 Compression Parameters on Perceived Video Image Quality Nele Van Den Ende, Phillips Research, Eindhoven, The Netherlands
Session 26: Power Savings in Backlights (Display Systems)
Wednesday, June 7 / 10:40 am - 12:00 pm / Room 130/131
Chair: Sungkyoo Lim, Dankook University
Co-Chair: Masaru Suzuki, Eastman Kodak Co.
26.1:	Low-Frequency Square-Wave Drive for Large-Screen LCD-TV Backlighting Systems Montu Doshi, University of Colorado at Boulder, Boulder, CO, USA
26.2:	Distinguished Paper: Brightness Preservation for LCD Backlight Reduction Louis Kerofsky, Sharp Laboratories of America, Camas, WA, USA
26.3:	High-Performance EEFL Backlight Systems for Large-Sized LCD-TVs Jae Bum Kim, LG.Philips LCD, Gyungbuk-do, Korea
26.4:	Algorithm for Contrast Reserve, Backlight Dimming, and Backlight Boosting on LCDs Jeroen Stessen, Philips Applied Technologies, Eindhoven, The Netherlands
Session 27: Non-Rubbing Alignment (Liquid-Crystal Technology)
Wednesday, June 7 / 3:30 - 4:50 pm / Room 132/133
Chair: Akihiro Mochizuki, Nano Loa USA, Inc.
Co-Chair: Shunsuke Kobayashi, Tokyo University of Science
27.1:	Invited Paper: New Developments in Liquid-Crystal Photo-Aligning by Azo Dyes Vladimir Chigrinov, Hong Kong University of Science & Technology, Kowloon, Hong Kong
27.2:	Optically Rewritable Reflective LCD Andy Fuh, National Cheng Kung University, Tainan, Taiwan
27.3:	Electro-Optical Cholesteric Sheet Writing Stanley Stephenson, Eastman Kodak Co., Rochester, NY, USA
27.4:	Nanoimprinting Lithography as Novel Tool Inducing Self-Aligned Liquid Crystals for Alignment Layer Huang-Ming Chen, National Chia Tung University, Hsinchu, Taiwan
Session 28: LTPS Processing (Active-Matrix Devices)
Wednesday, June 7 / 3:30 - 4:40 pm / Room 103
Chair: John Zhong, Apple Computer
Co-Chair: Man Wong, Hong Kong University of Science & Technology
28.1:	AMOLED Using CW-Laser Crystallized Poly-Si TFTs Jin Jang, Kyung Hee University, Seoul, Korea
28.2:	Invited Paper: SLS Technology for High-Performance Poly-Si TFTs and Its Application to Advanced LCD and SOG Myung-Kwan Ryu, BOE-HYDIS LCD-TFT SBU, Kyunggi-do, Korea
28.3:	World's Largest (21.3 in.) UXGA Non-Laser LTPS AMLCD Young-Jin Chang, Samsung Electronics Co., Ltd., Kyunggi-do, Korea
28.4L:	Late-News Paper: Millisecond Crystallization of a-Si Film using Joule Heating Jae-Sang Ro, Hongik University, Seoul, Korea
Session 29: OLED Device Structures III (OLEDs)
Wednesday, June 7 / 3:30 - 4:30 pm / Room 135
Chair: Jerzy Kanicki, University of Michigan
Co-Chair: Jan Blochwitz-Nimoth, Novaled GmbH
29.1:	200-cd/A Microcavity Two-Unit Tandem OLEDs Chung-Chih Wu, National Taiwan University, Taipei, Taiwan
29.2:	Highly Efficient and Stable Inverted Bottom-Emission OLED Ta Ya Chu, National Chiao Tung University, Hsinchu, Taiwan
29.3:	Very Bright and Efficient Top-Emitting OLED with Ultra-Thin Yb as the Effective Electron Injector Xiuling Zhu, Hong Kong University of Science & Technology, Kowloon, Hong Kong
Session 30: Phosphors (Emissive Displays)
Wednesday, June 7 / 3:30 - 4:50 pm / Room 102
Chair: Aron Vecht, Aron Vecht and Associates
Co-Chair: David Morton, Army Research Laboratory
30.1:	Invited Paper: VUV Phosphors for PDPs: Today and Tomorrow Thomas Juestel, Philips Research Laboratories, Aachen, Germany
30.2:	Development of Printable Phosphor Inks for High-Definition Displays Robert Withnall, University of Greenwich, Kent, U.K.
30.3:	Reduction of Electron-Beam-induced Degradation of ZnS Green Phosphor Coated with Phosphate Iwao Mitsuishi, Toshiba Corp., Kawasaki, Japan
30.4:	Bright-Blue Electroluminescence of BaAl2S4:Eu Thin Films by Sputtering Guo Liu and Joe Acchione, iFire Technology Co., Ontario, Canada
Session 31: Display Performance of Image Quality (Applied Vision)
Wednesday, June 7 / 3:30 - 5:10 pm / Room 104
Chair: Ingrid Heynderickx, Philips Research Laboratories
Co-Chair: Michael Miller, Eastman Kodak Co.
31.1:	Invited Paper: The Spatial Standard Observer: A Human-Vision Model for Display Inspection Andrew Watson, NASA/Ames Research Center, Moffett Field, CA, USA
31.2:	Effect of Character Size and Lighting on Legibility of Electronic Papers Shie-Chang Jeng, ERSO/ITRI, Hsinchu, Taiwan
31.3:	Perceptually Relevant Characterization of LCD Viewing Angle Shaoling Qin, Southeast University, Jiangsu, China
31.4:	A Practical Method for Evaluating Viewing-Angle Characteristics Based on CIECAM02 Yutaro Mitsumori, Fuji Photo Film Co., Ltd., Kanagawa, Japan
31.5:	Characterizing Motion Artifacts and Flicker of PDPs Kees Teunissen, Philips Consumer Electronics, Eindhoven, The Netherlands
Session 32: Backlight Films (Display Systems)
Wednesday, June 7 / 3:30 - 4:30 pm / Room 130/131
Chair: Seyno Sluyterman, Philips Lighting
Co-Chair: Kalil Käläntär, Nippon Leiz Corp.
32.1:	Predicting Performance of a Microlens LCD Brightness Film Randall Wilson, Eastman Kodak Co., Albuquerque, NM, USA
32.2:	A Moiré-Free Platform for LCD Backlighting Dennis Coyle, GE Global Research, Niskayuna, NY, USA
32.3:	New Peeping Prevention Technology to Control Viewing-Angle Properties of TFT-LCDs Kohki Takatoh, Tokyo University of Science, Yamaguchi, Japan
Session 33: Fast-Switching LCDs (Liquid-Crystal Technology)
Wednesday, June 7 / 5:10 - 6:10 pm / Room 132/133
Chair: Michael Wand, LC Vision, LLC
Co-Chair: Phil Bos, Kent State University
33.1:	A 32-in. High-Contrast-Ratio OCB-LCD TV Chien-Lin Pan, Chungwha Picture Tubes, Taoyuan, Taiwan
33.2:	Fabrication and Characterization of Polarization-Shielded Smectic (PSS) LCDs Ai-Sen Liu, AU Optronics Corp., Hsinchu, Taiwan
33.3:	Characterization of Optical Performance for TFT-LCD with Advanced Overdrive Technology (AOT) Andy Chao, HannStar Display Corp., Tao-Yuan Hsien, Taiwan
Session 34: Flexible Active-Matrix Displays (Active-Matrix Devices)
Wednesday, June 7 / 5:10 - 6:30 pm / Room 103
Chair: Norbert Fruehauf, University of Stuttgart
Co-Chair: Fan Luo, AU Optronics Corp.
34.1:	A 2.2-in. Top-Emission AMOLED on Flexible Metal Foil with SOG Planarization Jin Jang, Kyung Hee University, Seoul, Korea
34.2:	A 2.2-in. qqVGA AMOLED Driven by Ultra-Low-Temperature Poly-Si(ULTPS) TFT Fabricated below 200ºC Jang Yeon Kwon, Samsung Advanced Institute of Technology, Kyunggi-do, Korea
34.3:	Transmissive 7-in. VGA a-Si TFT Plastic LCD Using Low-Temperature Processes and Holding Spacer Kyuha Chung, Samsung Electronics, San Jose, CA, USA
34.4:	High-Performance CMOS-on-Plastic Circuits Using Sequential Laterally Solidified Silicon TFTs Michael Kane, Sarnoff Corp., Princeton, NJ, USA
Session 35: OLED Device Structures IV (OLEDs)
Wednesday, June 7 / 5:10 - 6:30 pm / Room 135
Chair: Jeremy Kwon, Kyung Hee University
Co-Chair: Chung-Chih Wu, National Taiwan University
35.1:	Invited Paper: Quantum-Dot Light-Emitting Devices for Pixelated Full-Color Displays Vladimir Bulovic, MIT, Cambridge, MA, USA
35.2:	Innovative Full-Color OLED Technology Based on Light Emission from Guest Dye by Energy Transfer from EL-Excited Host Thin Film Kenya Sakurai, Fuji Electric Advanced Technology Co, Ltd., Nagano, Japan
35.3:	High-Efficiency Phosphorescent OLEDs Coupled with Lateral Color-Conversion Layer Akiyoshi Mikami, Kanazawa Institute of Technology, Ishikawa, Japan
35.4:	Enhancing Light Outcoupling of OLED by Locating Emitters around the Second Antinode of the Reflective Metal Electrode Chung-Chih Wu, National Taiwan University, Taipei, Taiwan
Session 36: Plasma-Display Protecting Layers (Emissive Displays)
Wednesday, June 7 / 5:10 - 6:50 pm / Room 102
Chair: Tsutae Shinoda, Fujitsu Laboratories, Ltd.
Co-Chair: Mastaka Uchidoi, Pioneer Corp.
36.1:	Invited Paper: SrCaO Protective Layer for High-Efficiency PDPs Yasushi Motoyama, Japan Broadcasting Corp. (NHK), Tokyo, Japan
36.2:	Distinguished Paper: New Polycrystalline MgO for a Thermally Stable and Fast Delay Time in ACPDPs Min-Suk Lee, Samsung SDI Co., Ltd., Kyunggi-do, Korea
36.3L:	Secondary-Electron-Emission Coefficients of Pure and Cs-Doped MgO for Low-Energy Noble-Gas Ions Jihwa Lee, Seoul National University, Seoul, Korea
36.4:	Characteristics of MgO Layer Deposited under Hydrogen Atmosphere Kyung-Hyun Park, Hong-ik University, Seoul, Korea
36.5:	Effect of Aging Discharge on the MgO Protective Layer of ACPDP Min Soo Park, LG Electronics, Seoul, Korea
Session 37: Mobile-Display Electronics (Display Electronics)
Wednesday, June 7 / 5:10 - 6:30 pm / Room 104
Chair: Dick McCartney, National Semiconductor Corp.
Co-Chair: Xu Dong, Genesis Microchip
37.1:	Invited Paper: New Developments in Drivers for Mobile AMLCDs Yasuyuki Kudo, Hitachi Ltd., Kanagawa, Japan
37.2:	Improved Electronic Controller for Image-Stable Displays Holly Gates, E-Ink Corp., Cambridge, MA, USA
37.3:	Three-Voltage-Level Driver for Quick-Response Liquid-Powder Display Reiji Hattori, Kyushu University, Fukuoka, Japan
37.4:	Mass-Production-Oriented Master Slice 6-bit Gamma Correction for Mobile Applications Hisashi Sasaki, Toshiba Corp. Semiconductor Co., Yokohama, Japan
Session 38: Special Backlights (Display Systems)
Wednesday, June 7 / 5:10 - 6:30 pm / Room 130/131
Chair: Seyno Sluyterman, Philips Lighting
Co-Chair: Kalil Käläntär, Nippon Leiz Corp.
38.1:	Integrated Thermal Sensor on LCD for Temperature-Compensation System Ki-Chan Lee, Samsung Electronics, Co., Ltd., Chungcheongnam, Korea
38.2:	The Electro-Optic Characteristics of Mercury-Free Flat Fluorescent Lamp for LCD Backlighting Ju Kwang Lee, Seoul National University, Seoul, Korea
38.3:	Dual Light Source for Backlight Systems for Smart Viewing-Adjustable LCDs Ko-Wei Chien, InnoLux Display Corp., Miao-Li County, Taiwan
38.4:	Flexible Backlight-Unit Design Che Chang Hu, Chi Mei Optoelectronics Corp., Tainan, Taiwan
Session 39: Liquid-Crystal Projection (Liquid-Crystal Technology)
Thursday, June 8 / 9:00 - 10:20 am / Room 132/133
Chair: Jim Anderson, Hana Microdisplay Technologies, Inc.
Co-Chair: Terry Scheffer, InFocus Corp.
39.1:	Applying Inorganic Evaporating Deposition Technology to Produce the High-Contrast-Ratio 1080p LCoS RPTV Sheng-Fa Liu, Chungwa Picture Tubes, Ltd., Taoyuan, Taiwan
39.2:	Optical Analysis of Vertically Aligned Mode on Color-Filter LCoS Microdisplay Baolong Zhang, The Hong Kong University of Science & Technology, Kowloon, Hong Kong
39.3:	Distinguished Student Paper: Improved Vertical Alignment of Liquid Crystals with a Large Negative Dielectric Anisotropy Cheng Chen, Kent State University, Kent, OH, USA
39.4:	Polarization-Independent Switching with High Contrast from a Liquid-Crystal Polarization Grating Michael Escuti, North Carolina State University, Raleigh, NC, USA
Session 40: LTPS AMOLED (Active-Matrix Devices)
Thursday, June 8 / 9:00 - 10:20 am / Room 103
Chair: Kalluri Sarma, Honeywell, Inc.
Co-Chair: Jeremy Kwon, Kyung Hee University
40.1:	Invited Paper: AMOLED Technology for Mobile Displays Ho-Kyoon Chung, Samsung SDI Co., Ltd., Kyunggi-do, Korea
40.2:	Invited Paper: LTPS and AMOLED Technologies for Mobile Displays Yaw-Ming Tsai, Toppoly Optoelectronics Corp., Miao-Li County, Taiwan
40.3:	A 2.5-in. Low-Power LTPS AMOLED Display Using Clamped-Inverter Driving for Mobile Applications Hiroshi Kageyama, Hitachi Ltd., Tokyo, Japan
40.4:	Invited Paper: Challenge of High-Resolution to Active-Matrix OLEDs Jiin-Jou Lih, AU Optronics Corp., Hsinchu, Taiwan
Session 41: OLED Manufacturing I (OLEDs/Display Manufacturing)
Thursday, June 8 / 9:00 - 10:30 am / Room 135
Chair: Eliav Haskal, Philips Research Laboratories
Co-Chair: Elliott Schlam, Elliott Schlam Associates
41.1:	Invited Paper: Printable OLEDs Promise for Future TV Markets Shoichi Iino, Seiko-Epson Corp., Nagano, Japan
41.2:	Development of Polymer Light-Emitting-Diode (PLED) Displays Using the Relief-Printing Method Eiichi Kitazume, Toppan Printing Co., Ltd., Saitama, Japan
41.3:	In-Line Deposition of High-Efficiency PIN OLEDs Michael Toerker, Fraunhofer Institute for Photonic Microsystems (IPMS), Dresden, Germany
41.4:	New Capabilities in Vacuum Thermal Evaporation Sources for Small-Molecule OLED Manufacturing Michael Long, Eastman Kodak Co., Bloomfield, NY, USA
41.5L:	Late-News Paper: Deposition of PEDOT:PSS Films by Infrared Laser Vaporization Stephen Johnson, Vanderbilt University, Nashville, TN, USA
Session 42: Plasma-Display Manufacturing (Emissive Displays)
Thursday, June 8 / 9:00 - 10:20 am / Room 102
Chair: Lee Soon Park, Kyungpook National University
Co-Chair: Lauren Palmateer, Qualcomm MEMs Technologies
42.1:	Invited Paper: Cost-Effective Technologies for Barrier Ribs of HD PDPs Yong Seog Kim, Hongik University, Seoul, Korea
42.2:	Barrier Ribs of Counter-Electrode PDP Discharge Cells via Micro-Injection Molding Process Tae-Geum Koh, Hong Ik University, Seoul, Korea
42.3:	The Electrode Green Sheet for Patterning of the Bus Electrodes in ACPDPs Won Seok Jeon, LG Electronics Digital Display Lab, Seoul, Korea
42.4:	Low-Cost Flexible EL Displays with a Novel Electrode Architecture Printed by Offset Lithography Robert Withnall, University of Greenwich, Kent, U.K.
Session 43: Display Interfaces (Display Electronics)
Thursday, June 8 / 9:00 - 10:20 am / Room 104
Chair: Dick McCartney, National Semiconductor Corp.
Co-Chair: Taesung Kim, Samsung Electronics Co., Ltd.
43.1:	Why Displays Require a New Digital Interface Alan Kobayashi, Genesis Microchip, Alviso, CA, USA
43.2:	A 400-Mbps/Channel SiDP Receiver for Mobile TFT-LCD Driver IC Jae-Youl Lee, Samsung Electronics Co., Ltd., Yongin, Korea
43.3:	Distinguished Paper: An Advanced Intra-Panel Interface (AiPi) with Clock Embedded Multi-Level Point-to-Point Differential Signaling for Large-Sized TFT-LCD Applications Myeongjae Park, AnaPass, Inc., Seoul, Korea
43.4:	Two-Wire Interface for Automotive and Avionics LCD Applications Albert Lee, National Semiconductor Corp., Santa Clara, CA, USA
Session 44: LED Backlights (Display Systems)
Thursday, June 8 / 9:00 - 10:30 am / Room 130/131
Chair: Masaru Suzuki, Eastman Kodak Co.
Co-Chair: Jean-Pierre Guillou, Sony Electronics Co.
44.1:	*Invited Paper:* LED Backlight for LCD/TV Monitors: Issues that Remain Munisamy Anandan, Organic Lighting Technologies, del Valle, TX, USA
44.2:	A Novel Direct-LED-Backlight Unit Using Grooved Hexagonal Light-Guide Plate Yen Hsing Lu, National Chiao Tung University, Hsinchu, Taiwan
44.3:	Smart Portable Display System with Adjustable Color-Gamut Control Using Dual LED Light Sources Yu-Ju Hsu, InnoLux Display Corp., Miao-Li, Taiwan
44.4:	RGB-LED Backlights for LCD-TVs with 0D, 1D, and 2D Adaptive Dimming Taro Shirai, University of Electro-Communication, Tokyo, Japan
44.5L:	Late-News Paper: Optimization Parameters for LED Backlighting Solutions Markus Zeiler, OSRAM Opto Semiconductors GmbH, Regensburg, Germany
Session 45: Films for Displays (Liquid-Crystal Technology)
Thursday, June 8 / 10:40 am - 12:20 pm / Room 132/133
Chair: Birendra Bahadur, Rockwell Collins, Inc.
Co-Chair: William Doane, Kent State University
45.1:	*Invited Paper:* Advanced Polarizer Film for Improved Performance of LCD Martin Denker, 3M, Saint Paul, MN, USA
45.2:	TRANSFERRED (see poster paper P.237)
45.3:	Novel WV Film for Wide-Viewing-Angle TN-Mode LCDs Kazuhiko Takeuchi, Fuji Photo Film Co., Ltd., Kanagawa, Japan
45.4:	Wide-Viewing Polarizers Having Relaxed Manufacturing Tolerance Xiang-Dong Mi, Eastman Kodak Co., Rochester, NY, USA
45.5:	Retardation-Adjustable Photo-Induced Biaxial Cholesteric Films for VA-LCDs Satomi Suzuki, Fuji Photo Film Co., Ltd., Kanagawa, Japan
Session 46: a-Si Driven OLED and Integration (Active-Matrix Devices)
Thursday, June 8 / 10:40 am - 12:00 pm / Room 103
Chair: Takatoshi Tsujimura, Kodak Japan
Co-Chair: Roger G. Stewart, Sourland Mountain Associates
46.1:	*Invited Paper:* a-Si for AMOLEDs Meeting the Performance and Cost Demands of Display Applications (Cell Phone to HDTV) Arokia Nathan, Ignis Innovation, Inc., Waterloo, Ontario, Canada
46.2:	New OLED Pixel Circuit and Driving Method to Suppress Threshold Voltage Shift of a-Si:H TFT Taro Hasumi, Kyocera Display Institute Co., Ltd., Kanagawa, Japan
46.3:	A 2.2-in.QVGA a-Si TFT-LCD with High-Reliability Integrated Gate Driver Susumu Edo, Hitachi, Ltd., Ibaraki, Japan
46.4:	Distinguished Student Paper: A 2-in. a-Si:H TFT-LCD with an Embedded Sensor Se Hwan Kim, Kyung Hee University, Seoul, Korea
Session 47: OLED Manufacturing II (OLEDs/Display Manufacturing)
Thursday, June 8, 2006 / 10:50 am - 12:00 pm / Room 135
Chair: Lauren Palmateer, Qualcomm MEMs Technologies
Co-Chair: Lee-Mi Do, ETRI
47.1:	Invited Paper: Development of Novel Paste Cathode for All Print Fabricating OLED Devices Nobuyuki Itoh, Dai Nippon Printing Co., Ltd., Chiba, Japan
47.2:	Stable Deposition of Organic Materials for Ir-Based Red OLEDs Using Organic Vapor-Phase Deposition S. Hartmann, TU Braunschweig, Braunschweig, Germany
47.3:	Plane Source and In-Line Deposition System for OLED Manufacturing Chang-hun Hwang, OLEDON Technology, Kyunggi-do, Korea
47.4:	Lifetime of Thin-Film Encapsulation and Its Impact on OLED Device Performance Marcel Hemerik, OTB Display, Eindhoven, The Netherlands
Session 48: Display Manufacturing: Roll to Roll / Ink Jet (Display Manufacturing)
Thursday, June 8 / 10:40 am - 12:20 pm / Room 102
Chair: Elliott Schlam, Elliott Schlam Associates
Co-Chair: Greg Gibson, FAS Technologies, LLC
48.1:	Low-Temperature Poly-Si TFTs with Ink-Jet-Printed Gate Electrodes Etsuko Shioya, Seiko-Epson Corp., Nagano, Japan
48.2:	WITHDRAWN
48.3:	Continuous Coating of Photo-Alignment Layer on a Flexible Color Filter for LCDs Using a Roll-to-Roll Manufacturing Process Akio Sonehara, Technology Research Association for Advanced Display Materials (TRADIM), Tokyo, Japan
48.4:	Ink-Jet Fabrication of Alignment Layers on HTPS Liquid-Crystal Panels Kei Hiruma, Seiko-Epson Corp., Nagano, Japan
48.5:	Roll-to-Roll Manufacturing Process for Full-Color Electrophoretic Film Xiaojia Wang, SiPix Imaging, Inc., Fremont, CA, USA
Session 49: Color and Gamma Control Technologies (Display Electronics)
Thursday, June 8 / 10:40 - 11:40 am / Room 104
Chair: Taesung Kim, Samsung Electronics Co., Ltd.
Co-Chair: Jun Someya, Mitsubishi Electric Corp.
49.1:	RGB Gamma Curve Control for Improved LCD Color Performance Seung-Woo Lee, Samsung Elctronics Co., Chungcheongnam, Korea
49.2:	Field-Sequential-Color Display with Adaptive Gamut Johan Bergquist, Nokia Research Center, Tokyo, Japan
49.3:	Preferred Skin-Color Reproduction Based on Affine Transform and Contour Reduction Function Using Erosion Ju-Yeon You, Yungpook National University, Daegu, Korea
Session 50: Projection Components (Projection)
Thursday, June 8 / 10:40 am - 12:10 pm / Room 130/131
Chair: Alan Sobel, Flatscreen Technologies Corp.
Co-Chair: John Rudolph, Consultant
50.1:	Improvement in LCoS TV Hung-Wei Chen, Chunghwa Picture Tubes, Ltd., Taoyuan, Taiwan
50.2:	Impact of the Orientation of Panel Pretilt Direction and Quarter-Wave Plate on LCOS Projection System Contrast Jianmin Chen, ColorLink, Inc., Boulder, CO, USA
50.3:	Inorganic Trim Retarder Compensator for VAN-Mode LCoS Projection Systems Kim Tan, JDS Uniphase Corp., Santa Rosa, CA, USA
50.4:	*Invited Paper:* Rear-Projection Screen with Improved Wider Vertical Viewing Angle Tsuyoshi Kashiwagi, Dai Nippon Printing Co., Ltd., Hiroshima, Japan
50.5L:	Late-News Paper: New Micromirror Device for Projection Applications Andrew Huibers, Reflectivity, Inc, Sunnyvale, CA, USA
Session 51: Bistable Displays (Liquid-Crystal Technology)
Thursday, June 8 / 2:00 - 3:10 pm / Room 132/133
Chair: Tony Lowe, Lambent Consultancy
Co-Chair: Igor N. Kompanets, Lebedev Physical Institute of RAS
51.1:	Invited Paper: Bistable LCDs Based on a New Alignment Technology Hoi-Sing Kwok, Hong Kong University of Science & Technology, Kowloon, Hong Kong
51.2:	Zeinthal Bistable Display with Fast Optical Response J.C. Jones, ZBD Displays Ltd, Malvern, U.K.
51.3:	Electrophoretically Controlled Nematic LCD: Bistability and Multistability with Color Generation David Sikharulidze, Hewlett-Packard Laboratories, Bristol, U.K.
51.4L:	Late-News Paper: Development of 5.1-inch High Speed SVGA Bistable BiNem® LCD for Electronic Paper Applications Jacques Angele, NEMOPTIC, Magny les Hameaux, Yvelines, France
Session 52: Field Emitters (FEDs)
Thursday, June 8 / 2:00 - 3:20 pm / Room 103
Chair: Shoji Shirai, Hitachi, Ltd.
Co-Chair: Tsunehiko Sugawara, Asahi Glass Co., Ltd.
52.1:	*Invited Paper:* FEM and In Situ TEM Studies of Carbon-Nanotube Field Emitters Yahachi Saito, Nagoya University, Nagoya, Japan
52.2:	Highly Efficient Field Emission from Spin-Coated Electride Powder Madoka Ono-Kuwahara, Asahi Glass Co., Ltd., Kanagawa, Japan
52.3:	WITHDRAWN
52.4:	Formation of Secondary Thin CNTs on Thick CNTs for FED Emitters Hiroyuki Kurachi, Noritake Co., Ltd., Mie, Japan
Session L: Late-News Session
Thursday, June 8, 2006 / 2:00 - 3:30 PM / Room 135
Chair: Amal Ghosh, eMagin Corporation
L.1:	Late-News Paper (Active-Matrix Devices): A 14-in. LCD Panel Formed using New 4-Mask Technology with Chemical Re-Flow Technique Shusaku Kido, NEC Kagoshima Ltd, Izumi-shi, Kagoshima, Japan
L.2:	Late-News Paper (Display Electronics): A 2.2-inch, Narrow Frame Liquid Crystal System Display with Low Voltage Interface Circuitry Masaki Murase, Sony Corporation, Atsugi-shi, Kanagawa-ken, Japan
L.3:	Late-News Paper (Display Electronics): A COG Source Driver with LCDS Interface for Cost Effective TFT-LCDs Woo-Jae Choi, Magnachip Semiconductor Ltd., Seoul, Korea
L.4:	Late-News Paper (Display Systems): A Simple and Practical Way to Cope With Color Breakup on Field Sequential Color LCDs Kazuo Sekiya, Aomori Prefecture CREATE, JST, Hachinohe-shi, Aomori-ken, Japan
L.5:	Late-News Paper (Display Systems): Small Digital 1080p LCOS for TrIM Technology James Sanford, Steridian Corporation, Vancouver, WA, USA
L.6:	Late-News Paper (Liquid-Crystal Technology): Development of the Novel Transflective LCD Module Using Super-Fine-TFT Technology Michiaki Sakamoto, NEC LCD Technologies, Ltd., Kawasaki, Kanagawa, Japan
L.7:	Late-News Paper (Liquid-Crystal Technology): Novel Polymerisable Liquid Crystalline Acrylates for the Manufacturing of Ultrathin Optical Films Cordula Mock-Knoblauch, BASF AG, Ludwgishafen, Germany
L.8:	Late-News Paper (Projection): Micro-Projectors for Virtual Interfaces Klony Lieberman, VKB, Jerusalem, Israel
L.9:	Late-News Paper (Projection): Laser Projection Display with Low Electric Consumption and Wide Color Gamut by Using Efficient Green SHG Laser and New Illumination Optics Tetsuro Mizushima, Matsushita Electric Industrial Co.,Ltd., Osaka, Japan
Session 53: Display Manufacturing: OLED Materials (Display Manufacturing)
Thursday, June 8 / 2:00 - 3:20 pm / Room 102
Chair: Josef Lapp, Corning Incorporated
Co-Chair: Toshiaki Arai, Sony Corp.
53.1:	Novel Fabrication Process for SM-OLEDs Makoto Wakabayashi, Nissan Chemical Industries, Tokyo, Japan
53.2:	Alkali and Alkaline-Earth Sources for OLED Devices Lorena Cattaneo, SAES Getters S.P.A, Lainate, Italy
53.3:	Influence of Material Purification by Vacuum Sublimation on Organic Optoelectronic Device Performance J. Drechsel, CreaPhys GmbH, Reinhardtsgrimma, Germany
53.4:	Treatments in ELA Process to Improve the Image Quality of AMOLED Displays Kang-Chia Peng, Chunghwa Pictures Tubes, Ltd., Taoyuan, Taiwan
Session 54: LCD Motion Blur I (Display Electronics/Display Systems)
Thursday, June 8 / 2:00 - 3:20 pm / Room 104
Chair: Nikhil Balram, National Semiconductor Corp.
Co-Chair: Brian Berkeley, Samsung Electronics Co., Ltd.
54.1:	Comparison of LCD Motion-Blur-Reduction Methods Using Temporal Impulse Response and MPRT Michiel Klompenhouwer, Philips Research Laboratories, Eindhoven, The Netherlands
54.2:	LCD Motion Blur Analysis and Modeling Based on Temporal PSF Xiao-fan Feng, Sharp Labs of the Americas, Camas, WA, USA
54.3:	Impulsive Driving Technique in S-PVA Architecture Taesung Kim, Samsung Electronics Co., Ltd., Chungcheongnam, Korea
54.4:	Adaptive Dual-Pulse Backlight for LCD-TV Displays Pierre De Greef, Philips Electronics, Eindhoven, The Netherlands
Session 55: Digital Cinema and Bright Projection (Projection)
Thursday, June 8 / 2:00 - 3:20 pm / Room 130/131
Chair: Scott H. Baker, Hitachi
Co-Chair: David Slobodin, InFocus Corporation
55.1:	WITHDRAWN
55.2:	Compact Power Lights for High-End Projection Applications Jens Pollmann-Retsch, Philips Research Laboratories, Aachen, Germany
55.3:	An Ultra-High-Pressure (UHP) Lamp Drive System for Time-Sequential Displays Holger Moench, Philips Research Laboratories, Aachen, Germany
55.4:	A High-Efficiency HTPS Projection Engine with LED Light Sources Hidefumi Sakata, Seiko-Epson Corp., Nagano, Japan
Session 56: Flexible Displays (Liquid-Crystal Technology)
Thursday, June 8 / 3:40 - 5:20 pm / Room 132/133
Chair: Xiao-Yang Huang, Ebulent Technologies Corp.
Co-Chair: Victor Belyaev, Samsung Electronics Co., Ltd.
56.1:	*Invited Paper:* Recent Progress in Flexible and Drapable Reflective Cholesteric Displays Asad Khan, Kent Displays, Inc., Kent, OH, USA
56.2:	*Invited Paper:* Pixel-Isolated Liquid-Crystal Mode for Plastic LCDs Jae-Hoon Kim, Hanyang University, Seoul, Korea
56.3:	Flexible Ink-Jet-Printed Conductive Polymer Electrode Cholesteric Display Erica Montbach, Kent Displays, Inc., Kent, OH, USA
56.4:	Cholesteric PDLC Displays with Low Driving Voltage Krishnan Chari, Eastman Kodak Co., Rochester, NY, USA
56.5:	TRANSFERRED (see poster paper P.238)
Session 57: Field-Emission Displays I (FEDs)
Thursday, June 9 / 3:40 - 5:00 pm/ Room 103
Chair: Masayuki Nakamoto, Shizuoka University
Co-Chair: Kenneth Dean, Motorola
57.1:	*Invited Paper:* Status of the Emission Uniformity of CNT-FED Technology Jean Dijon, CEA Grenoble-LETI, Grenoble, France
57.2:	*Invited Paper:* A 25-in.-Diagonal Carbon-Nanotube FED Richard Fink, Applied Nanotech, Inc., Austin, TX, USA
57.3:	A Novel Spacer-Free Panel Structure and Glass for FEDs Tsunehiko Sugawara, Asahi Glass Co., Ltd., Kanagawa, Japan
57.4:	Distinguished Paper: A Novel Hermetic-Sealing Material for FED Kenji Ishizeki, Asahi Glass Co., Ltd., Yokohama, Japan
Session 58: AMOLEDs I (OLEDs)
Thursday, June 8 / 3:40 - 5:00 pm / Room 135
Chair: Webster Howard, Howard Consulting
Co-Chair: Jeremy Kwon, Kyung Hee University
58.1:	*Invited Paper:* Views on the Present and Future Promise of OLED Displays Nobuki Ibaraki, Toshiba Matsushita Display Technology Co., Ltd., Tokyo, Japan
58.2:	*Invited Paper:* Novel High-Efficiency Top-Emission OLEDs for Display and Lighting Applications Gunther Haas, Thomson, Cesson-Sevigne, France
58.3:	A 3.6-in. 202-ppi Full-Color AMPLED Display Fabricated by Ink-Jet Method Tadashi Gohda, Sharp Corp., Nara, Japan
58.4:	An Effective Inverted OLED Structure for 2.2-in. Full-Color AMOLED Display on a-Si TFT Backplane Shuenn-Jiun Tang, Chunghwa Picture Tubes, Ltd., Taoyuan, Taiwan
Session 59: Display Manufacturing: Inspection and Repair (Display Manufacturing)
Thursday, June 8 / 3:40 - 5:20 pm / Room 102
Chair: Josef Lapp, Corning Incorporated
Co-Chair: Lauren F. Palmateer, Qualcomm MEMs Technologies
59.1:	Mura Inspection for Coated Resist Layer Kunio Ueta, Dainippon Screen Mfg., Ltd., Kyoto, Japan
59.2:	Thin-Film Wiring Technology for FPD-Array Repair Eisaku Kojima, OMRON Corp., Kyoto, Japan
59.3:	Challenges and Approaches in Auto Defect Classification for Large-Sized LCD-TVs Raanan Adin, Orbotech Ltd., Yavne, Israel
59.4:	A Novel Route for Thinning of LCD Glass Substrates Ji Young Byun, Korea Institute of Science and Technology, Seoul, Korea
59.5:	A Novel Test for Evaluating Surface and Edge Strengths of LCD Panels Suresh Gulati, Corning Incorporated, Corning, NY, USA
Session 60: LCD Motion Blur II (Display Electronics/Display Systems)
Thursday, June 8 / 3:40 - 5:00 pm / Room 104
Chair: Michiel A. Klompenhouwer, Philips Research Laboratories
Co-Chair: Xu Dong, Genesis Microchip
60.1:	Response-Time Compensation for Black-Frame Insertion Taesung Kim, Samsung Electronics Co., Ltd., Chungcheongnam, Korea
60.2:	Dynamic Bit-Rate Allocation of High-Compression Feedforward Driving Jun Someya, Mitsubishi Electric Corp., Kyoto, Japan
60.3:	Spatio-Temporal Edge Enhancement for Reducing Motion Blur Baek-Woon Lee, Samsung Electronics Co., Ltd., Kyunggi-do, Korea
60.4:	Moving Picture Simulation with OCB for Image-Blurring-Free LC TVs Nobuyasu Yamagishi, Fuji Photo Film Co., Ltd., Kanagawa, Japan
Session 61: LED Projection (Projection)
Thursday, June 8 / 3:40 - 5:20 pm / Room 130/131
Chair: Matthew Brennesholtz, Insight Media
Co-Chair: Fred Kahn, Kahn International
61.1:	*Invited Paper:* Photonic Lattice LEDs for RPTV Light Engines Christian Hoepfner, LDI, Woburn, MA, USA
61.2:	Large-Sized LED Chip for Projector Illumination Tien-Min Hung, National Taiwan University of Science and Technology, Taipei, Taiwan
61.3:	LED Light Source for RPTV Applications Nicole Breidenassel, OSRAM Opto Semiconductors, Regensburg, Germany
61.4:	LEDs for Microdisplay Illumination: A Performance Update Arlie Conner, 3M Precision Optics Inc., Beaverton, OR, USA
61.5:	LED-Based Light-Recycling Light Sources for Projection Displays Karl Beeson, Goldeneye, Inc., Princeton, NJ, USA
Session 62: Electronic Paper I (Liquid-Crystal Technology)
Friday, June 9 / 9:00 - 10:20 am / Room 132/133
Chair: Paul Drzaic, Drzaic Consulting Services
Co-Chair: Kei-Hsiung Yang, Hannstar Display Corp.
62.1:	*Invited Paper:* System Integration of Electronic-Paper Displays Robert Zehner, E Ink Corp., Cambridge, MA, USA
62.2:	A Flexible 7.1-in. Active-Matrix Electrophoretic Display Yuko Komatsu, Seiko-Epson Corp., Nagano, Japan
62.3:	A 10.1-in. SVGA Ultra-Thin and Flexible Active-Matrix Electrophoretic Display Seung-Han Paek, LG.Philips LCD, Kyunggi-do, Korea
62.4:	Flexible Paper-Like Display Using Charged Polymer Particles Soon-Hyung Kwon, LG Electronics Digital Display Research Lab, Seoul, Korea
Session 63: Field-Emission Displays II (FEDs)
Friday, June 9 / 9:00 - 10:20 am / Room 103
Chair: Hsing-Yao Chen, Chunghwa Picture Tubes, Ltd.
Co-Chair: Chris Curtin, Electronic Displays
63.1:	*Invited Paper:* Recent Improvements in Brightness and Color Gamut of CNT FEDs Eung Joon Chi, Samsung SDI, Yongin, Korea
63.2:	High-Brightness High-Voltage Color FED Technology Kenneth Dean, Motorola, Tempe, AZ, USA
63.3:	Active-Matrix Cathodes with Tapered Macro-Gate for High-Performance FED Yoon-ho Song, Electronics and Telecommunications Reserch Institute, Daejeon, Korea
63.4:	Improvement of Emission Uniformity by Heat-Resisting CNT Paste Soichiro Okuda, Mitsubishi Electric Corp., Hyogo, Japan
Session 64: AMOLEDs II (OLEDs)
Friday, June 9 / 9:00 - 10:30 am / Room 135
Chair: Jerzy Kanicki, University of Michigan
Co-Chair: Norbert Fruehauf, University of Stuttgart
64.1:	A 5.6-in. Flexible Full-Color Top-Emission AMOLED Display on Stainless-Steel Foil Dong Jin, Samsung SDI Co., Ltd., Kyunggi-do, Korea
64.2:	Full-Color 100-dpi AMOLED Displays on Flexible Stainless-Steel Substrates Anna Chwang, Universal Display Corp., Ewing, NJ, USA
64.3:	a-Si TFT Backplane on Stainless-Steel Foil Substrates for AMOLEDs Yongtaek Hong, Eastman Kodak Co., Rochester, NY, USA
64.4:	Novel Materials and Structures for Highly Efficient, Temperature-Stable, and Long-Lived AMOLED Displays Jan Birnstock, Novaled GmbH, Dresden, Germany
64.5L:	Late-News Paper: Large-Area Flexible Display of Fiber OLED Kiyoshi Yase, AIST, Tsukuba, Japan
Session 65: Display Manufacturing: Thin Films (Display Manufacturing)
Friday, June 9 / 9:00 - 10:20 am / Room 102
Chair: Peter Smith, Honeywell, Inc.
Co-Chair: Hideaki Kawakami, Hitachi Displays Ltd.
65.1:	High-Conductivity SnO2 Thin Films for Flat-Panel Displays Takamitsu Isono, Osaka University, Suita, Japan
65.2:	Spin-on Polymers for TFT Gate Dielectric Application and Planarization of Stainless Steel Jing Hong Chen, Honeywell Electronic Materials, Sunnyvale, CA, USA
65.3:	Quantitative Adhesion Analysis of Sputtered Copper FIlms on Glass Substrate by Microindentation Measurement Chin Lai, Chunghwa Picture Tubes, Ltd., Taoyuan, Taiwan
65.4:	Printable Electronic Material Sets for FPD Manufacturing Karel Vanheusden, Cabot Corp., Albuquerque, NM, USA
Session 66: Video Processing (Display Electronics)
Friday, June 9 / 9:00 - 10:20 am / Room 104
Chair: Nikhil Balram, National Semiconductor Corp.
Co-Chair: Michiel A. Klompenhouwer, Philips Research Laboratories
66.1:	Invited Paper: Making the Best of Legacy Video on Modern Displays Gerard De Haan, Philips Research Laboratories, Eindhoven, The Netherlands
66.2:	Motion-Interpolated FRC Algorithm for 120-Hz LCD Sunkwang Hong, Samsung Electronics, Chungcheongnam, Korea
66.3:	High-Quality-Image Compression System for Low Delay and Real-Time Wireless Transmission Nakao Masashi, Eizo Nanao Corp., Kanazawa, Japan
66.4:	*Invited Paper:* System-on-Chip for Integrated Digital Television Samir Hulyalkar, ATI, Yardley, PA, USA
Session 67: Laser Projection (Projection)
Friday, June 9 / 9:00 - 10:20 am / Room 130/131
Chair: Ming Hsien Wu, Hamamatsu Corp.
Co-Chair: Patrick Candry, BARCO NV
67.1:	*Invited Paper:* Low-Cost Lasers for Projection Displays Gregory Niven, Novalux, Sunnyvale, CA, USA
67.2:	Line-Scanned Laser Display Architectures Based on GEMS Technology: From Three-Lens Three-Chip Systems to Low-Cost Optically Efficient Trilinear Systems
67.3:	Progress in Small-Form-Factor Lasers for Projection Displays Ulrich Steegmuller, OSRAM Opto Semiconductors, Regensburg, Germany
67.4:	GaN-Based High-Power Blue Laser Diodes for Display Applications Takashi Miyoshi, Nichia Corp., Anan, Japan
Session 68: Electronic Paper II (Liquid-Crystal Technology)
Friday, June 9 / 10:40 am - 12:10 pm / Room 132/133
Chair: Allan Kmetz, Display Consultant
Co-Chair: Robert Zehner, E Ink Corp.
68.1:	*Invited Paper:* Achieving Graytone Images in a Microencapsulated Electrophoretic Display Karl Amundson, E Ink Corp., Cambridge, MA, USA
68.2:	Color and Flexible Electronic-Paper Display Using QR-LPD Techonology Ryo Sakurai, Bridgestone Corp., Kodaira, Japan
68.3:	Gray Scales for Video Applications on Electrowetting Displays Roy Van Dijk, Philips Research Laboratories, Eindhoven, The Netherlands
68.4:	Hybrid Color Reflective LCD with a White Subpixel Yasufumi Asao, Canon, Inc., Ohta, Japan
68.5L:	Late-News Paper: Reflective Active-Matrix Color Displays Using Electrophoretic Ink and Color Filters Bijhan Kalhori, E Ink Corporation, Cambridge, MA, USA
Session 69: LCD TV (Active-Matrix Devices)
Friday, June 9 / 10:40 am - 12:20 pm/ Room 103
Chair: Roger Stewart, Sourland Mountain Associates
Co-Chair: Kalluri Sarma, Honeywell, Inc.
69.1:	*Invited Paper:* Advancements for Highest-Performance LCD-TV Sang-Soo Kim, Samsung Electronics Co., Ltd., Chungcheongnam, Korea
69.2:	*Invited Paper:* Recent Improvements of Multidomain-Vertically-Aligned-Mode LCD TV Chung-Kuang Wei, Chi Mei Optoelectronics Corp., Tainan County, Taiwan
69.3:	*Invited Paper:* Advanced MVA for High-Quality LCD TV Po-Lun Chen, AU Optronics Corp., Hsinchu, Taiwan
69.4:	a-Si Based 40-in. LCD TV Using Ultra-Fast OCB Mode Jun-Woo Lee, Samsung Electronics Corp., Yongin, Korea
69.5:	*Invited Paper:* Progress of IPS-Pro Technology for LCD TVs Kikuo Ono, Hitachi Displays, Ltd., Chiba, Japan
Session 70: AMOLEDs III (OLEDs)
Friday, June 9 / 10:40 am - 12:00 pm / Room 135
Chair: Amal Ghosh, eMagin Corp.
Co-Chair: Mike Hack, Universal Display Corp.
70.1:	*Invited Paper:* Large-Sized AMOLED TV: Technical Advancements and Issues Kyuha Chung, Samsung Electronics, San Jose, CA, USA
70.2:	Low-Voltage White-OLED Tandem Structures for Fabricating RGBW AMOLED Displays Tukaram Hatwar, Eastman Kodak Co., Rochester, NY, USA
70.3:	Current-Scaling a-Si:H TFT Pixel Electrode Circuit for AMOLEDs Hojin Lee, University of Michigan, Ann Arbor, MI, USA
70.4:	A 14.1-in. AMOLED Display Using Highly Stable PECVD-Based Nanocrystalline-Silicon TFT Backplane Kunal Girotra, Samsung Electronics Co., Ltd., Yongin, Korea
Session 71: Display Innovation to Fabless Manufacturing (Display Manufacturing)
Friday, June 9 / 10:40 am - 12:10 pm / Room 102
Chair: Lauren Palmateer, Qualcomm MEMs Technologies
Co-Chair: Greg Gibson, FAS Technologies, LLC
71.1:	*Invited Paper:* Innovation to Production: A Continuum Jeff Sampsell, Qualcomm MEMS Technologies, Campbell, CA, USA
71.2:	Distinguished Paper: iMoD Display Manufacturing Philip Floyd, Qualcomm MEMS Technologies, Inc., San Diego, CA, USA
71.3:	*Invited Paper:* High-Pixel-Density Mobile Displays: Challenges and Solutions Candice Brown Elliott, Clairvoyante, Inc., Sebastopol, CA, USA
71.4L:	Late-News Paper: Self-Assembled Transparent Conductive Coatings for Flat Panel Displays Fernando de La Vega, Cima NanoTech Israel, Ltd., Caesarea, Israel
Session 72: Novel Displays (Display Systems)
Friday, June 9 / 10:40 am - 12:00 pm / Room 104
Chair: Jean-Noel Perbet, Thales Avionics
Co-Chair: John Rupp, Symbol Technologies
72.1:	Automotive Night-Vision Systems with Picture Presentation Peter Knoll, Robert Bosch GmbH, Leonberg, Germany
72.2:	Pseudo-White LED Backlight for Automotive Navigation System Kalil Kalantar, Nippon Leiz Corp., Tokyo, Japan
72.3:	Wedge Displays as Cameras Adrian Travis, Cambridge University, Cambridge, U.K.
72.4:	Hyper-Reality Head-Dome Projector (HDP) Using LED Light Source Haruhiko Okumura, Toshiba Corp., Kanagawa, Japan
Session 73: Mobile Projection (Projection)
Friday, June 9 / 10:40 am - 12:00 pm / Room 130/131
Chair: Edward English, 3M Precision Optics, Inc.
Co-Chair: Eugene O'Donnell, S W Consulting
73.1:	*Invited Paper:* Performance of High-Power LEDs in Projection Applications Gerard Harbers, Philips Lumileds Lighting, San Jose, CA, USA
73.2:	Distinguished Paper: Compact Three-Panel LED Projector Engine for Portable Applications Juan Manuel Teijido, Sony Deutschland GmbH, Stuttgart, Germany
73.3:	Ultra-Miniature Projector: A High-Resolution Battery-Powered Laser Display Miklos Stern, Symbol Technologies, Greenlawn, NY, USA
73.4:	Real-Time Diffractive Video Projector Employing Ferroelectric LCOS SLM Daniel Krueerke, Forth Dimension Displays Limited, Fife, U.K.
Poster Session
Tuesday, June 6 / 4:00 - 7:00 pm / Esplanade Ballroom
Active-Matrix Devices
P.1:	A Novel Self-Aligned Etch-Stopper Structure with Lower Photo Leakage for AMLCD Applications Chung-Yu Liang, AU Optronics Corp., Hsinchu, Taiwan
P.2:	High Performance of Polycrystalline Silicon TFT on Plastic Substrate Processed at Very Low Temperatures Yong Hae Kim, ETRI, Daejeon, Korea
P.3:	Organic TFTs with Solution-Processed Pentacene and Polysilazane Using Self-Aligned Device Structure Masahiro Kawasaki, Hitachi Ltd., Hitachi, Japan
P.4:	Microcrystalline-Silicon TFT for Active-Matrix Displays Yvan Bonnassieux, LPICM Ecole Polytechnique, Palaiseau, France
P.5:	a-Si TFT Integrated Gate Driver with AC-Driven Single Pull-Down Structure Yong Ho Jang, LG.Philips LCD, Kyunggi-do, Korea
P.6:	Analysis of Microscopic Crystallization of Two-Shot SLS Process and Its Dependence on Performance of LTPS Devices Chih-Jen Shih, Chunghwa Picture Tubes, Ltd., Taoyuan, Taiwan
P.7:	A Novel Driving Scheme and Pixel Circuit for AMOLED Displays Gholamreza Chaji, University of Waterloo, Waterloo, Ontario, Canada
P.8:	Physical Model of Thermally Illuminated Hydrogenated a-Si TFT for RPI Model Improvement Shuoting Yan, Innolux Display Corp., Hsinchu, Taiwan
P.9:	Distinguished Poster: The Development of a 2.6-in. VGA System-on-Panel Jae-Sung Yu, LG.Philips LCD, Kyunggi-do, Korea
P.10:	Post-Crystallization of Metal-Induced Laterally Crystallized Poly-Si Using a YAG Laser Man Wong, Hong Kong University of Science & Technology, Kowloon, Hong Kong
P.11:	Integrated Gate-Driver Circuit with One Conduction Path for Charge Discharge Shih-Hsun Lo, AU Optronics Corp., Hsinchu, Taiwan
P.12:	High-Performance CLC (CW Lateral Crystallized) Poly-Si TFT with Controlled Strain on Glass Substrate Kenichi Yoshino, Sharp Corp., Nara, Japan
P.13:	New Design of Advanced H-IPS (AH-IPS) Panel for High Aperture Ratio Doyoung Lee, LG.Philips LCD, Kyungbuk-do, Korea
P.14:	New Pixel Structure with Kickback Voltage-Free AMLCD Cheolse Kim, LG.Philips LCD, Kyungbuk-do, Korea
P.15:	WITHDRAWN
P.16:	Integration of a 4.5-in. Color AMOLED with Organic Transistors Sang Yoon Lee, Samsung Display Devices, Kyunggi-do, Korea
P.17:	High-Performance Poly-Si TFTs by Heat-Retaining Enhanced Crystallization for SOP and AMOLED Applications Hsing-Hua Wu, National Chiao Tung University, Hsinchu, Taiwan
P.18:	WITHDRAWN
P.19:	Development of Microcrystalline Si for TFT Backplanes Maxim Lisachenko, Samsung SDI Co., Ltd., Kyunggi-do, Korea
P.20:	A Short-Channel Effect in LTPS TFT for Active-Matrix Display Joong-Hyun Park, Seoul National University, Seoul, Korea
P.21:	Investigation of Pattern-Induced Brightness Non-Uniformity in AMOLED Displays Kyoung-Bo Kim, Samsung SDI Co., Ltd., Kyunggi-do, Korea
P.22:	Bottom-Gate Poly-Si TFTs for AMOLED Backplane Jin Jang, Kyung Hee University, Seoul, Korea
P.23:	Thin, Durable, Metal Substrates for High-Resolution a-Si TFT Active-Matrix Displays Tetsuya Ohshima, Hitachi, Ltd., Ibaraki, Japan
P.217L:	Late-News Poster: An Analytical Lifetime Model for Digital a-Si:H Circuits David Allee, Flexible Display Center at Arizona State University, Tempe, AZ, USA
P.218L:	Late-News Poster: A Compact and Cost-Efficient TFT-LCD Through the Triple-Gate Pixel Structure Jin Young Choi, Samsung Electronics Co., Ltd., Yongin-si, Korea
P.219L:	Late-News Poster: Flexible Electrophoretic Display with Inkjet Printed Active-Matrix Backplane Soichi Moriya, Seiko Epson Corporation, Fujimi-cho, Nagano, Japan
P.220L:	Late-News Poster: Layer-Transfer of Silicon Single-Crystal Films on Large-Area Glass Substrates For Mobile Display Applications Francois Henley, Silicon Genesis Corporation, San Jose, CA, USA
Applications
P.24:	Bistable Smectic-A LCDs: Paper-like Reflective and Seethrough Transmissive Modes Maxim Mitrokhin, PolyDisplay ASA, Sandefjord
Applied Vision / Human Factors
P.25:	Acceptable Motion-Blur Levels of an LCD-TV Based on the Human Visual System Kwang Hoon Shin, LG.Philips LCD Co., Ltd., Kyunggi-do, Korea
P.26:	A Mura Metric Based on Human Vision Models Sheng-Bo Wang, Taiwan TFT LCD Association, Hsinchu, Taiwan
P.27:	Maintaining Position and Display Perspective in a Walking Simulator while Self-Pacing on a Treadmill Lee Lichtenstein, Schepens Eye Research Institute, Boston, MA, USA
P.28:	Effects of Image-Generation Variables on Aircraft Roll Detection Range Christine Covas, Air Force Research Laboratory, Mesa, AZ, USA
P.29:	Fuzzy Contrast Correction (FCC) for Image Enhancement Tien-Chu Hsu, Chunghwa Picture Tubes, Ltd., Taoyuan, Taiwan
P.30:	Target Identification on Simulated Terrain Imagery Varying in Resolution Shama Akhtar, The Boeing Co., Mesa, AZ, USA
P.216:	Comparison of a Local Contrast Metric with Flight-Simulator Target-Identification Data James Gaska, AFRL Visual Research Lab , Mesa, AZ, USA
P.31:	Physiological Effects of Color Breakup in Field-Sequential-Color Projection System Sang-Hyun Kim, Waseda University, Saitama, Japan
P.32:	Pixel Defects and Visual Performance: Effect of Character Weight on a Small High-Density Display Terhi Mustonen, Nokia Technology Platforms, Helsinki, Finland
P.33:	Psychophysical Study on Perceived Brightness versus Apparent Contrast and Its Applications in TFT-LCDs Wayne Cheng, National Chiao Tung University, Hsinchu, Taiwan
Display Electronics
P.34:	WITHDRAWN
P.35:	Active-Matrix OLED Displays by Equally Separated Subframe Driving Method Shinya Ono, Kodak Japan, Ltd., Kanagawa, Japan
P.36:	Statistical Investigation on the Variation in Behavior of LTPS TFTs for Circuit Simulation Shih Che Huang, National Chiao Tung University, Hsinchu, Taiwan
P.37:	A High Slew Rate and Low Offset Voltage Buffer for TFT-LCD Source Driver Fang Hsing Wang, National Chung Hsing University, Taichung, Taiwan
P.38:	Low-Power High-Slew-Rate CMOS Buffer Amplifier for FPD Drivers Sang Kyung Kim, Korea Advanced Institute of Science & Technology, Daejeon, Korea
P.39:	A Flexible 16-kbit SRAM Based on Low-Temperature Poly-Si (LTPS) TFT Technology Hiroaki Ebihara, Seiko-Epson Corp., Nagano, Japan
P.40:	A Novel Data-Driving Method and Circuit for AMOLED Displays Young-Suk Son, EECS/EE, KAIST, Daejeon, Korea
P.41:	Passive-Matrix OLED Driver Design with Pre-Charge Power-Savings Algorithm Jin-Seok Yang, Magnachip Semiconductor, Ltd., Chungbuk-do, Korea
P.42:	Color-Depth Improvement Using Gamma Voltage Control Chin-Hung Hsu, C.Y.C.U., Chungli, Taiwan
P.43:	Frame-Resolution Scalability in Wavelet-Based Multiple-Line Addressing for Passive-Matrix Displays San Lam, Ugent TFCG Microsystems, Gent-Zwijnaarde, Belgium
P.44:	Low-Cost Single-Switch Current-Fed Energy-Recovery Circuit for ACPDP Sang-Kyoo Han, Kookmin University, Seoul, Korea
P.45:	A Fast Driving Circuit for AMOLED Displays Using Current Feedback Geon-Ho Lee, EECS/EE, KAIST, Daejeon, Korea
P.46:	Novel Energy-Recovery-Circuit Integrated into PDP Data-Driver IC Yoonjay Cho, Samsung Electronics Co., Ltd., Chungcheongnam-do, Korea
P.47:	Charge-Discharge Identified Time Extension Driving Method Lin Lin, WINTEK Corp., Taichung, Taiwan
P.48:	Improving Uniformity of Emissive Displays by Means of Driver-Integrated Optical Feedback Stefaan Maeyaert, Ghent University, Ghent, Belgium
P.49:	A Programmable Gamma Reference Buffer with Integrated Backlight Control Trevor Blyth, Alta Analog, Inc., Campbell, CA, USA
P.50:	Ultra-Low-Voltage Input Signal Level Shifter for System-in-Display with Low-Power Interface Mitsuhide Miyamoto, Hitachi Ltd., Tokyo Japan
P.51:	Mjollnir: A 300-Output Cascadeable High-Voltage Display Driver Herbert De Pauw, TFCG-IMEC, Zwijnaarde, Belgium
P.52:	A Panel Simulation Scheme of TFT-LCDs for HDTV Applications Chanyong Jung, Inha University, Incheon, Korea
P.53:	Automatic LCD Gamma Curve Optimization Technology Jaeho Oh, Samsung Electronics, Asan, Korea
P.54:	Automated Flicker Reduction for Large-Sized TFT-LCDs Kwan-Young Oh, Samsung Electronics Co., Ltd., Chungcheongnam-do, Korea
P.55:	Tiny Codec for Decreasing Frame Memories in Display Driver Ics: Smart Pixel-Data Codec (SPC) Daigo Sasaki, NEC Corp., Kanagawa, Japan
P.221L:	Late-News Poster: New OLED Driver IC Optimizing Module Power Consumption, Image Quality, Reliability and Cost Danika Chaussy, STMicroelectronics, Grenoble, Cedex, France
P.222L:	Late-News Poster: A Compact High-Speed Low-Power Rail-to-Rail Class-B Buffer Amplifier for LCD Application Chih-Wen Lu, National Chi Nan University, Puli, Nantou Hsien, Taiwan
Display Manufacturing
P.56:	The Impact of the Environment on Dimensional Reproducibility of Polyester Film During Flexible Electronics Processing Bill MacDonald, DuPont Teijin Films, Wilton Centre, Middlesborough, U.K.
P.57:	A Transparent Plastic Film Having Excellent Optical Properties and High Heat Resistance for Flexible Display Substrates Yoshiaki Watanabe, Tosoh Corp., Mie, Japan
P.58:	Novel Optical Compensation Film for IPS-LCDs Masakazu Nakata, Sekisui Chemical Co., Ltd., Osaka, Japan
P.59:	Aqueous-Base-Developable Benzocyclobutene (BCB)-Based Material for Display Applications Ying Hung So, Dow Chemical, Midland, MI, USA
P.60:	OLED Failure Analysis and Pinpoint Shot Repair of Fault Using an Optical Coaxial System of High-Sensitive CCD and a Laser Naganori Tsutsui, International Test & Engineering Services Co., Ltd., Shiga, Japan
P.61:	OLED Using an Image Reversal Photoresist of Polyhydroxystyrene Kyung Hee Choi, Daewoo Electronics Corp., Kyunggi-do, Korea
P.62:	OLED Deposition Characteristics for Fourth-Generation Mass Production Chang-Woo Kim, ANS, Inc., Kyunggi-do, Korea
P.63:	Getter Paste for OLED Application Mandy Erdmann, Sued-Chemie AG, Bavaria, Germany
P.64:	UV-Curing OLED Encapsulation Adhesives with Low Water Permeation Rainer Doerfler, DELO Industrial Adhesives, Bavaria, Germany
P.65:	Precise Positioning of Spacers for LCD by Ink-Jet Method Michihisa Ueda, Sekisui Chemical Co. Ltd., Osaka, Japan
P.66:	Applying Vacuum Assembly to Improve the Uniformity of LCoS Substrates Li-Chen Huang, Chungwha Picture Tubes, Ltd., Taoyuan, Taiwan
P.67:	Brief Study of an Electric Force on a Glass Substrate in a Dry Etching System HeeHwan Choe, Hankuk Aviation University, Goyang, Gyeonggi-do, Korea
P.68:	Optical Tapered Array in Light-Guide-Plate Fabrication for Enhanced Backlighting Brightness Hsiharng Yang, National Chung Hsing University, Taichung, Taiwan
P.69:	Development of Light-Diffusive UV-Curable Resins for a Novel Slim Backlight System Yasuyuki Sanai, Toagosei Co., Ltd., Nagoya, Japan
P.70:	A New Chassis Design Concept for PDPs Julian Norley, Graftech International, Parma, OH, USA
P.71:	Robust-Stretchable Interconnects for Flexible-Display Applications Frederick Biga, Brown University, Providence, RI, USA
P.223L:	Late-News Poster: New Techniques for Producing AZO Thin Films Suitable for ITO Transparent Electrode Applications in LCDs Tadatsugu Minami, Kanazawa Institute of Technology, Ishikawa, Japan
P.224L:	Late-News Poster: Enhancing the Optical Resolution of a Mask Metrology System using a Software Algorithm Mikael Wahlsten, Micronic Laser Systems AB, Taby, Sweden
Display Measurement
P.72:	A Chromatic Focal Shift Measurement System for Three-Panel LCoS Color Management Wen-Chih Tai, Chunghwa Picture Tubes Ltd., Taoyuan, Taiwan
P.73:	Determining OLED Power Consumption for Defined Applications Michael Miller, Eastman Kodak Co., Rochester, NY, USA
P.74:	Calibration of a Fourier-Optics-Based Measurement System Pierre Boher, Eldim, Herouville St Clair, France
P.75:	Useful Inspection Method of Rubbed Polyimide Film with Optical Anisotropy Using Reflection Ellipsometry Hiroyuki Murai, Advanced Display Systems, Inc., Kyoto, Japan
P.76:	Perceptual Tests of the Temporal Properties of a Shuttered LCD Projector Marc Winterbottom, Air Force Research Labs, Mesa, AZ, USA
Display Systems
P.77:	Novel Reflectors for LCD Backlights William Gambogi, DuPont, Wilmington, DE, USA
P.78:	An Efficiency Improvement Method of Flat-Fluorescent-Lamp (FFL) Backlight Sungkyoo Lim, Dankook University, Choongnam, Korea
P.79:	New Light Collimation Film (LCF) for Direct-Lit BLU System Man Hoan Lee, LG.Philips LCD, Kyungbuk-do, Korea
P.80:	Impedance Matching in the Inverter Circuit of a 32-in. LCD TV with EEFL-BLUs Jong-Mun Jeong, Kwangwoon University, Seoul, Korea
P.81:	A Novel Design of High-Efficiency Constant-Current DC-DC Converters and Control System for LED Backlight in LCDs Sang-Yun Lee, Samsung Electro-Mechanics, Kyunggi-do, Korea
P.82:	A New Design for Highly Collimating Turning Film Tomohiro Ishikawa, Eastman Kodak Co., Rochester, NY, USA
P.83:	Side-Emitting LEDs for Ultra-Thin Direct LED Backlight Cheng-Lin Yang, ITRI, Hsinchu, Taiwan
P.84:	Electron Plasma Propagation in the External Electrode Fluorescent Lamps Guang-Sup Cho, Kwangwoon University, Seoul, Korea
P.85:	Thermal Enhancement of LCD Module by Numerical Analysis Yung-Kan Chen, Chi Mei Optoelectronics Corp., Tainan, Taiwan
P.86:	An Optical Simulation Analysis of the Optimal Lamp Assembly Backlight Unit Xiao Pan Zheng, BOE-HYDIS OT Technology Co., Ltd., Beijing, China
P.87:	Optimization of Display Image in Fresnel-Lens-Based Floating Display System Using a Curved Screen Eun Soo Kim, Kwangwoon University, Seoul, Korea
Emissive Displays
Plasma Display Protective Layer
P.88:	The Characteristics of Sustain and Address Discharge on MgO Thin Films in ACPDPs EunYoung Jung, Samsung SDI Co., Ltd., Chungcheongnam-do, Korea
P.89:	The Effect of Dehydration of MgO Protecting Layer on the XPS Spectra and the Electrical Properties in ACPDPs. Sung Hwan Moon, Seoul National University, Seoul, Korea
P.90:	The Effect of Doping to MgO Protection Layer on Secondary Electron Emission Property Jong-Lam Lee, Pohang University of Science and Technology, Kyungbuk-do, Korea
P.91:	The Effect of Contaminants Adsorbed by AP-Plasma Treatment on MgO Film in ACPDP Gi-Weon Seo, LG Electronics, Seoul, Korea
Phosphors
P.92:	Luminescence Properties of the (YAl3BO3)4:Tb3+ Phosphors Substituted with Sc3+ Ions Under VUV Excitation Hisashi Yoshida, Kwansei Gakuin University, Hyogo, Japan
P.93:	Thermal Stability of (Sr1-x,Bax)3MgSi2O8:Eu2+ Phosphor for PDP Applications Won Bin Im, Korea Advanced Institute of Science and Technology, Daejeon, Korea
P.94:	Plasma Modification of ZnS:Cu EL Phosphor Eugeny Sergeev, St. Petersburg Institute of Technology, St. Petersburg, Russia
Plasma Display Cell Structures
P.95:	The Improvement of Contrast Ratio in ACPDPs with Thin Black Top Ribs Hong-Cheol Lee, LG Electronics Digital Display Lab, Seoul, Korea
P.96:	Photosensitive Barrier-Rib Materials and Process Lee Soon Park, Kyungpook National University, Daegu, Korea
P.97:	Nano-Tip-Enhanced Nanoplasma Devices for Plasma-Display Application Zheng-Yu Wu, National Chiao Tung University, Hsinchu, Taiwan
P.98:	WITHDRAWN
P.99:	Effects of Width of Address Electrode on Sustain-and-Address Discharge Characteristics in ACPDPs Jae Young Kim, Kyungpook National University, Daegu, Korea
P.100:	High-Definition ACPDPs with Front Address Structures Tasuku Ishibashi, Pioneer Corp., Yamanashi, Japan
P.101:	Characteristics of Counter-Electrode Discharge Cells of PDPs Young-Jin Kim, Hong Ik University, Seoul, Korea
P.102:	A Study on Plasma Mode and Efficiency of Coplanar and Face-to-Face Electrode Structures in ACPDPs Bo Sung Kim, Kyungpook National University, Daegu, Korea
P.103:	The Panel Characteristics of a Full-HD PDP with a New Subpixel Arrangement Jeong-Doo Yi, Samsung SDI Co., Ltd., Kyunggi-do, Korea
P.104:	Positive-Column Tubular PDP Carol Ann Wedding, Imaging Systems Technology, Toledo, OH, USA
Plasma Display Discharges
P.105:	Measurement of Excited Xe Atom Density in ACPDPs by Means of Laser Absorption Spectroscopy Phil Oh, Kwangwoon University, Seoul, Korea
P.106:	Improvement of Luminance and Luminous Efficiency Using New Negative Sustain Waveform in ACPDPs Jae Kwang Lim, Kyungpook National University, Daegu, Korea
P.107:	High-Resolution High-Luminous-Efficacy ACPDP Kyung Cheol Choi, Korea Advanced Institute of Science and Technology, Daejeon, Korea
P.108:	WITHDRAWN
P.109:	Three-Dimensional Simulation and ICCD Experiment in 25-in. SVGA Shadow-Mask PDP Lanlan Yang, Southeast University, Jiangsu, China
*Plasma Display Driving*
P.110:	A New Reset Waveform for a Large-Sustain-Gap Structure in ACPDPs Sun Kim, Inha University, Incheon, Korea
P.111:	New Driving Waveforms for ACPDP with Auxiliary Electrode Kyung Cheol Choi, Korea Advanced Institute of Science and Technology, Daejeon, Korea
P.112:	New Driving Method for the Improvement of Addressing Characteristics with Low Address Voltage in ACPDPs Sung Im Lee, LG Eletronics, Inc., Gyungbuk-do, Korea
P.113:	An Efficient and Cost-Effective Novel Driving Scheme for ACPDP Sustain Driver Pankaj Agarwal, Seoul National University, Seoul, Korea
P.114:	A New Energy-Recovery Circuit for the PDP Sustainer Using the Auxiliary Transformer Woosup Kim, Seoul National University, Seoul, Korea
P.115:	A Novel Cost-Effective Energy-Recovery Sustaining Driver for PDPs Jyh-Wei Chen, Tatung University, Taipei, Taiwan
P.116:	APL-Adaptive Variable-Weight Function for Improving Low-Gray-Level Linearity and Gray-Level Expression in PDP TVs Sung Jin Kang, Kyungpook National University, Daegu, Korea
P.117:	WITHDRAWN
P.225L:	Late-News Poster: A Systematic Study of SrS:Ce ACTFEL Devices for Full-Color Display Application Yuhua Liu, University Of Texas, El Paso, TX, USA
FEDs
P.118:	Field-Emission Improvement by Liquid Elastomer Modification of Screen-Printed CNT Film Morphology Hyeon Jae Lee, Korea University, Seoul, Korea
P.119:	A Highly Precise Processes for Cathode Structure of CNT-FEDs Lih Hsiung Chan, Industrial Technology Research Institute, Hsinchu, Taiwan
P.120:	High-Efficiency Method of CNT Arrays Selective Growth on Si/Patterned SiO2 Substrates for FED Application Elena Prudnikova, Belarusian State University of Informatics and Radioelectronics, Minsk, Belarus
P.121:	Cathodoluminescent Properties of 12CaO7Al2O3-Based Phosphors Tomohiro Nagata, ULVAC, Inc., Ibaraki, Japan
P.122:	High-Density Packing of Submicron Spherical Particles of Y2O3:Eu3+ Phosphor for Low-Voltage FPDs Jack Silver, University of Greenwich, Chatham Maritime, U.K.
P.226L:	Late-News Poster: Development of Technique for High Resolution and Low-Temperature Crystallization of SrGa2S4 Thin-Film Phosphors for FEDs Toshiaki Seino, The Japan Steel Works, Ltd., Yokohama, Kanazawa, Japan
P.123:	A 4.8-in. GNF-FED with a Mesh Gate Structure Naoki Tsukahara, ULVAC, Inc., Ibaraki, Japan
P.124:	Highly Reliable CNT Emitters with Enhanced Adhesion to Cathode Electrode Dae-Jun Kim, Electronics and Telecommunications Research Institute, Daejeon, Korea
P.125:	A Novel 4.75-in. CNT-FED with Uniform Metal Plates as Spacers Hung-Yuan Li, Industry Technology Research Institute, Hsinchu, Taiwan
Liquid-Crystal Technology
Ions in LCDs
P.126:	Electrostatic Control of Ion Adsorption in Liquid-Crystal Cells Yuri Reznikov, Institute of Physics of the National Academy of Science of Ukraine, Kiev, Ukraine
P.227L:	Late-News Poster: The Mechanism of Image Sticking on LCD and its Evaluation Parameters Related to LC and Alignment Materials Masanobu Mizusaki, Tohoku University, Sendai, Miyagi, Japan
*Twisted Liquid Crystals*
P.127:	Vertically Aligned Deformed Helix Ferroelectric Liquid-Crystal Configuration for Reflective-Display Device John McMurdy, Brown University, Providence, RI, USA
P.128:	Multi-Dimensional Cholesteric LCDs for Broadband Reflection and Wide Viewing Angle Chi-Lun Ting, ERSO/ITRI, Hsinchu, Taiwan
P.129:	Electro-Optical Characteristics of an IPS Cholesteric LCD Daeseung Kang, Soongsil University, Seoul, Korea
Novel LC-Based Displays
P.130:	Large-Cell-Gap Bistable TN-LCD Based on Dual-Frequency Operation Fion Yeung, Hong Kong University of Science & Technology, Kowloon, Hong Kong
P.131:	Polarization-Independent and Fast-Response Phase Modulators Using Orthogonally Oriented Liquid-Crystal Gels Hongwen Ren, University of Central Florida, Orlando, FL, USA
P.132:	Enhancement of the Performance of LCDs by Doping Inorganic Nanoparticles: The Reduction of Operating Voltage and Response Time and the Increase of the Optical Throuput at Low Temperature Shunsuke Kobayashi, Tokyo University of Science, Yamaguchi, Japan
P.133:	Color-Separation Element with Concentric Symmetry for Display Application Jun Qi, WaveFront Technology, Inc., Paramount, CA, USA
P.134:	A Method of Increasing the Color Depth of LCDs to a Nearly Continuous Range Andrel Cernasov, Honeywell, Teterboro, NJ, USA
P.228L:	Late-News Poster: Viewing-Angle Controllable Displays using a Hybrid-Aligned Nematic Liquid Crystal Cell Masaya Adachi, Hitachi, Ltd, Hitachi, Ibaraki, Japan
P.239L:	Late-News Poster: E-2D Advanced Hawkeye: Primary Flight Display Paul W. Paolillo, Naval Air Warfare Center Aircraft Division, Patuxent River, MD, USA
*Pi Cells*
P.135:	Fast Bend Transition of Pi-Cell at Low Temperature Jun Ho Park, Samsung SDI, Ulsan, Korea
P.136:	A Study on the Dynamic Characteristics of Bend Cell for Practical Application of OCB-Mode LCDs Kyung Ho Choi, Samsung SDI Co. Ltd, Ulsan, Korea
P.229L:	Late-News Poster: Development of Super High Performance OCB Mode for High Quality Color-Field Sequential LCDs Takahiro Ishinabe, Tohoku University, Sendai, Miyagi, Japan
*Wide Viewing-Angle LCDs*
P.137:	Comparison of Viewing-Angle Performance between TN-LCDs and ECB-LCDs Using Hybrid Aligned Nematic Compensators Kenji Hosaki, Central Technical Research Laboratory, Yokohama, Japan
P.138:	A Twelve-Domain MVA-LCD with Wide Viewing Angle and High Transmittance Ruibo Lu, University of Central Florida, Orlando, FL, USA
P.139:	Novel Viewing Angle Controllable TFT-LCD Hyung Seok Chang, LG.Philips LCD, Kyunggi-do, Korea
P.140:	Simultaneous Phase Retardation and Optic Axis Measurements of A- and C-Plates Yung-Hsun Wu, University of Central Florida, Orlando, FL, USA
P.141:	A Wide-View Multi-Domain VA-LCD with High Transmittance and High Contrast Qi Hong, University of Central Florida, Orlando, FL, USA
P.142	Design of Electrode Structure for AS-IPS Mode with High Aperture Ratio and Low Crosstalk Jiunn-Shyong Lin, HannStar Display Corp., Taoyuan, Taiwan
P.143:	Improved Outdoor Readability and Power Consumption of Mobile AFFS LCD by Using the Improved Cell Structures Soon Ju Jang, BOE-HYDIS Technology Co., Kyunggi-do, Korea
P.144:	Low-Voltage, Very-High-Contrast-Ratio, and Wide-Viewing-Angle TN-LCD for Microdisplay, Mobile-Phone, and PDA Mobile Video Application Hiap Ong, Kopin Corp., Westborough, MA, USA
P.145:	Polymer C-Plate Retarders: History and Future James Elman, Eastman Kodak Co., Rochester, NY, USA
P.146:	Image-Sticking Characteristic at the Fringe-Field Switching (FFS) Mode with Gate-Shielding Structure Kwi Hyun Kim, BOE-HYDIS Technology Co., Ltd., Ichon, Korea
P.230L:	Late-News Poster: Optical Performance of Novel Asymmetric OCB Design with High Transmittance and Wide-Viewing Angle Dong-Hae Suh, BOE HYDIS Technology Co., Ltd., Gyeonggi-do, Ichon, Korea
*Polymer Composites*
P.147:	Stressed Liquid-Crystal Materials for Fast Display Applications John West, Kent State University, Kent, OH, USA
P.148:	Application of Polymer-Stabilized Technique for VA STN-LCDs Kazunori Maruyama, Technology Research Association for Advanced Display Materials (TRADIM), Tokyo, Japan
P.149:	Super-Reflective Color LCDs Displaying Moving Images without Polarizers Kiyoshi Minoura, Sharp Corp., Nara, Japan
P.150:	Fabrication of High-Performance Polymer Walls in an LC Cell by Using Fluorinated Acrylate Polymer Jong In Baek, Pusan National University, Busan, Korea
P.151:	A Fly's-Eye Lens Fabricated Using Patterned Polymer Dispersed Liquid Crystal Yanjun Liu, Nanyang Technological University, Singapore, Singapore
P.152:	High-Performance Reflective and Transflective Displays Using Guest-Host Liquid-Crystal Gels Yi-Hsin Lin, University of Central Florida, Orlando, FL, USA
*Flexible Displays*
P.153:	Flexible Photoaligned Optically Rewritable LCD Xihua Li, Hong Kong University of Science and Technology, Kowloon, Hong Kong
P.154:	Distinguished Poster: Highly Bendable LCD with an Elastomer Substrate Fabricated by a Replica Molding Method Yeun-Tae Kim, Seoul National University, Seoul, Korea
P.238:	Improvement of Chemical Resistance of Polysulfone Using Imide Side-Chain for Flexible Display Substrate Jong Chan Won, Korea Research Institute of Chemical Technology, Daejeon, Korea
*Transflective Displays*
P.155:	A Novel LCD Device Applicable to Memory and Dynamic Modes with a Single Panel Chul Gyu Jhun, Pusan National University, Busan, Korea
P.156:	Transflective Double-Cell TN-LCD Hin-Yu Mak, The Hong Kong University of Science and Technology, Kowloon, Hong Kong
P.157:	A Single-Cell-Gap Transflective VA LCD Using Positive Liquid-Crystal Materials Zhibing Ge, University of Central Florida, Orlando, FL, USA
P.158:	Single-Driving Transflective LCD in a Single Configuration with an Inner-Patterned Retarder Yong-Woon Lim, Seoul National University, Seoul, Korea
P.159:	A Single-Gap Transflective Fringe-Field-Switching Display Eun Jeong, Chonbuk National University, Jeonju, Korea
P.160:	Horizontal Switching of a Double-Cell-Gap LC Cell for Transflective Display Gak Seok Lee, Pusan National University, Busan, Korea
P.161:	Brightness Improvement of Transflective LCD in a Unified Configuration Jinyool Kim, Seoul National University, Seoul, Korea
P.162:	Transflective LCD in a Patterned Vertically Aligned Mode with a Single Cell Gap You-Jin Lee, Hanyang University, Seoul, Korea
P.163:	Designing Transflective Bistable TN and ECB LCD with 3 x 3 Mueller Matrix Fushan Zhou, Liquid Crystal Institute, Kent, OH, USA
P.164:	Single-Cell-Gap Transflective Mode for Vertically Aligned Negative Nematic Liquid Crystals Young-Chol Yang, Samsung Electronics Co., Ltd., Kyunggi-do, Korea
P.231L:	Late-News Poster: A Wide-Viewing Angle Transflective IPS LCD Applying New Optical Design Osamu Itou, Hitachi, Ltd., Hitachi-shi, Ibaraki-ken, Japan
*Polarizers*
P.165:	Use of Lyotropic Liquid Crystals for Patterned Polarizer and Retarder Applications Matthew Sousa, Brown University, Providence, RI, USA
P.166:	Novel Reflective-Type Polarizer Using Birefringent Fibers Hideki Hayashi, Technology Research Association for Advanced Display Materials (TRADIM), Tokyo, Japan
P.167:	Elastic and FDTD Analysis of the Liquid-Crystal Polarization Grating Chulwoo Oh, North Carolina State University, Raleigh, NC, USA
P.168:	Simulation of Sub-100-nm Gratings Incorporated into LCD Stacks Michael Paukshto, Stanford University, Foster City, CA, USA

P.237:

Micro-Structure Optical Film with Hybrid Functions for LCD Backlight
Po Hung Yao, Industrial Technology Research Institute, Hsinchu, Taiwan

*Ferroelectric LC*
P.169:	Photoaligned Bistable FLCDs with Birefringent Color Switching Peizhi Xu, Hong Kong University of Science & Technology, Kowloon, Hong Kong
P.170:	*Novel Ferroelectric Glassy Liquid Crystal and Mixtures with Wide SmC Mesophase** Chi-Wen Lin, National Chiao Tung University, Hsinchu, Taiwan
LC Alignment
P.171:	Enhancement of Liquid-Crystal Orientation Stability by Plasticization of Poly(Vinyl Cinnamate) Hyundae Hah, KAIST, Daejeon, Korea
P.172:	Micro-Contact Printing Method for Multi-Domain Liquid-Crystal Alignment Jong-Wook Jung, Hanyang University, Seoul, Korea
P.173:	Newly Developed Cellulose-Based Photopolymer with High Anchoring Energy and Low-Image-Sticking Dong Hoon Kim, Hoseo University, Chungcheongnam-do, Korea
P.174:	Ion-Beam Alignment for In-Plane-Switching LCDs Joo-Hong Seo, Pusan National University, Busan, Korea
P.175:	Single-Step Surface-Alignment Patterning in Liquid Crystals Using Polarization Holography Exposure James Eakin, Brown University, Providence, RI, USA
P.176:	Optimization of Photoalignment Conditions for a New Alignment Layer with Cinnamate Moiety Sang-Hyon Paek, Kyung Hee University, Kyunggi-do, Korea
P.232L:	Late-News Poster: New Results on Bistable Photoaligned Ferroelectric LCDs: Grey-Scale Generation, Stabilization and Passive-Driving Scheme Xihua Li, Hong Kong University of Science and Technology, Clear Water Bay, Hong Kong
P.233L:	Late-News Poster: Dynamic Light-Scattering Measurement of Ion-Beam-Aligned Cells Jin Matsushima, NEC LCD Technologies Ltd., Kanagawa, Japan
Bistable Displays
P.234L:	Late-News Poster: Polymer-Stabilized Black and White Reflective Cholesteric Displays Liang-Chy Chien, Kent State University, Kent, OH, USA
OLEDs
P.177:	A 14.1-in. Full-Color Polymer-LED Display with a-Si TFT Backplane by Ink-Jet Printing Jungsoo Rhee, Samsung Electronics Co., Ltd., Kyunggi-do, Korea
P.178:	A 1.52-in. Full-Color Passive-Matrix OLED with Nitrogen Plasma Treatment Seong Jong Kang, Hyundai LCD, Inc., Kyunggi-do, Korea
P.179:	A Novel Pixel Structure for the Emiflective Hybrid Display System Sheng Hung Lin, National Chiao Tung University, Hsinchu, Taiwan
P.180:	Active Compensation for OLED Aging Ronald Cok, Eastman Kodak Co., Rochester, NY, USA
P.181:	Solution-Processed Full-Color Polymer-OLED Displays Fabricated by Direct Photolithography Malte Gather, University of Cologne, Koln, Germany
P.182:	Analysis of Bright Lines in Passive-Matrix OLEDs Using High-Speed Photography Mutsumi Kimura, Ryukoku University, Shiga Japan
P.183:	The Barrier Problem in Flexible OLED Display: A Modeling Approach Jehuda Greener, Eastman Kodak Co., Rochester, NY, USA
P.184:	Photophysical Properties of Some Newly Synthesized Blue-Emitting Polyaromatic Hydrocarbons Rajib Mondal, Bowling Green State University, Bowling Green, OH, USA
P.185:	Low-Drive-Voltage OLEDs with a Buffer Layer Having Molybdenum Oxide Hisao Ikeda, Semiconductor Energy Laboratory Co., Ltd., Kanagawa, Japan
P.186:	Enhanced Efficiency and Stability of OLEDs with Copper Hexadecafluorophthalocyanine-Doped Hole-Transport Layer Changhee Lee, Seoul National University, Seoul, Korea
P.187:	Crosslinkable Hole-Transporting Polymers for High-Efficiency Blue and White Phosphorescent LEDs Alex Jen, University of Washington, Seattle, WA, USA
P.188:	Fully Substituted Ethylenes as a New Class of Highly Efficient Blue-Emitting Materials for OLEDs Jong-Wook Park, Catholic University of Korea, Pucheon, Korea
P.189:	Vapor Pressures of Homo- and Heteroleptic Orthometalated Complexes of Iridium Joseph Deaton, Eastman Kodak Co., Rochester, NY, USA
P.190:	A Novel Electron-Transporting Layer for Lowering Drive Voltage and Improving the Efficiency of OLED Devices William Begley, Eastman Kodak Co., Rochester, NY, USA
P.191:	Out-Coupling Efficiency Enhancement of OLEDs with Novel Periodic Nanostructures Using Nanoimprint Lithography Nobuhito Miura, ITES Ritsumeikan Laboratory, Shiga, Japan
P.192:	Highly Efficient Blue Organic Electroluminescent Devices Meng Huan Ho, National Chiao Tung University, Hsinchu, Taiwan
P.193:	White-Emitting Tandem OLEDs with an Effective Connecting Architecture Chung-Chih Wu, National Taiwan University, Taipei, Taiwan
P.194:	Studies of Carrier Dynamics and Luminescence Mechanisms of C545T-doped Alq3 Shih Wei Feng, National University of Kaohsiung, Kaohsiung, Taiwan
P.195:	Enhanced Light Out-Coupling Efficiency of OLEDs with Self-Organized Microlens Arrays Wen-Kuei Huang, National Chiao Tung University, Hsinchu, Taiwan
P.196:	Controlling the Recombination Zone in p-i-n White OLEDs Chin Hsin Chen, National Chiao Tung University, Hsinchu, Taiwan
P.197:	Polymer Nanocomposite Blue-Light-Emitting Diodes Young Chul Kim, Kyung Hee University, Kyunggi-do, Korea
P.198:	High-Transparency and Low-Operational-Voltage Top-Emission OLEDs with Thin- Film Encapsulation Shuenn-Jiun Tang, Chunghwa Picture Tubes, Ltd., Taoyuan, Taiwan
P.199:	Analysis of the Deterioration Mechanism of Phosphorescent OLEDs Ritsu Kamoto, Micro Analysis Lab, Inc., Shiga, Japan
P.200:	Evaluation of Different OLED Stacks for an AMOLED Microdisplay on CMOS Substrates Daniel Kreye, Fraunhofer Institute for Photonic Microsystems (IPMS), Dresden, Germany
P.201:	High-Efficiency OLEDs by a Co-Guest Emitter System Dongge Ma, Changchun Institute of Applied Chemistry, Changchun, China
P.202:	Novel Electron Transporter and Hole Injector for OLEDs with Improved Device Characteristics and Longer Lifetime Poopathy Kathirgamanathan, NUKO 70 Ltd., Enfield, U.K.
P.235L:	Late-News Poster: Analysis of the Relationship between OLED Performance and Dryer Characterization Antonio Bonucci, SAES Getters S.P.A., Lainate, Milano, Italy
Projection
P.203:	Lens-Shiftable DLP Projector Using Non-Telecentric System Kuniko Kojima, Mitsubishi Electric Corp., Kyoto, Japan
P.204:	Micro-Lens-Array Generator for Laser-Illuminated Projection Displays Chien-Chuan Chen, National Tsing Hua University, Hsinchu, Taiwan
P.205:	Compact and High-Efficiency LED Projection Display Shuang Chao Chung, Industrial Technology Research Institute, Hsinchu, Taiwan
P.206:	Circular Polarization Separation Elements for Display Applications Suraj Gorkhali, Brown University, Providence, RI, USA
P.207:	New Retro-Reflector Technology in Light-Collecting Systems Yong-Jing Wang, Wavien, Inc., Santa Clarita, CA, USA
P.208:	Novel Optical Design for a Mini-Projector Hsin-Hsiang Lo, Industrial Technology Research Institute, Hsinchu, Taiwan
P.209:	Evaluation of Projection Schemes for the Liquid-Crystal Polarization Grating Operating on Unpolarized Light William Jones, North Carolina State University, Raleigh, NC, USA
P.210:	Practical Implementation of 60-in. 2-D/3-D LCD Stereoscopic Projection Display System with Improved Light Efficiency Eun Soo Kim, Kwangwoon University, Seoul, Korea
P.211:	Vibration System Design of Smooth Picture Actuator for DLP Projection TV Yang-Ho Moon, Samsung Eletro-Mechanics Co., Suwon, Korea
P.212:	A 0.83-in. Full-HDTV LCoS Component with In-Pixel Memory and 450-Hz Refresh Rate Thierry Borel, Thomson-Multimedia, Cesson-Sevigne, France
P.213:	Imaging and Chromatic Behavior Analysis of a Wedge-Plate Display Ming Der Chou, Chunghwa Picture Tubes Ltd., Taoyuan, Taiwan
P.214:	Wedge-Plate-Type Circular Display Yi Kai Cheng, National Chiao Tung University, Hsinchu, Taiwan
P.215:	The Design of the Free-Form Reflector for Uniform Illumination Yi Ding, Zhejiang University, Hang Zhou, China
P.236L:	Late-News Poster: Light-Flux Reliability Testing of Trim Retarders for LCOS RPTV Light Engines David Shemo, JDS Uniphase, Santa Rosa, CA, USA