| Session 1:
Annual SID Business Meeting |
Tuesday,
May 20 / 8:00 - 8:20 am / Petree Hall
|
| Session 2:
Opening Remarks / Keynote Addresses |
Tuesday, May 20 / 8:20 - 10:20 am / Petree Hall
|
|
Session 3:
AMOLEDs I (Active-Matrix Devices) |
|
Tuesday, May 20 / 10:50 am - 12:10 pm / Concourse Hall 151 |
|
Chair: Mike Hack, Universal Display Corp. |
|
Co-Chair: Takatoshi Tsujimura, Kodak Japan, Ltd. |
|
3.1:� |
12.1-in. WXGA AMOLED
Display Driven by In-Ga-Zn-O TFT Arrays
Yeon-Gon Mo, Samsung SDI, Yongin, Korea |
|
3.2: |
15-in. XGA Dual-Plate OLED
Display (DOD) Based on a-Si TFT Backplane
Chang-Wook Han, LG.Philips LCD, Kyunggi-do, Korea |
|
3.3:� |
Invited Paper: AMOLED
Technologies for Uniform Image and Sufficient Lifetime of Image
Sticking
Yojiro Matsueda, Samsung, SDI Co., Ltd., Kyunggi-do, Korea |
|
3.4: |
Invited Paper: A Novel Use
of MEMS Switches in Driving AMOLEDs
Jun-Bo Yoon, KAIST, Daejeon, Korea
|
| Session 4:
Display Measurement Standards & Methods (Display
Measurement) |
| Tuesday, May 20 / 10:50 am
- 12:10 pm / Concourse Hall 152 |
| Chair:
Stephen P. Atwood, Azonix Corp. |
| Co-Chair:
Thomas G. Fiske, Rockwell Collins Display Systems |
|
4.1: |
Tests and Methods of the
ICDM
Joe Miseli, Sun Micorsystems, Inc., Menlo Park, CA, USA
|
|
4.2: |
International Metrology
Standards for Reflective LCDs
J�rgen Laur, autronic-Melchers GmbH, Karlsruhe, Germany |
|
4.3:� |
LCD Response-Time
Evaluation in the Presence of Backlight Modulation
Michael Becker, Display-Metrology & Systems, Karlsruhe,
Germany
|
| Session 5:
Fast Response (Liquid-Crystal Technology) |
|
Tuesday, May 20 / 10:50 am - 12:20 pm / Petree Hall |
|
Chair:
Philip J. Bos, Kent State University |
|
Co-Chair:
Kei-Hsiung Yang, Hannstar Display Corp. |
|
5.1:� |
Analysis of the Anisotropy
of Bend Transition for OCB LCDs with Low Initialization Voltage
Yuko Kizu, Toshiba, Kawasaki, Japan |
|
5.2: |
Field-Sequential-Color
LCDs Based on Transient Modes
Yuet-Wing Li, Hong Kong University of Science & Technology,
Kowloon, Hong Kong |
|
5.3: |
Polarity-Sensitive
Switching Nematic System from the Assembly of Achiral
Tripod-Shaped and Rod-Shaped Molecules
Ji-Hoon Lee, Case Western Reserve University, Cleveland, OH, USA
|
|
5.4 |
Improvement of
Fast-Response LC Materials by Bent-Core Dopants in
Optical-Compensated-Bend (OCB) Mode LCDs
Hong-Cheu Lin, National Chiao Tung University, Hsinchu, Taiwan
|
|
5.5:� |
Late-News
Paper: Electrically Accelerated Turn-Off Process in the
Nematic Liquid Crystals with Dielectric Relaxation
Mingxia Gu, Kent State University, Kent, OH USA
|
| Session 6:
Display Manufacturing: Glass Substrates &
Inspection (Display Manufacturing) |
|
Tuesday, May 20 / 10:50 - 11:50 am / Room 403A |
|
Chair: Toshiaki
Arai, Sony Corp. |
|
Co-Chair: Greg
Gibson, FAS Technologies, LLC |
|
6.1: |
A Study of the
Relationship between the Quality of the LCD Panel and the Nano-Scale
Bumps of the Substrate Glass
Kumi-Mi Oh, LG.Philips LCD, Kyunggi-do, Korea |
|
6.2: |
Mechanical Properties of
Code 2073-G Glass Substrate for Poly-Si Application
Suresh Gulati, Corning Incorporated, Corning, NY, USA |
|
6.3:� |
Detection of a-Si Residue
with Backlight LEDs
Chung-Che Huang, Maxim Integrated Products, Sunnyvale, CA, USA
|
| Session 7:
Field-Emission Displays I (FEDs) |
|
Tuesday, May 20 / 10:50 am - 12:20 pm / Room 403B |
|
Chair: Masayuki Nakamoto,
Shizuoka University |
|
Co-Chair: Myung Hwan Oh,
Dankook University |
|
7.1: |
Invited Paper:
Technologies and Prospect of a Fine-Pitch FED Monitor
Yukinobu Iguchi, Field Emission Technologies, Gifu Japan |
|
7.2: |
Carbon Nanotubes
Synthesized at Low Temperature and a Novel Self-Focusing Gated FED
Yu-Ying Hsu, National Chiao Tung University, Hsinchu, Taiwan |
|
7.3: |
Morphology Effect on
Field-Emission Property of Carbon-Nanotube Emitters in Triode
Structure
Yiming Li, National Chiao-Tung University, Hsinchu, Taiwan |
|
7.4:� |
A Novel
Luminescent-Efficiency-Enhancement Strategy for a 20-in. Carbon-Nanotube
Backlight Units
Shang-Ying Chung, Nation Tsing Hua University, Hsinchu, Taiwan
|
|
7.5:� |
Late-News
Paper: Fabrication of High-Brightness Flat
Field-Emission Lamp with 6-kV Anode Voltage for Local-Dimming LCD
BLU
Masayuki Nakamoto, Shizuoka University, Hamamatsu, Shizuoka,
Japan
|
| Session 8:
Near-to-Eye and HMD Display Applications (Applications) |
|
Tuesday, May 20 / 10:50 am - 12:10 pm / Room 408A |
|
Chair: Susan K. Jones, e-Magin Corp. |
|
Co-Chair: Jyrki Kimmel, Nokia Research Center |
|
8.1: |
Invited Paper:
Applications of the Sensics Panoramic HMD
Lawrence Brown, Sensics, Inc., Baltimore, MD, USA |
|
8.2: |
Bi-Directional OLED
Microdisplay for Interactive HMD
Uwe Vogel, Fraunhofer Institute for Photonic Microsystems,
Dresden, Germany |
|
8.3: |
Design of a Compact Light
Engine for FLCOS Microdisplays in a p-HMPD System
Rui Zhang, University of Arizona, Tucson, AZ, USA |
|
8.4: |
A Full-Color Eyewear
Display Using Holographic Planar Waveguides
Hiroshi Mukawa, Sony Corp., Tokyo, Japan
|
| Session 9:
AMOLEDs II (Active-Matrix Devices) |
|
Tuesday, May 20 / 2:00 - 3:10 pm / Concourse Hall 151 |
|
Chair: Roger G. Stewart, Sourland Mountain Associates |
|
Co-Chair: Makoto Ohkura, Hitachi Displays, Ltd. |
|
9.1:� |
A Stable Full-Color AMOLED
Display Using a-Si:H TFTs and White PHOLEDs
Jin Jang, Kyung Hee University, Seoul, Korea |
|
9.2: |
Sequential Lateral Solidification (SLS)
Process for Large-Area AMOLEDs
Jae Beom Choi, Samsung Electronics Co., Ltd., Kyunggi-do, Korea |
|
9.3: |
A 15-in. AMOLED Display with SPC TFTs
and a Symmetric Driving Method
Sang-Hoon Jung, LG.Philips LCD R&D Center, Anyang, Korea
|
|
9.4:� |
Late-News
Paper: Fast Current-Programming Method to OLED
Chang Hoon Shim, Kyushu University, Fukuoka, Japan
|
| Session 10:
Characterization of LCD Motion Artifacts (Display
Measurement) |
|
Tuesday, May 20 / 2:00 - 3:20 pm / Concourse Hall 152 |
|
Chair: Frank F. Rochow, LMT Lichtmesstechnik GmbH |
|
Co-Chair:
Michael R. Klein, Photo Research, Inc.
|
|
10.1:� |
Evaluation of Moving-Line Contrast
Degradation without Motion
Michael Becker, Display-Metrology & Systems, Karlsruhe,
Germany |
|
10.2: |
Motion-Artifact Analysis
on Scanning-Backlight LCD
Wen Song, Southeast University, Nanjing, China |
|
10.3: |
Overdrive LUT Optimization
for LCD by Box Motion-Blur Measurement and Gamma-Based
Thresholding Method�
Hung-Xin Zhao, R2D, Hsinchu, Taiwan |
|
10.4: |
Measurement of
Moving-Picture Resolution for Displays Using Scrolled Sine-Bursts
Isao Kawahara, Matsushita Electric Industrial Co. Ltd., Osaka,
Japan
|
| Session 11:
LCD Contrast Enhancement (Liquid-Crystal Technology) |
|
Tuesday, May 20 / 2:00 - 3:00 pm / Petree Hall |
|
Chair:
Shui-Chih Alan Lien, AU Optronics Corp.
|
|
Co-Chair:
Han-Ping D. Shieh, National Chuao Tung University
|
|
11.1: |
Invited Paper:
Review of Viewing-Angle Compensation of TN-Mode LCDs
Using WV Film
Tadashi Ito, FUJIFILM Corp., Kanagawa Japan |
|
11.2:� |
Improved Contrast Ratio in
IPS-Pro LCD TV by Using Quantitative Analysis of Depolarized Light
Leakage from Component Materials
Yuka Utsumi, Hitachi, Ltd., Ibaraki, Japan |
|
11.3:� |
A New LCD Design for High
Contrast Ratio
Chih Wen Chen, AU Optronics Corp., Hsinchu, Taiwan
|
| Session 12:
Display Manufacturing: Flexible Substrates (Display
Manufacturing) |
|
Tuesday, May 20 / 2:00 - 3:10 pm / Room 403A |
|
Chair:
Elliott Schlam, Elliott Schlam Associates
|
|
Co-Chair:
Jun Hyung Souk, Samsung Electronics Co., Ltd.
|
|
12.1:� |
Evaluation of Electrical
Insulating Properties and Flexibility of Stainless-Steel Foil with
Insulating Film
Noriko Yamada, Nippon Steel Corp., Chiba, Japan |
|
12.2: |
Solution-Processable
Passivation Layer for Active-Matrix TFTs on Rigid and Flexible
Substrates
Ahila Krishnamoorthy, Honeywell Electronics Materials, Sunnyvale,
CA, USA |
|
12.3: |
Fluorescent Tag-Based
Inspection of Barrier Coatings for OLEDs and Polymer Packages
Yadong Zhang, University of Colorado at Boulder, Boulder, CO, USA
|
|
12.4:� |
Late-News
Paper: Measurement of Water-Vapor Permeation in the
Range of 10(-3) and 10(-5) g/m(2)/day for Application in Flexible
Electronics.
Holger Norenberg, Technolox Ltd., Oxford, UK
|
| Session 13:
Field-Emission Displays II (FEDs) |
|
Tuesday, May 20 / 2:00 - 3:20 pm / Room 403B |
|
Chair:
Kenneth A. Dean, Motorola
|
|
Co-Chair:
Hsing-Yao Chen, Chunghwa Picture Tubes Ltd.
|
|
13.1: |
High-Luminance 1.8-mm-pitch
CNT-FED for Ubiquitous Color Character Displays
Junko Yotani, Noritake Co., Ltd., Mie, Japan |
|
13.2:� |
Electrochemical Deposition
of Carbon-Nanotube Films and Applications in FED Devices
Lap-Tak Cheng, DuPont, Wilmington, DE, USA |
|
13.3:� |
Novel Surface-Conduction
Electron-Emitter (SCE ) Nanogaps for FEDs
Yi-Ting Kuo, National Chiao Tung University, Hsinchu, Taiwan |
|
13.4:� |
Copper Nanowires with a
Five-Twinned Structrue Grown by CVD and Their Application to FEDs
Changwook Kim, University of Illinois at Urbana-Champaign, Urbana,
IL, USA
|
| Session 14:
Novel Display Applications (Applications) |
|
Tuesday, May 20 / 2:00 - 3:20 pm / Room 408A |
|
Chair:
Andras I. Lakatos, Consultant
|
|
Co-Chair:
Robert L. Donofrio, Display Device Consultants LLC
|
|
14.1:� |
Invited Paper:
Challenges
and Technologies for Multi-Channel Projection Systems
Patrick Vandenberghe, BarcoView, Kortrijk, Belgium |
|
14.2:� |
Double-Sided Reflective
LCD (DSRL)
Hyung Seok Park, LG.Philips LCD, Anyang, Korea |
|
14.3: |
Illumination Design of a
Multi-Touch Sensing Projection Screen for Augmented Virtual
Environments
Sheng Liu, University of Arizona, Tucson, AZ, USA
|
|
14.4: |
Integrating Multi-Touch
Function with a Large-Sized LCD
Sang Hyuck Bae, LG.Philips LCD, Seoul, Korea
|
|
14.5:� |
Novel, Flexible AC
Electroluminescent Lamps for Display Applications
Jack Silver, Brunel University, London, UK
|
| Session 15:
Phosphor and Process (Emissive Displays) |
|
Tuesday, May 20 / 2:00 - 3:20 pm / Room 408B |
|
Chair:
Ravi Rao, Nanogram
|
|
Co-Chair:
Aron Vecht, Aron Vecht and Associates
|
|
15.1: |
Improvement in the
Contrast Ratio of PDPs in a Bright Room by Coating Phosphor with
Pigment
Euna Moon, LG Electronics, Inc., Seoul, Korea |
|
15.2:� |
MOVED TO POSTER SESSION
|
|
15.3: |
Anti-Electromigration of
Lead-Free Ag / Frit Modified Address Electrodes in PDPs
Chul-Hong Kim, Samsung SDI Co., Ltd., Chungcheongnam-do, Korea |
|
15.4: |
Tin Oxide Transparent
Conductor for PDPs
Bernard Feldman, Feldman Technology, Watsonville, CA, USA
|
| Session 16:
AMLCD TV (Active-Matrix Devices) |
|
Tuesday, May 20 / 3:40 - 5:00 pm / Concourse Hall 151 |
|
Chair:
Kalluri R. Sarma, Honeywell, Inc.
|
|
Co-Chair:
Nam Deog Kim, Samsung Electronics Co., Ltd.
|
|
16.1: |
82-in. Ultra-Definition
LCD Using New Driving Scheme and Advanced Super-PVA Technology
Sang Soo Kim, Samsung Electronics Co., Ltd., Chungcheongnam-do, Korea |
|
16.2:� |
A Novel Super-PVA Cell Structure with
High Contrast Ratio
Su Jeong Kim, Samsung Electronics Co., Ltd., Chungcheongnam-do, Korea |
|
16.3: |
Enhanced
Oblique-Viewing-Angle Color Performance for Super-PVA Panels
Bongim Park, Samsung Electronics Co., Ltd., Chungcheongnam-do, Korea |
|
16.4:� |
Development of
Asymmetric-Gate-Coupled Eight-Domain (AGC-8D) HVA for TFT-LCD TVs
Po-Sheng Shih, Hannstar, Taoyuan, Taiwan
|
| Session 17:
OLED Devices (OLEDs) |
|
Tuesday, May 20 / 3:40 - 5:00 pm / Concourse Hall 152 |
|
Chair:
Ching W. Tang, University of Rochester
|
|
Co-Chair:
Denis Y. Kondakov, Eastman Kodak Co.
|
|
17.1:� |
Invited Paper:
Inverted
OLED
Sehwan Son, LG Chemical Ltd., Daejon, Korea |
|
17.2: |
Highly Efficient
Ultraviolet Light-Emitting Organic Devices and Its Application to
White-Light Source
Akiyoshi Mikami, Kanazawa Institute of Technology, Ishikawa, Japan
|
|
17.3:� |
Highly Efficient
Fluorescent / Phosphorescent OLED Devices Using Triplet Harvesting
Marina Kondakova, Eastman Kodak Co., Rochester, NY, USA
|
|
17.4:� |
A Novel Technique to Study
OLED Function
Marc Sims, Dupont Displays, Inc., Santa Barbara, CA, USA
|
| Session 18:
Liquid Crystal on Silicon (Liquid-Crystal Technology) |
|
Tuesday, May 20 / 3:40 - 4:30 pm / Petree Hall |
|
Chair:
James E. Anderson, 3M
|
|
Co-Chair:
Akihiro Mochizuki, Nano Loa USA, Inc.
|
|
18.1:� |
Electronic Compensation
for Fringe-Field Effects in VAN LCOS Microdisplays
Dieter Cuypers, TFCG / IMEC, Zwijnaarde, Belgium
|
|
18.2:� |
Bistable FLC LCoS for
Doubled-Brightness Microprojectors and Viewfinders
Michael O'Callaghan, Displaytech, Longmont, CO, USA
|
|
18.3:� |
Late-News
Paper: Polarization-Independent Liquid-Crystal
Microdisplays
Michael Escuti, North Carolina State University, Raleigh, NC,
USA
|
| Session 19:
Display Assembly & Packaging (Display
Manufacturing) |
|
Tuesday, May 20 / 3:40 - 5:00 pm / Room 403A |
|
Chair:
Lauren F. Palmateer, Qualcomm MEMS Technologies
|
|
Co-Chair:
Jun Hyung Souk, Samsung Electronics Co., Ltd.
|
|
19.1:� |
Invited Paper:
Driver-IC
Packaging Technologies Using Anistropic Conductive Films in
Flat-Panel Displays
Itsuo Watanabe, Hitachi Chemical Co. Ltd., Ibaraki, Japan |
|
19.2:� |
Invited Paper:
ACF
Development History and New Solutions
Motohide Takeichi, Sony Chemicals Corp., Tochigi, Japan |
|
19.3:� |
Novel Defect-Repairing
Method for Etched-Thinning LCDs
Yu-Chen Liu, AU Optronics Corp., Hsinchu, Taiwan |
|
19.4:� |
Development of Super View
Resin: The Optical Elasticity Resin for LCD Modules
Hirofumi Kondo, Sony Corp., Kanuma, Japan
|
| Session 20:
3-D Applications and Measurement Techniques
(Applications / Display Measurement) |
|
Tuesday, May 20 / 3:40 - 5:00 pm / Room 408A |
|
Chair:
Adi Abileah, Planar Systems, Inc.
|
|
Co-Chair:
Frank F. Rochow, LMT Lichtmesstechnik GmbH
|
|
20.1: |
Mobile 3-D Displays Based
on LTPS 2.4-in. VGA LCD Panel Attached with Lenticular Lens Sheets
Sung-Min Jung, LG.Philips LCD, Kyunggi-do, Korea |
|
20.2:� |
Stereoscopic 3-D Display
Using Patterned Retarder
Yu-Jun Wu, AU Optronics Corp., Hsinchu, Taiwan |
|
20.3:� |
2-D / 3-D Dual-Image
Switchable Display
Wei-Hung Kuo, AU Optronics Corp., Hsinchu, Taiwan
|
|
20.4
|
Objective Evaluation of
Multi-View Autostereoscopic 3-D Displays
Marja Salmimaa, Nokia Research Center, Tampere, Finland
|
| Session 21:
Plasma-Display Protective Layer (Emissive Displays) |
|
Tuesday, May 20 / 3:40 - 5:10 pm / Room 408B |
|
Chair:
Harm Tolner, Tolner Technology
|
|
Co-Chair: Toshihiro Komaki, Pioneer Corp.
|
|
21.1: |
Advanced Discharge Cell
Design with CEL Realizing Very High Contrast over 20,000:1
Taro Naoi, Pioneer Corp., Yamanashi, Japan |
|
21.2:� |
Very-High-Contrast PDP
Driving Method on Advanced CEL Cell Panel
Koji Hashimoto, Pioneer Corp., Yamanashi, Japan |
|
21.3:� |
Reconstruction
Characteristics of MgO (111) Textured Protective Layer by
Over-Frequency Accelerated Discharge in ACPDPs
Sang-Koo Kwon, LG Electronics Institute of Technology, Seoul,
Korea |
|
21.4:� |
Discharge Characteristics
of ACPDPs Having Doped MgO Protective Layer for a Variations in
Temperature
Sung-Yong Cho, Pusan National University, Busan, Korea
|
|
21.5:� |
Late-News
Paper: Measurement of Exo-Electron Emission from MgO
Thin Film for ACPDPs
Sang-Hoon Yoon, Hong-Ik Univ., Seoul, Korea
|
| Session 22:
OLED-Enabling Technologies (OLEDs) |
|
Wednesday, May 21 / 9:00 - 10:30 am / Concourse Hall 152 |
|
Chair:
Jang Hyuk Kwon, Kyung Hee University
|
|
Co-Chair:
Eliav Haskal, Philips Research Laboratories
|
|
22.1: |
Invited Paper:
Technological Challenges for Large-Sized AMOLED Display
Hye Dong Kim, Samsung SDI, Youngin, Korea |
|
22.2:� |
Printable Phosphorescent
OLEDs
Sean Xia, Universal Display Corp., Ewing, NJ USA |
|
22.3:� |
New Full-Color OLED
Technology Based on Advanced-Color-Conversion Method Using Ink-jet
Printing
Hiroshi Kimura, Fuji Electric Advanced Technology Co., Ltd.,
Nagano, Japan |
|
22.4:� |
Invited Paper:
Tuning Solution-Processed
OLEDs Toward R2R Printing
Tilman Beierlein, Centre Suisse D'Electronique et de
Microtechnique (CSEM), Basel, Switzerland
|
|
22.5:� |
Late-News
Paper: High-Efficiency Solution-Processed
Phosphorescent Green OLED Using a High-Quantum-Yield Iridium
Complex
Jwo-Huei Jou, National Tsing Hua University, Hsin-Chu, Taiwan
|
| Session 23:
Flexible Displays I (Active-Matrix Devices) |
|
Wednesday, May 21, 2008 / 9:00 - 10:00 am / Petree Hall |
|
Chair:
Jin Jang, Kyung Hee University
|
|
Co-Chair:
Jurgen Daniel, Palo Alto Reseach Center
|
|
23.1:� |
Invited Paper:
Models and
Experiments of Mechanical Integrity for Flexible Displays
Yves Leterrier, Laboratoire de Technolegie Des Composites et
Polym�res (LTC), Ecole Polytechniqu, Lausanne, Switzerland |
|
23.2:� |
A 10-in. Printed Flexible
Active-Matrix OTFT Array for QR-LPD Based Motion-Picture Displays
Hiroki Maeda, Dai Nippon Printing Co., Ltd., Chiba, Japan |
|
23.3: |
Flexible
Field-Sequential-Color FLCD Panels Driven by Poly-Si TFTs
Yoji Iwamoto, Dai Nippon Printing Co., Ltd., Chiba, Japan |
|
23.4:� |
Active-Matrix Backplanes
Produced by Roll-to-Roll Self-Aligned Imprint Lithography
Warren Jackson, Hewlett-Packard Laboratories, Palo Alto, CA, USA
|
| Session 24:
Array Manufacturing Processes (Display Manufacturing) |
|
Wednesday, May 21, 2008 / 9:00 - 10:20 am / Room 403A |
|
Chair:
Fan-Chen F. Luo, AU Optronics Corp.
|
|
Co-Chair:
Toshiaki Arai, Sony Corp.
|
|
24.1:� |
Three-Mask TFT Process by
Using ITO Lift-Off Technique
Kuo Lung Fang, AU Optronics Corp., Hsinchu, Taiwan |
|
24.2:� |
Single-Layer Al-Ni-La-Si
Interconnections for Source / Drain of LTPS-TFT LCDs Using Direct
Contacts with ITO and Poly-Si
Toshihiro Kugimiya, Kobelco Kaken, Inc., Hyogo, Japan |
|
24.3:� |
32-in. LCD TV Using
Conventional PECVD Microcrystalline-Silicon TFTs
Ya-Hui Peng, AU Optronics Corp., Hsinchu, Taiwan |
|
24.4:� |
A New Method for Cu
Patterning
Kang-il Kim, LG.Philips LCD R&D Centre, Kyunggi-do, Korea
|
| Session 25:
Novel 3-D Displays (Display Systems) |
|
Wednesday, May 21 / 9:00 - 10:30 am / Room 403B |
|
Chair:
Brian T. Schowengerdt, University of Washington
|
|
Co-Chair:
Jean-Noel Perbet, THALES Avionics
|
|
25.1: |
Multi-Viewer
Autostereoscopic Display with Dynamically Addressable Holographic
Backlight
Edward Buckley, Light Blue Optics, Ltd., Colorado Springs, CO, USA |
|
25.2:� |
Eye-Tracking Solutions for
Real-Time Holographic 3-D Display
Norbert Leister, SeeReal Technologies GmbH, Dresden, Germany |
| 25.3:� |
Autostereoscopic 2-D / 3-D
Switching Display Using Electric-Field-Driven LC Lens (ELC Lens)
Hungk Ki Hong, LG.Philips LCD, Kyunggi-do, Korea |
|
25.4:� |
Invited Paper:
Beyond Flat
Panels: Multi-Layered Displays with Real Depth
Gareth Bell, PureDepth, Auckland, New Zealand
|
|
25.5:� |
Invited
Paper: An Updateable Holographic 3-D Display Based on
Photorefractive Polymers
Savas Tay, University of Arizona, Tucson, AZ, USA
|
| Session 26:
Motion Blur I (Display Electronics) |
|
Wednesday, May 21 / 9:00 - 10:20 am / Room 408A |
|
Chair:
Achin Bhowmik, Intel Corp.
|
|
Co-Chair:
John W. Parker, III, Research and Engineering Development, Inc.
|
|
26.1:� |
Invited Paper:
Motion Interpolation / Frame-Rate Compensation for LCD TV
Brian Berkeley, Samsung Electronics Co., Ltd., Chungcheongnam-do,
Korea |
|
26.2: |
Motion-Adaptive
Alternating Gamma Drive for Flicker-Free Motion-Blur Reduction in
100/120-Hz LCD TV
Tae Sung Kim, Marvell Semiconductor, Santa Clara, CA, USA |
|
26.3: |
Motion Interpolation
Performance of 120-Hz Display Systems
Byung Hyuk Shin, Samsung Electronics Co., Ltd., Chungcheongnam-do, Korea |
|
26.4:� |
The Temporal Aperture of
Broadcast Video
Frank Van Heesch, Philips Research Laboratories, Eindhoven, The
Netherlands
|
| Session 27:
Plasma-Display Discharge (Emissive Displays) |
| Wednesday, May 21 / 9:00 -
10:20 am / Room 408B |
| Chair:
Larry F. Weber, Consultant |
| Co-Chair:
Tomokazu Shiga, The University of
Electro-Communications |
|
27.1: |
Invited Paper:
High-Efficiency Plasma-Display Discharges
Gerrit Oversluizen, Philips Research Laboratories, Eindhoven, The
Netherlands |
|
27.2: |
Analysis of Discharges in
High-Luminous-Efficacy PDP with 5 lm/W
Toshiyuki Akiyama, Advanced PDP Development Center Corp., Hyogo,
Japan |
|
27.3:� |
Fully Addressable
Self-Assembled Microcavity Plasma Arrays: Improved Luminous
Efficacy by Controlling Device Geometry
Sung-Jin Park, University of Illinois, Urbana, IL USA
|
|
27.4:� |
Characteristics of ACPDP
Test Panels with Fence-Type Aluminum Electrode Formed via Anodic
Bonding with Soda-Lime Glass
Seog-Young Lee, Hongik University, Seoul, Korea
|
| Session 28:
LC Alignment (Liquid-Crystal Technology) |
|
Wednesday, May 21 / 9:00 - 10:10 am / Room 502 |
|
Chair:
Michael Wand, LC Vision, LLC
|
|
Co-Chair:
Masato Okabe, Dai Nippon Printing
|
|
28.1: |
Wide-Pretilt-Angle Control
of LCD Device by Ion-Beam Exposure
Joo-Hong Seo, Pusan National University, Pusan, Korea |
|
28.2:� |
NEXAFS Study of the
Molecular Orientation of Polyimide Aligment Layer Used in TFT-LCDs
Yong Taek Hwang, Samsung Electronics Co., Ltd., Chungcheongnam-do, Korea |
|
28.3:� |
Novel Grating Alignment of
LCs for Multi-Domain Structures
Masaya Tamaki, Sony Corp., Kanagawa, Japan
|
|
28.4:� |
Late-News
Paper: Effects of Azimuthal Anchoring Energy on
In-Plane Switching-Mode LCD
Woo-Keun Lee, LG.Philips LCD, Anyang-shi, Gyongki-do, Korea
|
| Session 29:
OLED Display Technology I (OLEDs) |
|
Wednesday, May 21 / 10:40 am - 12:00 pm / Concourse Hall 152 |
|
Chair:
Denis Y. Kondakov, Eastman Kodak Co.
|
|
Co-Chair:
Chin (Fred) H. Chen, National Chiao Tung University
|
|
29.1: |
Invited Paper: Recent
Progress in Light-Emitting Polymers for Full-Color OLEDs
Takeshi Yamada, Sumitomo Chemical, Tsukuba, Japan |
|
29.2: |
Invited Paper: PEDOT-Based
Layers for TCO-Substitution and Hole Injection
Andreas Elschner, H. C. Starck GmbH, Leverkusen, Germany |
|
29.3:� |
Combined Electrical and
Optical Simulation of OLED Devices
Robert Nitsche, Sim4tec, Dresden, Germany
|
|
29.4:� |
Extraction Enhancement of
OLED by Using Metallic Nanostructures
Shen-Yu Hsu, Academia Sinica, Taiwan
|
| Session 30:
Flexible Displays II (Active-Matrix Devices) |
|
Wednesday, May 21 / 10:40 - 11:40 am / Petree Hall |
|
Chair:
J�rgen Daniel, Palo Alto Reseach Center
|
|
Co-Chair:
Makoto Ohkura, Hitachi Displays, Ltd.
|
|
30.1:� |
Flexible Image Sensor Made
of a-Si:H TFTs on Metal Foil
Jin Jang, Kyung Hee University, Seoul, Korea |
|
30.2: |
Active-Matrix
Electrophoretic Displays on Temporary Bonded Stainless-Steel
Substrates with 180�C a-Si:H TFTs
Shawn O'Rourke, Arizona State University, Tempe, AZ, USA |
|
30.3:� |
Highly Flexible
Low-Power-Consumption AMOLED Displays on Ultra-Thin
Stainless-Steel Substrates
Ray Ma, Universal Display Corp., Trenton, NJ, USA
|
| Session 31:
Display Manufacturing: Ink-Jet Printing (Display Manufacturing)
|
|
Wednesday, May 21 / 10:40 am - 12:00 pm / Room 403A |
|
Chair:
Peter A. Smith, Honeywell
|
|
Co-Chair:
Lauren F. Palmateer, Qualcomm MEMS Technologies
|
|
31.1:� |
Invited Paper: Ink-Jet
Technology for Large-Sized Color-Filter Plates
Jun Hyung Souk, Samsung Electronics Co. Ltd., Kyunggi-do, Korea
|
|
31.2:� |
Invited Paper: Various
Ink-Jet Methods for TFT Array Fabrication
Shuichi Uchikoga, Toshiba Corporate Research Center, Kanagawa,
Japan
|
|
31.3: |
The Fabrication of Single
Substrate Multi-Color Cholesteric LCD by Ink-Jet Printing
Jhih-Ping Lu, Industrial Technology Research Institute, Chutung,
Hsinchu, Taiwan
|
|
31.4: |
Solvent Effect on
Uniformity of the Performance of Ink-Jet-Printed Organic TFTs for
Flexible Displays
Jin Jang, Kyung Hee University, Seoul, Korea
|
| Session 32:
Stereoscopic Displays (Display Systems)
|
|
Wednesday, May 21 / 10:40 am - 12:00 pm / Room 403B |
|
Chair:
Brian T. Schowengerdt, University of Washington
|
|
Co-Chair:
John W. Parker, III, Research And Engineering Development, Inc.
|
|
32.1:� |
Stereoscopic TFT-LCD with
Wire-Grid Polarizer and Retarder
Jin Jang, Kyung Hee University, Seoul, Korea
|
|
32.2:� |
The Improvement of In-Cell
Microretarder for Stereoscopic LCD Fabrication
Chao-Te Lee, National Taiwan University, Taipei, Taiwan
|
|
32.3:� |
Liquid-Crystal Panel for
High-Efficiency Autostereoscopic 3-D Displays
Shang-Chih Chuang, National Tsing Hua University, Hsinchu, Taiwan
|
|
32.4 |
Invited Paper: The Pursuit
of High-Definition 3-D Display Technology
Chao-Hsu Tsai, Industrial Technology Research Institute, Chutung,
Hsinchu, Taiwan
|
| Session 33:
Motion Blur II (Display Electronics)
|
|
Wednesday, May 21 / 10:40 am - 12:00 pm / Room 408A |
|
Chair:
Xu Dong, PLM, Inc.
|
|
Co-Chair:
Haruhiko Okumura, Toshiba Corp.
|
|
33.1:� |
A Novel Technique for
Overdrive Extraction by Measuring Only Two Gray-to-Gray Responses
of a LCD
Seung-Woo Lee, Kyung Hee University, Seoul, Korea
|
|
33.2:� |
Development of Single-Chip
Overdrive LSI with Embedded Frame Memory
Jun Someya, Mitsubishi Electric Corp., Nagaokakyo, Japan
|
|
33.3: |
A Novel Image Compression
Algorithm for Overdriving
Sung Kyu Lee, Pohang University of Science and Technology, Pohang,
Korea
|
|
33.4:� |
Smooth-Frame-Insertion
Method for Reducing Motion Blur on OLED Panels
Hanfeng Chen, Samsung Electronics Co., Ltd., Kyunggii-do Korea
|
| Session 34:
Plasma-Display TV (Emissive Displays)
|
|
Wednesday, May 21 / 10:40 am - 12:00 pm / Room 408B |
|
Chair:
Tsutae Shinoda, Shinoda Plasma Co., Ltd.
|
|
Co-Chair:
Ki-Woong Whang, Seoul National University
|
|
34.1:� |
Invited Paper: Development
of World's Largest (150-in. Diagonal) Advanced High-Definition PDP
H. Ashida, PDP / PAVC / Panasonic, Osaka, Japan
|
|
34.2:� |
Invited Paper: Development
of 1 x 2-m Plasma Tube Array (PTA) Technologies Ready for
Ultra-Large Film Display
Hitoshi Hirakawa, Shinoda Plasma Co., Ltd., Kobe, Japan
|
|
34.3:� |
Development of Advanced
ALIS PDP with Hybrid Driving Method
Naoki Itokawa, Hitachi Ltd., Yokohama, Japan
|
|
34.4: |
Novel Priming Discharge
Technique for 120-Hz FHD PDP
Jeongduk Ryeom, Soongsil University, Seoul, Korea
|
| Session 35:
Transflective LCDs I (Liquid-Crystal Technology)
|
|
Wednesday, May 21 / 10:40 am - 12:00 pm / Room 502 |
|
Chair:
Birendra Bahadur, Rockwell Collins, Inc.
|
|
Co-Chair:
Shin Tson Wu, University of Central Florida
|
|
35.1:� |
Single-Cell-Gap
Transflective FFS LCD Using Wire- Grid Polarizer
Zhibing Ge, University of Central Florida, Orlando, FL, USA
|
|
35.2: |
A Novel Transflective OCB
LCD for Mobile TV Applications
I-Ann Yao, InnoLux Display Corp., Miaoli County, Taiwan
|
|
35.3: |
A New Single-Cell-Gap
Transflective OCB-LCD with Fast Response Time and Wide Viewing
Angle
Ichiro Fukuda, Kanazawa Institute of Technology, Ishikawa, Japan
|
|
35.4: |
Advanced-MVA Mobile
Technology for Fast- Switching LCDs
Shih-Feng Hsu, AU Optronics Corp., Hsinchu, Taiwan
|
| Session 36:
OLED-Display Technology II (OLEDs)
|
|
Wednesday, May 21 / 3:30 - 4:50 pm / Concourse Hall 152
|
|
Chair:
Julie J. Brown, Universal Display Corp.
|
|
Co-Chair:
Chishio Hosokawa, Idemitsu Kosan Co., Ltd.
|
|
36.1:� |
Invited Paper:
Cost-Competitive Vacuum-Deposition Technology for Small-Molecule
OLED Manufacturing
Michael Long, Eastman Kodak Co., Rochester, NY, USA
|
|
36.2:� |
Invited Paper: Progress in
Laser-Induced Thermal Imaging of OLEDs
Martin Wolk, 3M, Saint Paul, MN, USA
|
|
36.3: |
An OLED with Highly
Efficienct Light Extraction Using Newly Developed Diffraction
Layer
Hiroshi Sano, Toshiba Matsushita Display Technology Co., Ltd.,
Ishikawa, Japan
|
| 36.4:� |
A Novel Seamless Tiling
Technology for High-Resolution OLED displays
HongShik Shim, Samsung Adavanced Institute of Technology, Kyunggi-do,
Korea
|
| 36.5: |
Late-News
Paper: The Light Distribution in OLEDs and Ways to
Increase the Light-Outcoupling Efficiency
Ansgar Werner, Novaled AG, Dresden, Germany
|
| Session 37:
Innovative Display Manufacturing (Display Manufacturing)
|
|
Wednesday, May 21 / 3:30 - 4:40 pm / Room 403A
|
|
Chair:
Bennet Chu, RiTdisplay Corp.
|
|
Co-Chair:
Peter A. Smith, Honeywell
|
|
37.1: |
Novel Development of
Large-Sized Electrowetting Display
Wei-Yuan Cheng, Industrial Technology Research Institute, Hsinchu,
Taiwan
|
|
37.2:� |
Field-Sequential FLCDs
Fabricated by Ink-Jet Technology
Masato Okabe, Dai Nippon Printing Co., Ltd., Chiba, Japan
|
|
37.3: |
Low-Cost Manufacturing of
Patterned Films with Nano-Precision
Zhilian Zhou, Liquidia Technologies, Inc., Durham, NC, USA
|
|
37.4:� |
Late-News
Paper: Intergration of Carbon-Nanotube Transparent
Electrodes into Display Applications
Young Bae Park, Unidym Inc., Menlo Park, CA, USA
|
| Session 38:
Systems on Glass (Display Electronics)
|
|
Wednesday, May 21 / 3:30 - 4:40 pm / Room 408A
|
|
Chair:
Seung-Woo Lee, Kyung Hee University
|
|
Co-Chair:
Tae Sung Kim, Marvel Semiconductor
|
|
38.1: |
A Novel Two-Stage Analog
Amplifier with Self-Compensated Current Loads Using LTPS TFTs for
Flat-Panel Displays
Kyoung-Ho Lim, Hanyang University, Seoul, Korea
|
|
38.2: |
High-Efficiency
P-Type-Only Cross-Coupled DC-DC Converter Using LTPS TFTs for
Mobile Display Applications
Joong-Sun Yoon, Hanyang University, Seoul, Korea
|
|
38.3: |
All-Digital Phase-Locked
Loop with Low-Temperature Poly-Si TFTs for System-on-Glass
Jinyong Choi, Hanyang University, Seoul, Korea
|
|
38.4:� |
Late-News
Paper: A New Low-Power Driving Method for High-
Resolution Mobile IPS Panels
Naoki Takada, Hitachi Ltd., Yokohama-shi, Kanagawa-ken, Japan
|
| Session 39:
Transflective LCDs II (Liquid-Crystal Technology)
|
|
Wednesday, May 21 / 3:30 - 4:50 pm / Room 502
|
|
Chair:
Yukito Saitoh, FUJIFILM Corp.
|
|
Co-Chair:
Tatsuo Uchida, Tohoku University
|
|
39.1: |
Invited Paper:
Fabrication of
Antireflection Coatings Using the Layer-by-Layer Self-Assembly
Technique
Lei Zhai, University of Central Florida, Orlando, FL, USA
|
|
39.2: |
Novel Single-Gap TRLCD with Highly
Reflective Image Quality
Shih-Chia Hsu, AU Optronics Corp., Hsinchu, Taiwan
|
|
39.3:� |
Wide-View Transflective LCD Using
Fringe-Field-Switching Mode
Hyang Yul Kim, University of Central Florida, Orlando, FL, USA
|
|
39.4: |
Liquid-Crystal Etalon Device for Reflective Display
Enkh Amagalan Dorjgotov, Kent State University, Kent, OH, USA
|
| Session 40:
Nano-Particle Doped LCDs (Liquid-Crystal Technology)
|
|
Thursday, May 22 / 9:00 - 10:00 am / Concourse Hall 151
|
|
Chair:
Shohei Naemura, Merck, Ltd.
|
|
Co-Chair:
Hoi-Sing Kwok, Hong Kong University of Science & Technology
|
|
40.1: |
Modification of Physical Properties of
Liquid Crystals by Doping Nanoparticles of Inorganic Materials
Producing the Reduction of Operating Voltage and Response Times of
LCDs
Shunsuke Kobayashi, Tokyo University of Science & Technology, Yamaguchi, Japan
|
|
40.2: |
Invited Paper: Nano-Structured Polymers
for Alignment Layers in LCDs
Lachezar Komitov, G�teborg University, Gothenburg, Sweden
|
|
40.3:� |
Novel Anchoring Stabilization
Method for High-Temperature Storage in Cholesteric-Liquid-Crystal
Microcapsules Using Nano-Particles Deposited on the Shell
Naoki Hiji, Fuji Xerox Co. Ltd., Kanagawa, Japan
|
| Session 41:
OLED Materials I (OLEDs) |
|
Thursday, May 22 / 9:00 - 10:20 am / Concourse Hall 152 |
|
Chair:
Chishio Hosokawa, Idemitsu Kosan Co., Ltd.
|
|
Co-Chair:
Yasunori Kijima, Sony Corp.
|
|
41.1:� |
Molecular Design of Organic
Semiconductors Aiming for High-Performance OLED, OFET, and Organic
Laser Diode
Chihaya Adachi, Chitose Institute of Science & Technology,
Hokkaido, Japan |
|
41.2: |
Invited Paper:
Small Molecules with
Ambipolar Transporting Properties for OLEDs with Simplified
Structures
Yong Qiu, Tsinghua University, Beijing, China |
|
41.3: |
Charge Carriers and Triplets in OLED
Devices Studied by Electrically Detected Magnetic Resonance
Thomas Pawlik, Eastman Kodak Co., Rochester, NY, USA |
|
41.4: |
Invited Paper:
Role of Triplet-Triplet Annihilation in
Highly Efficient Fluorescent Devices
Denis Kondakov, Eastman Kodak Co., Rochester, NY, USA
|
| Session 42:
Oxide TFTs (Active-Matrix Devices) |
|
Thursday, May 22 / 9:00 - 10:20 am / Petree Hall |
|
Chair:
Hyun Jae Kim, Yonsei University
|
|
Co-Chair:
Takatoshi Tsujimura, Kodak Japan, Ltd.
|
|
42.1: |
Invited Paper: Improved Amorphous In-Ga-Zn-O
TFTs
Ryo Hayashi, Canon Research Center, Tokyo, Japan |
|
42.2:� |
The World's Largest (15-in.) XGA LCD
Panel Using IGZO Oxide TFTs
Je-Hun Lee, Samsung Electronics Co., Ltd., Youngin, Korea |
|
42.3:� |
Transparent ZnO TFT for the Application
of High-Aperture-Ratio Bottom-Emitting AMOLED Display
Sang-Hee Park, ETRI, Daejeon, Korea
|
|
42.4:� |
Late-News
Paper: 4-in. QVGA AMOLED Driven by the
Threshold-Voltage-Controlled Amorphous GIZO (Ga2O3-In2O3-ZnO) TFT
Kyoung-Seok Son, Samsung Advanced Institute of Technology,
Yongin-Si, Korea
|
| Session 43:
Display Manufacturing: Printing & Coating
Processes (Display Manufacturing) |
|
Thursday, May 22 / 9:00 - 10:20 am / Room 403A |
|
Chair:
Greg Gibson, FAS Technologies, LLC
|
|
Co-Chair:
Elliott Schlam, Elliott Schlam Associates
|
|
43.1: |
Design Parameters of Roll-Printing
Process for TFT-LCD Fabrication
Youn-Gyoung Chang, LG.Philips LCD, Kyunggi-do, Korea |
|
43.2: |
Color Plastic Bistable Nematic Display
Fabricated by Imprint and Ink-Jet Technology
John Rudin, Hewlett Packard Labs, Avon, UK |
|
43.3:� |
Slot-Die Coating for OLED Displays
Tami Faircloth, Dupont Displays, Inc., Santa Barbara, CA, USA |
|
43.4: |
Enhancement of Roll-Printing
Accuracy for TFT-LCDs
Seung-Hee Nam, LG.Philips LCD, Kyunggi-do, Korea
|
| Session 44:
Novel Devices (Display Systems) |
|
Thursday, May 22 / 9:00 - 10:30 am / Room 403B |
|
Chair:
Jean-Pierre Guillou, Sony Electronics
|
|
Co-Chair:
Wei Chen, Apple, Inc.
|
|
44.1: |
Invited Paper:
Electrowetting-Based
Information Displays
Rob Hayes, Liquavista, Shatin, Hong Kong |
|
44.2: |
Novel Front-Light System Using
Fine-Pitch-Patterned OLED
Norio Koma, Sanyo Epson Imaging Devices Corp., Gifu, Japan
|
|
44.3: |
A Liquid-Crystal Lens with Non-Uniform
Anchoring Energy
Sergiy Valyukh, Center for Display Research, Kowloon, Hong Kong |
|
44.4: |
Invited Paper: Orgacon: The Organic Alternative to ITO
Frank Louwet, Agfa Gevaert NV, Mortsel, Belgium
|
|
44.5:� |
Late-News
Paper: All-Organic, Transparent Up-Conversion Displays
with Tailored Excitation and Emission Wavelengths
Tzenka Miteva, SONY Deutschland GmbH, Stuttgart, Germany
|
| Session 45:
Display
Interfaces (Display Electronics) |
|
Thursday, May 22 / 9:00 - 10:20 am / Room 408A
|
|
Chair:
Richard McCartney, National Semiconductor Corp.
|
|
Co-Chair:
Xu Dong, PLM, Inc.
|
|
45.1:� |
Embedded Data-Line Differential
Signaling (EDDS): A Novel Interface for Large-Sized TFT-LCDs
Wen-Chi Lin, Novatek Microelectronics, Hsinchu, Taiwan |
|
45.2:� |
DisplayPort: The Emerging Converged
Digital Display Interface Technology and Implementation in Mobile
Computing Platforms
Achin Bhowmik, Intel Corp., Santa Clara, CA, USA
|
|
45.3:� |
Cost-Effective 60-Hz FHD LCD with
800-Mbps AiPi Technology
Hyoungsik Nam, Samsung Electronics Co., Ltd., Chungcheongnam-do,
Korea
|
|
45.4:� |
High-Frequency LVDS Interface for FHD
120-Hz LCD TV
Hyun-Gi Jung, LG.Philips LCD, Kyunggi-do, Korea
|
| Session 46:
Electronic Paper I (Liquid-Crystal Technology) |
|
Thursday, May 22 / 10:40 am - 12:00 pm / Concourse Hall 151 |
|
Chair:
Paul Drzaic, Unidym Corp.
|
|
Co-Chair:
Richard McCartney, National Semiconductor Corp.
|
|
46.1: |
Invited Paper: Novel Design for
Full-Color Electronic Paper
K.-M. H. Lenssen, Royal Philips, Eindhoven, The Netherlands |
|
46.2:� |
Real-Time Pen Tracking on
Electronic-Paper Displays
Guotong Feng, Ricoh Innovations, Inc., Menlo Park, CA, USA |
|
46.3:� |
High-Performance
Active-Matrix Electrophoretic-Display Controller
Yun Shon Low, Epson, Richmond, BC, Canada
|
|
46.4:� |
Ghosting Reduction Using Digital
Halftoning for Electrophoretic Displays
Guotong Feng, Ricoh Innovations, Inc., Menlo Park, CA, USA
|
| Session 47:
OLED Materials II (OLEDs) |
|
Thursday, May 22 / 10:40 am - 12:00 pm / Concourse Hall 152 |
|
Chair:
Jang Hyuk Kwon, Kyung Hee University
|
|
Co-Chair:
Lee-Mi Do, ETRI
|
|
47.1:� |
Invited Paper: Charge Transporters for
OLEDs: Strategies and Performance
Poopathy Kathirgamanathan, OLED-T Ltd., Middlesex, UK |
|
47.2:� |
Luminescence Quenching in
Blue-Fluorescent OLEDs
Ralph Young, Eastman Kodak Co., Rochester, NY, USA
|
|
47.3:� |
Highly Efficient Fluorescent Deep Blue
Dopant for "Super Top Emission" Device
Hitoshi Kuma, Idemitsu Kosan Co., Ltd., Chiba, Japan
|
|
47.4L:� |
Blue-Phosphorescent OLED Stability
Analysis
Brian D'Andrade, Universal Display Corp., Ewing, NJ, USA
|
| Session 48:
Active-Matrix Display Sensors (Active-Matrix Devices) |
|
Thursday, May 22 / 10:40 am - 12:00 pm / Petree Hall |
|
Chair: Fujio Okumura, NEC Corp.
|
|
Co-Chair:
Norbert Fruehauf, University of Stuttgart
|
|
48.1:� |
A New Monolithic Poly-Si Ambient
Light-Sensor System with Wide Dynamic Range for Active-Matrix
Displays by Employing an Adaptive Sensitivity Control
Hyun-Sang Park, Seoul National University, Seoul, Korea |
|
48.2: |
Display Architecture Suitable for
Multiple Ambient Light-Sensor Integration Using LTPS Technology
Takashi Nakamura, Toshiba Matsushita Display Technology Co., Ltd.,
Saitama, Japan |
|
48.3:� |
A 2-in. LTPS AMOLED with
Embedded
Lateral p-i-n Photodiode Sensors
Jin Jang, Kyung Hee University, Seoul, Korea |
|
48.4:� |
Sensor-Embedded Electrophoretic
Display Using Organic TFTs on Plastic
Jin Jang, Kyung Hee University, Seoul, Korea
|
| Session 49:
Laser Manufacturing Processes (Display Manufacturing) |
|
Thursday, May 22 / 10:40 am - 12:00 pm / Room 403A |
|
Chair:
Lauren F. Palmateer, Qualcomm MEMS Technologies
|
|
Co-Chair:
Fan-Chen F. Luo, AU Optronics Corp.
|
|
49.1: |
Invited Paper: Laser-Induced Full-Body
Cleavage of Glass for FPDs
Kojiro Karube, LEMI, Co., Ltd., Kanagawa, Japan |
|
49.2: |
Innovative Laser Patterning of Black
Matrix for LCD Manufacture
Paul Harrison, Powerlase Ltd., Crawley, UK |
|
49.3: |
Mechanism and Advanced Application of
Rapid Laser Process on SnO2-System Thin Films for FPD Manufacture
Reo Usui, Osaka University, Osaka, Japan |
|
49.4:� |
Direct-Imaging System by Using a UV
Pulse Laser and Small Variable-Aperture Masks for Color-Filter
Fabrication
Yukihide Shigeno, Dainippon Screen Mfg. Co., Ltd., Shiga, Japan
|
| Session 50:
3-D Integral Imaging and Autostereoscopic Displays
(Display Systems) |
|
Thursday, May 22 / 10:40 am - 12:00 pm / Room 403B |
|
Chair:
Jean-Noel Perbet, THALES Avionics
|
|
Co-Chair:
Jean-Pierre Guillou, Sony Electronics
|
|
50.1:� |
Invited Paper:
Sample Application Using
Features of Integral Videography
Michio Oikawa, Hitachi, Ltd., Kawasaki, Japan |
|
50.2: |
Projection-Type Integral Imaging System
Using Convex Mirror Array
Sung-Wook Min, Kyung Hee University, Seoul, Korea |
|
50.3: |
Arbitrary View Generation in
Perspective and Orthographic Projection Geometry Using Lens Array
Jae-Hyeung Park, Chungbuk National University, Chungbuk-do, Korea |
|
50.4: |
High-Resolution Autostereoscopic 3-D
Display with Proximity Projector Array
Tzu-Hui Hsu, National Tsing Hua University, Hsinchu, Taiwan
|
| Session 51:
LED Backlight Driving (Display Electronics) |
|
Thursday, May 22 / 10:40 am
- 12:00 pm / Room 408A |
|
Chair:
Tae Sung Kim, Marvel Semiconductor
|
|
Co-Chair:
David A. Eccles, Eccles Engineering
|
|
51.1:� |
A Real-Time Image
Compensation for High-Dynamic-Range LCDs
Lin Yao Liao, National Chiao Tung University, Hsinchu, Taiwan |
|
51.2: |
Delta-Color-Adjustment
(DCA) Method for Color-Controlled Backlight of High-Dynamic-Range
LCD TVs
Guo Zhen Wang, National Chiao Tung University, Hsinchu, Taiwan |
|
51.3:� |
Driving a Adaptive
Local Dimming Backlight for LCD-TV Systems
Hendriek Groot Hulze, NXP - Research, Eindhoven, The
Netherlands |
|
51.4:� |
Color Gamut and
Contrast Enhancement for Mobile-Phone Displays
Chih-Chang Lai, Wintek Corp., Taichung, Taiwan
|
| Session 52:
Color (Applied Vision) |
|
Thursday, May 22 / 10:40 am
- 12:20 pm / Room 408B |
|
Chair:
Louis D. Silverstein, VCD Sciences, Inc.
|
|
Co-Chair:
Ingrid Heynderickx, Philips Research
Laboratories
|
|
52.1: |
Invited
Paper: High, Wide, and Deep: Displayed Image Color
Appearance and Perception
Mark Fairchild, Rochester Institute of Technology, Rochester,
NY, USA |
|
52.2:� |
Display with
Arbitrary Primary Spectra
Johan Bergquist, Nokia Japan Co., Ltd., Tokyo, Japan |
|
52.3:� |
Primary Selection
for the Displays with RGB-LED Primaries Considering the Primary
Optical Power and Color Gamut
Senfar Wen, Chung Hua University, Hsinchu, Taiwan
|
|
52.4:� |
RGB-to-RGB
Conversion for OLED Displays
Michael Miller, Eastman Kodak Co., Rochester, NY, USA
|
|
52.5:� |
Effect of
Color-Gamut Volume in Display on Image Preference
Masato Sakurai, Sony Corp., Tokyo, Japan
|
| Session 53:
Electronic Paper II (Liquid-Crystal
Technology) |
|
Thursday, May 22 / 1:30 -
2:50 pm / Concourse Hall 151 |
|
Chair:
Anthony C. Lowe, Lambent Consultancy
|
|
Co-Chair:
Deng-Ke Yang, Kent State University
|
|
53.1: |
Invited
Paper: Recent Advances in Tiled Cholesteric Billboard
Displays
David Coates, Magink Display Technologies, Oxford, UK |
|
53.2: |
Recent Improvements
of Droplet-Driven Electrowetting Displays
Karlheinz Blankenbach, University of Pforzheim, Pforzheim,
Germany
|
|
53.3:� |
Flexible Color
Cholesteric LCD with Single-Layer Structure
Yuang-Chang Liao, Industrial Technology Research Institute,
Hsinchu, Taiwan |
|
53.4:� |
Novel Pulsed Drive
Scheme for Improved Gray-Level Uniformity of Large-Area
Cholesteric Displays
Duane Marhefka, Kent Displays, Inc., Kent, OH, USA
|
| Session 54:
Tandem OLEDs (OLEDs) |
|
Thursday, May 22 / 1:30 -
2:50 pm/ Concourse Hall 152 |
|
Chair:
Webster E. Howard, Howard Consulting
|
|
Co-Chair:
Tariq A. Ali, e-Magin Corp.
|
|
54.1: |
Novel Approach to
Stabilize Blue OLEDs and Fabrication of High-Efficiency Tandem
White OLEDs for Large-Area-Display Applications
Tukaram Hatwar, Eastman Kodak Co., Rochester, NY, USA |
|
54.2: |
Tandem White OLEDs
Combining Fluorescent and Phosphorescent Emission
Liang Sheng Liao, Eastman Kodak Co., Rochester, NY USA |
|
54.3:� |
White Stacked OLED
with 35 lm/W and a Lifetime of 100,000 hours at 1000 cd/m2 for
Display and Lighting Applications
Jan Birnstock, Novaled AG, Dresden, Germany |
|
54.4:� |
Highly Efficient and
Wide-Color-Gamut White OLED Architecture for Display Application
Sunghun Lee, Samsung Advanced Institute of Technology, Youngin,
Korea
|
| Session 55:
Integrated AMLCDs (Active-Matrix Devices) |
|
Thursday, May 22 / 1:30 -
2:50 pm / Petree Hall |
|
Chair:
John Zhong, Apple, Inc.
|
|
Co-Chair:
Hyun Jae Kim, Yonsei University
|
|
55.1: |
An Inner
Touch-Screen-Panel-Embedded 12.1-in., a-Si:H TFT-LCD
Bong-Hyun You, Samsung Electronics Co., Ltd., Chungcheongnam-do,
Korea |
|
55.2:� |
Integrated
Active-Matrix Capacitive Sensors for Touch-Panel LTPS TFT-LCDs
Eiji Kanda, Seiko-Epson Corp., Nagano, Japan |
|
55.3: |
Low-Cost 32-in. HDTV
Panel Employing Gate IC Integration and Data-Line Reduction
Min-Cheol Lee, Samsung Electronics Co., Ltd.,
Chungcheongnam-do,
Korea |
|
55.4: |
Design of Integrated
a-Si Gate Driver Circuits for Low Power Consumption
Injae Hwang, LCD Business Samsung Electronics Co., Ltd.,
Chungcheongnam-do, Korea
|
| Session 56:
Advances in Projection Systems (Projection) |
|
Thursday, May 22 / 1:30 -
2:50 pm / Room 403A |
|
Chair:
Sergei Yakovenko, Fidelica Microsystems
|
|
Co-Chair:
Patrick Candry, BARCO NV
|
|
56.1: |
High-Frame-Rate
High-Contrast Laser Grating Light-Valve Projection Display
Hiroki Kikuchi, Sony Corp., Tokyo, Japan |
|
56.2: |
Achromatic
Space-Variant Retarder for Microdisplay-Based Projection Systems
Khaled Sarayeddine, Optinvent, Rennes, France |
|
56.3: |
A 65-in. Super-Slim
Laser TV with Newly Developed Laser Light Sources
Hiroaki Sugiura, Mitsubishi Electric Corp., Kyoto, Japan |
|
56.4: |
Invited
Paper: New-Technology Light Sources for Projection
Displays
Matthew Brennesholtz, Insight Media, Pleasantville, NY, USA
|
| Session 57:
Backlight Units (Display Systems) |
|
Thursday, May 22, 2008 /
1:30 - 3:10 pm / Room 403B |
|
Chair:
Sungkyoo Lim, Dankook University
|
|
Co-Chair:
Masaru Suzuki, Rohm and Haas Co.
|
|
57.1: |
UV-Excited Flat
Lighting (UFL) System for LCD-TV Backlight Application
Hsin-Tao Huang, National Chiao Tung University, Hsinchu, Taiwan |
|
57.2: |
Optical Design of
Phosphor Sheet Structure in LED Backlight System
Yasushi Ito, Sony Electronics, Tokyo, Japan |
|
57.3:� |
Achieving Color
Balance of a Large-Sized BLU Directly Lit by LEDs Capped with
Customized Optical Lenses
Paul C.-P. Chao, National Chiao Tung University, Hsinchu,
Taiwan
|
|
57.4: |
Side-Lit
Light-Guideless Flat LED Lighting Panel for Ultra-Uniform LCD
Backlighting
Ryuji Tsuchiya, Harison Toshiba Lighting Corp., Ehime, Japan
|
|
57.5:� |
Improvement of Mura
on Diagonal Direction for VA Monitor
Yonghwan Shin, Samsung Electronics Co., Ltd., Chungcheongnam-do, Korea
|
| Session 58:
Driver ICs (Display Electronics) |
|
Thursday, May 22 / 1:30 -
2:50 pm / Room 408A |
|
Chair:
Hyoungsik Nam, Samsung Electronics Co.,
Ltd.
|
|
Co-Chair:
Richard McCartney, National Semiconductor
Corp.
|
|
58.1:� |
A 720-Channel LCD
Source Driver with a 12-bit Segmented R-C DAC
Seongjong Yoo, Samsung Electronics Co., Yongin, Korea |
| 58.2: |
A Novel Linear DAC
Using a Capacitor-Coupled Adder for LCD Driver ICs
Kengo Umeda, NEC Eletronics, Kanagawa, Japan |
|
58.3:� |
Area- and
Power-Efficient 10-bit Column Driver with Interpolating DAC and
Push-Pull Amplifier for AMLCDs
Hyung-Min Lee, KAIST, Daejeon, Korea |
|
58.4:� |
A 10-bit Column
Driver with Split-DAC Architecture
Suhwan Kim, Seoul National University, Seoul, Korea
|
| Session 59:
High Dynamic Range (Applied Vision) |
|
Thursday, May 22 / 1:30 -
3:00 pm / Room 408B |
|
Chair:
Helge Seetzen, Dolby Laboratories
|
|
Co-Chair:
James Larimer, ImageMetrics
|
|
59.1: |
Invited
Paper: A Display Simulation Toolbox for Image-Quality
Evaluation
Joyce Farrell, Stanford University, Stanford, CA, USA |
|
59.2: |
Defining Dynamic
Range
Greg Ward, Dolby Canada, Albany, CA, USA |
|
59.3: |
Temporal Filtering
in LCD Backlight Modulation
Louis Kerofsky, Sharp Laboratories of America, Camas, WA, USA |
|
59.4: |
Comparing the
Effective Resolution of Various Subpixel Layouts
Michiel Klompenhouwer, Philips Research Laboratories, Eindhoven,
The Netherlands
|
|
59.5:� |
Late-News
Paper: Evaluation of the Sony G�L Prototype Laser
Projector for Flight Simulation Applications
Marc Winterbottom, Air Force Research Labs, Mesa, AZ, USA
|
| Poster Session |
Thursday, May 22 / 4:00 - 7:00 pm / Exhibit Hall B
|
| Active-Matrix
Devices |
|
P.1:� |
Artificial Retina
Using Thin-Film Devices
Mutsumi Kimura, Ryukoku University, Shiga, Japan |
|
P.2:� |
Pulse-Width
Modulation with Current Uniformization for TFT-OLEDs
Mutsumi Kimura, Ryukoku University, Shiga, Japan |
|
P.3: |
Future Design Impact
of Large-Sized Color-Sequential TFT-LCDs
Kwang Jo Hwang, LG.Philips LCD, Kyunggi-do, Korea |
|
P.4: |
Mechanisms of
Threshold-Voltage Drift in Nanocrystalline TFTs for Active-Matrix
Displays
Francois Templier, CEA-LETI, Grenoble, France |
|
P.5: |
Spacer Technique to
Fabricate poly-Si TFTs with 50-nm Nanowire Channels
Guan-Liang Lin, National Chiao-Tung University, Hsinchu, Taiwan |
|
P.6:� |
Zn0.97Zr0.03O TFT
Fabricated by Sol-Gel Method and Its Application for Active-Matrix
LCDs
Shin-Chuan Chiang, Taiwan TFT -LCD Association (TTLA), Hsinchu,
Taiwan |
|
P.7:� |
Improving Electrical
Performance of the Scaled Low-Temperature Poly-Si TFTs Using
Vacuum-Encapsulation Technique
Wei-Kai Lin, National Chiao Tung University, Hsinchu, Taiwan |
|
P.8: |
A New Hybrid
Analog/Digital Driving Method to Improve AMOLED Lifetime
Suhwan Kim, Seoul National University, Seoul, Korea |
|
P.9: |
Metallic Nanowire
Film as Transparent Conducting Layer in TFT-LCDs
Shih-Hsiang Lai, Taiwan TFT LCD Association (TTLA), Hsinchu,
Taiwan |
|
P.10:� |
Low-Voltage
Transflective LCD with Wide Viewing Angle and Low Gray-Level
Inversion
Chia-Chiang Hsiao, AU Optonics Corp., Hsinchu, Taiwan |
|
P.11: |
Amorphous
In2O3-Ga2O3-ZnO TFTs and ICs on Flexible and Colorless Polyimide
Substrates
Chung-Chih Wu, National Taiwan University, Taipei, Taiwan |
|
P.12: |
A New Stable a-Si:H
TFT Pixel for AMOLEDs by Employing the a-Si:H TFT Photo Sensor
Hee-Sun Shin, Seoul National University, Seoul, Korea |
|
P.13:� |
Photosensitivity of
Amorphous IGZO TFTs for Active-Matrix Flat-Panel Displays
Chiao Shun Chuang, National Chiao Tung University, Hsinchu,
Taiwan |
|
P.14: |
Low-Cost AMOLED
Televison with Ignis Maxlife Compensating Technology
Gholamreza Chaji, Ignis Innovation, Inc., Waterloo, Ontario,
Canada |
|
P.15:� |
A 3-in. Active
Matrix for Color-Sequential LCD (CS-LCD) Based on Metal-Induced
Continuous Zonal Domain (CZD) Polycrystalline-Silicon Technology
Shuyun Zhao, Hong Kong University of Science and Technology,
Hong Kong, China |
|
P.16:� |
Noble a-Si:H Gate
Driver with High Stability
Jin Jang, Kyung Hee University, Seoul, Korea |
|
P.17:� |
Low-Power Level
Shifter for System-on-Panel Applications
Seung-Woo Lee, Kyung Hee University, Seoul, Korea |
|
P.18:� |
Design of a-Si TFT
Gate Drivers and the Area Scaling Properties
Yong Ho Jang, LG.Philips LCD, Kyunggi-do, Korea |
|
P.19:� |
Flexible Pentacene
Organic TFTs Using Sol-Gel Hybrid Polymer Gate Dielectrics
Byeong-Soo Bae, KAIST, Daejeon, Korea |
|
P.20:� |
Post-Annealing and
Passivations of Transparent Bottom-Gate IGZO TFTs
Doo-Hee Cho, Electronics and Telecommunications Research
Institute, Daejeon, Korea |
|
P.21:� |
Stability and
Intergrability Evaluation of Organic TFT with Solution-Processible
Semiconductor
JingYi Yan, ITRI-DTC, Hsinchu, Taiwan |
|
P.22:� |
Elecctrical
Stability of ZnO TFT During Gate-Bias Stress
Jae-Hong Jeon, Korea Aerospace University, Kyunggi-do, Korea |
|
P.23:� |
Transparent
Amorphous Oxide TFTs Fabricated by Solution Coating Process
Byeong-Soo Bae, KAIST, Daejeon, Korea |
|
P.24:� |
Fabrication of
Solution-Processed InGaZnO TFT for AMOLED Backplane
Gun Hee Kim, Yonsei University, Seoul, Korea |
|
P.25:� |
Nanocrystalline-Silicon
TFT Fabricated without Any Substrate Heating for a Flexible
Display
Sun-jae Kim, Seoul National University, Seoul, Korea |
|
P.26:� |
Thermally Annealed
Asymmetric-Offset Polycrystalline TFT with Low Leakage
Won-Kyu Lee, Seoul National University, Seoul, Korea |
|
P.27:� |
Advanced
Gate-All-Around Fin-Like Poly-Si TFTs with Multiple Nanowire
Channels
Shih-Wei Tu, National Chiao Tung University, Hsinchu, Taiwan |
|
P.28:� |
ZnO TFTs Fabricated
at Room Temperature by Solution Process
Ji-Young Oh, ETRI, Daejeon, Korea
|
|
P.29:� |
Modeling of
Amorphous Oxide Semiconductor TFTs and Subgap Density of States
Hsing-Hung Hsieh, National Taiwan University, Taipei, Taiwan
|
|
P.30:� |
A Relation between
an a-Si:H Integrated Buffer Transistor Resistance and Fall Time
of Gate Output Signal
Do Sung Kim, LG.Philips LCD, Paju, Korea
|
|
P.240:� |
Late-News
Poster: Advanced Design of a-Si Gate Driver and Data
Line Multiplexing for Low Cost and Low-Power TFT-LCDs
Chih-Jen Shih, ChungHwa Picture Tubes, LTD, Padeh City, Taoyuan,
Taiwan
|
|
P.241:� |
WITHDRAWN
|
|
P.259:� |
Late-News
Poster: A 14-in. Uniform AMOLED Display with Low-Cost
PECVD Based Microcrystalline Silicon TFT Backplanes
Kunal Girotra, Samsung Electronics, Yongin, Gyeonggi-do, Korea
|
|
Applications
|
|
P.31:�
|
Thin and Light
Integrated TSP with Enhanced Display Qualities
Seongho Kim, Samsung Electronics Co., Ltd., Kyunggi-do, Korea |
|
P.32:�
|
Innovative Application for
Electrowetting Displays
Andrij Bitman, Bartels Mikrotechnik GmbH, Dortmund, Germany |
|
P.33:�
|
SAW Touch on
Large-Area Displays
Jerry Schermerhorn, Electro-Plasma, Inc., Millbury, OH, USA |
|
P.34: |
3-D and Stereoscopic
Display Systems and Art-Education Strategy in Developing Countries
Nessreen Abo-Moussallam, Helwan University, Giza, Egypt |
|
P.35: |
Image Hamiltonian: A
Proposed Metric for Medical Image Transmission
Chung Jen Ou, Hsiuping Institute of Technology, Taichung,
Taiwan
|
|
P.36: |
Native Dual-Mode
Digitizers: Supporting Pen, Touch, and Multi-Touch Inputs in One
Device on Any LCD
Lenny Engelhart, N-trig Ltd., Saba, Israel
|
|
P.260:� |
Late-News
Poster: Design of Multi-Screen RGBW LCDs for
Information Displays
Jongjin Lim, LG.Philips LCD, R&D Center, Anyang-shi, Korea
|
|
P.261:� |
Late-News
Poster: Automatic Gamma and VCOM Calibration in TFT-LCD
Panel
Hong-Jong Kim, Intersil, Milpitas, CA, USA
|
|
Applied Vision |
|
P.37:� |
Study of the
Ergonomics Requirements for Color Difference in Electronic
Displays
Yuzo Hisatake, Toshiba Matsushita Display Technology Co., Ltd.,
Saitama, Japan |
|
P.38:� |
Flexible Displays: Cognitive
Performance Studies
Monika Polonen, Nokia Research Center, Tampere, Finland |
|
P.39: |
Theoretical Limit of Object Colors
and Real Object Colors
Toshiyuki Fujine, Sharp Corp., Nara, Japan |
|
P.40:� |
Color-Bias-Elimination Technique
for Motion Images
Yueh-Yi Lai, Taiwan TFT LCD Association, Hsinchu, Taiwan |
|
P.41:� |
Colorimetric Characterization of
High-Dynamic-Range LCDs
Yu Kuo Cheng, National Chiao Tung University, Hsinchu, Taiwan |
|
P.42: |
Understanding Gamma Correction for
High-Dynamic-Range Displays
Martin Kykta, Uni-Pixel Displays, Inc., The Woodlands, TX USA |
|
P.43: |
Effects of Changing Image Size on
Depth Perception Using a Floating 3-D Display
Takashi Shibata, Waseda University, Saitama, Japan
|
|
P.44:� |
Overall Judgment by Comparison with
Polish and Matt Surface for Some FPDs with Analytic Hierarchy
Process
Yuzo Hisatake, Toshiba Matsushita Display Technology Co., Ltd.,
Saitama, Japan
|
|
P.45: |
A Study on the Relationships
between Human Perception and the Physical Phenomenon of Speckle
Yun Mi Lee, LG Electronics, Seoul, Korea
|
|
P.46: |
Optimization of Subpixel Color
Tiles for Mobile Displays
Brian Gally, San Jose, CA, USA
|
|
P.47:� |
Relative Evaluation of Visibility
of Reflective Electronic-Paper Displays Compared to Conventional
LCDs under Various Illuminance Conditions
Kosuke Nishimura, KDDI R&D Laboratories, Fujimino, Japan
|
|
Display Electronics |
|
P.48: |
Adaptive Frame-Rate
Up-Conversion Considering Low Computational Complexity and Complex
Motion
Suk Ju Kang, Pohang University of Science and Technology,
Pohang, Korea |
|
P.49:� |
A Gamut-Mapping
Algorithm with Separate-Skin and Non-Skin-Color Preference
Controls for Wide-Color-Gamut TV
Hao Pan, Sharp Laboratories of America, Camas, WA, USA
|
|
P.50: |
Elimination of Gamma
Variation in Large LCD Panels for Television, Notebooks, and
Monitor Applications
Richard Orlando, Alta Analog, Inc., San Jose, CA, USA |
|
P.51: |
A Novel
Image-Quality-Enhancement Method for AMOLED
Byung-Hwee Park, LG.Philips LCD, Kyunggi-do, Korea |
|
P.52:� |
Evaluation of LCD
Optical Performances with Motion-Blur Reduction and
Color-Improvement Technologies
Eddy Chen, InnoLux Display Corp., Chunan, Taiwan |
|
P.53:� |
Spatio-Temporal
Level-Adaptive Overdrive Method for LCD Driver ICs for Mobile
Phones
Aira Hotta, Toshiba Corp., Kawasaki, Japan |
|
P.54:� |
An 8-msec Delay
Real-Time Image Transmission System for Remote Desktop
Masashi Nakao, Eizo Nanao Corp., Ishikawa, Japan |
|
P.55:� |
A 10-bit DAC Using
Active Resistor Strings for TFT-LCDs
Woo-Nyoung Lee, Samsung Electronics Co., Ltd., Kyunggi-do,
Korea |
|
P.56:� |
One-Chip Driver IC
for 16-Million-Color WXGA LTPS TFT-LCD Panel
Kyung Myun Kim, Samsung Electronics Co., Ltd., Kyunggi-do,
Korea |
|
P.57:� |
A 10-bit TFT-LCD
Column Driver with Hybrid DAC
Chih Wen Lu, National Chi Nan University, Hsien,
Taiwan |
|
P.58:� |
Wide-Range Dimming
Control of LED Backlight for Avionics Displays
Se-Kyo Chung, Gyeongsang National University, Gyeongnam-do,
Korea |
|
P.59:� |
Advance System
Solution for Driving Multi-Array RGB LED Backlight
Arkadly Peker, Microsemi, Melville, NY, USA |
|
P.60:� |
Ripple-Free Power
System for Color-Sequential LED Backlights
Sheng-Yu Tseng, Chang Gung University, Taoyuan, Taiwan |
|
P.61:� |
Design of On-Glass Bandgap-Voltage Reference Circuit in a 3-�m
LTPS Process
Ming-Dou Ker, National Chiao-Tung University, Hsinchu, Taiwan |
|
P.242:� |
Late-News
Poster: Development of 13-bit Source Driver / Timing
Controller Chipset with RGB Individual Gamma Control and
Evaluation Report on the Panel
Hideki Kano, OKI Electric Industry Co., Tokyo, Japan |
|
P.243:� |
Late-News
Poster: A 480-output TFT-LCD Source Driver IC for COG
Applications
Hyun Kyu Jeon, Silicon Works, Daejeon, Korea |
|
Display Manufacturing |
|
P.62:� |
Organic Surface on
of a TFT Array Treated with Nitrogen Plasma
Hsin-Ming Liao, AU Optonics Corp., Hshichu, Taiwan |
|
P.63:� |
A New Transparent
Plastic Substrate Having High Heat Resistance and Low Retardation
for Flexible Displays
Yasuyoshi Fujii, Tosoh Corp., Yokkaichi, Japan |
|
P.64:� |
Optimum Slit Design
Simulation Applied by Gray-Tone Photolithography
Seungjin Choi, Xihuanzhonglu, BDA, Beijing, China |
|
P.65:� |
Optimizing Polyester
Films for Flexible Electronic Applications
Robert Eveson, Dupont Teijin Films (UK) Limited, Middlesbrough,
UK |
|
P.66:� |
Large-Area
Color-Filter Fabrication by Using Ink-Jet-Printing Technology
Siang Jhih Wu, National Chiao Tung University, Hsinchu, Taiwan |
|
P.67:� |
Wet Etching of
Gallium Indium Zinc Oxide (GIZO) Semiconductor for TFT Application
Jong Hyun Seo, Hankuk Aviation University, Kyunggi-do, Korea |
|
P.68:� |
Recent Development
of Anisotropic Conductive Film for Fine-Pitch COF Connection
Ryoji Kojima, Sony Chemical & Information Device Corp.,
Kanuma, Japan
|
|
P.69:� |
PDP Fabricated with
Low-Temperature Processes Below 300�C Using Sol-Gel Hybrid
Polymers (Hybrimer PDP)
Byeong-Soo Bae, KAIST, Daejeon, Korea
|
|
P.70:� |
Improvement of
Material Utilization of Organic Evaporation Source for
Manufacturing Large-Sized AMOLED Devices
Haewon Kim, Doosan Mecatec, Ansan, Korea
|
|
P.71:� |
Substrate Adhesion
Technique Using Thermosetting Resin to Apply Roll-to-Roll Process
in the Manufacture of LCDs
Joon-Hyung Kim, Hanyang University, Seoul, Korea
|
|
P.72:� |
Is the
Photoelasticity of PSAs for LCD Panels Reducible?
Kentaro Kusama, Lintec Corp., Saitama, Japan
|
|
P.73:� |
Mechanical Assisted
Corrosion: An Investigation of Thin-Film Components Used in
Flexible Optoelectronic Applications
Nicholas Morris, West Virginia University, Morgantown, WV, USA
|
|
P.74:� |
Low-Temperature a-Si
TFT on Soda-Lime Glass
Ya-Tang Yang, AKT, Santa Clara, CA, USA
|
|
P.75:� |
Modification of RGB
Photoresists for Color Filters
Cheng-Han Chen, Tatung University, Taipei, Taiwan
|
|
P.76:� |
Reflection Pattern
Printing for Light Guide Using an Ink-Jet Coating Method
Jang Hwan Hwang, Hongik University, Seoul, Korea
|
|
P.77:� |
Polymer-Based
Plastic Electrode Film for PDLC Applications
Jin Yeol Kim, Kookmin University, Seoul, Korea
|
|
P.78:� |
Process
Simplification for Passive-Matrix OLEDs
Seungjun Yi, Hoseo University, Chungcheongnam-do, Korea
|
|
P.79:� |
Characterization of
Narrow-Channel TFT Using Asymmetric Halftone Exposure
Mungi Park, LG.Philips LCD, Kyunggi-do, Korea
|
|
P.80:� |
Permeation-Rate
Measurements System and Its Application to Polymeric Substrates
Byeong-Kwon Ju, Korea University, Seoul, Korea
|
|
P.262:�
|
Printing
Technologies for Flexible OLEDs
Marcel Tijdink, TNO Holst Centre, Eindhove,The Netherlands |
|
Display Measurement |
|
P.81:� |
A Novel
Moving-Picture Study of the IPS-Mode TV with 120-Hz Driving for
Full-HDTV Application
Se Hong Park, LG.Philips LCD Co,. Ltd., Kyunggki-do Korea |
|
P.82:� |
Relationship of
Color Distortion on Moving Image and Response Spectrum
Yoshi Enami, Otsuka Electronics Co., Ltd., Shiga, Japan |
|
P.83:� |
The Correlation of
MPRT and Moving-Picture Resolution with Actually Perceived
Moving-Image Qualities
Heume-Il Baek, LG.Philips, Anyang, Korea |
|
P.84:� |
Luminance and Color
Measurement of LED Backlights with a Hyperspectral Camera
Hsiang-Han Hsu, Center for Measurement Standards, ITRI, Hsinchu,
Taiwan
|
|
P.85:� |
Fast Thermal Stress
Estimation Methodology
Ming-Lang Tai, Chunghwa Picture Tubes, Ltd., Taoyuan, Taiwan
|
|
P.86:� |
Channel-Dependent
GOG Model for Colorimetric Characterization of LCDs
Chun-hsien Chou, Tatung University, Taipei, Taiwan
|
|
P.87:� |
Multi-Channel
Liquid-Crystal Retardation Measurement Technology
Chih-Shang Liu, Industrial Technology Research Institute,
Hsinchu, Taiwan
|
|
P.88:� |
WITHDRAWN
|
|
P.89:� |
New Multispectral
Fourier-Optics Viewing-Angle Instrument for Full Characterization
of LCDs and Their Components
Pierre Boher, ELDIM, Saint Clair, France
|
|
P.90:� |
Quantitative
Analysis of Electrical Mura in LCDs
Yueh-Ping Chang, InnoLux Display Corp., Chunan, Taiwan
|
|
P.91:� |
A Method for
Detecting and Classifying the Mura Phenomena in TFT-LCDs
Yung-Hsun Wu, Innolux Display Corp., Miaoli County, Taiwan
|
|
P.92:� |
Motion-Blur
Estimation on LCDs
Sylvain Tourancheau, IRCCyN, Nantes, France
|
|
P.93:� |
Characterizing
Dielectric Tensors with Biaxial Ellipsometry
Paula Smith, University of Arizona, Tucson, AZ, USA
|
|
P.244:� |
Late-News
Poster: Noise and Resolution in a Dual-Layer LCD
Aldo Badano, CDRH/FDA, Silver Spring, MD, USA
|
|
P.253:� |
Late-News
Poster: Analysis of LCD Panel Distortion for Touch Mura
Improvement
Heecheol Kim, BOE Optoelectronics Technology Co., Ltd.,
Beijing, China
|
|
Display Systems |
|
P.94:� |
Recent Developments
in the Immaterial Projection Screen Technology
Ismo Rakkolainen, Tampere University of Technology, Tampere,
Finland |
|
P.95:� |
Implementation of
TN-Type Color-Sequential TFT-LCD with Low-Power Array Design (LPAD)
Structure and Black-Data Rehashed Driving (BRD) Scheme
Jhen-Shen Liao, Chunghwa Picture Tubes, Ltd., Taoyuan, Taiwan |
|
P.96:� |
Microlens Array by
Ink-Jet Technology for LCD Backlight Applications
Tsung Han Yu, National Chiao Tung University, Hsinchu, Taiwan
|
|
P.97:� |
Luminous Uniformity
of Slab Waveguide-Based Transmissive Display Systems
Martin Selbrede, UniPixel Displays, Inc., The Woodlands, TX,
USA |
|
P.98:� |
Current-Sourced
Push-Pull Inverter for Mercury-Free Flat-Fluorescent-Lamp Driving
Joung-Hu Park, Seoul National University, Seoul, Korea |
|
P.99:� |
A Backlight Based on
a Laser Diode and Its Design Considerations
Ichiro Fujieda, Ritsumeikan University, Shiga, Japan |
|
P.100:� |
Dielectric Property
and Blackening with Glass Tubes of External Electrode Fluorescent
Lamp
Guangsup Cho, Kwangwoon University, Seoul, Korea |
|
P.101:� |
New Polarization
Converter for Enhancing LCD Brightness
Chang-Ching Tsai, University of Central Florida, Orlando, FL,
USA |
|
P.102:� |
Audible OLED Device
on Flexible PVDF Substrate with Laser-Patterned ITO Electrode
Won-Kook Choi, KIST, Korea |
|
P.103:� |
A High-Performance
Low-Cost Multifunctional Film for LCD Backlights
Zhijian Lu, Lumimaxtech, Inc., Belle Mead, NJ, USA
|
|
P.104:� |
Storage Lifetime of a Hybrid Transflective
Display Using OLED and Polarizer-Free RLCD
Tien-Lung Chiu, Nation Taiwan University, Taipei, Taiwan
|
|
P.105:� |
Benefits of a Radial
Basis Function Network Representation in Describing Free-Form
Optical Surfaces for Head-Worn Displays
Ozan Cakmakci, University of Central Florida, Orlando, FL, USA |
|
P.106:� |
Phosphors for a
White LED to Achieve an LCD with Wide Color Gamut
Takahiro Igarashi, Sony Corp., Kanagawa, Japan |
|
P.107:� |
Computer-Simulation-Based
Optical-Efficiency Maximization for a Direct-Type LED Backlight
Unit
Gil Won Han, LG.Philips LCD, Kyunggi-do, Korea |
|
P.108: |
Backlights in
Mobile-Display Power Management
Jyrki Kimmel, Nokia Research Center, Tampere, Finland |
|
P.109:� |
Cooling Efficiency Improvement
of LCD Module by High-Emissivity Surface Treating in Natural
Convection Condition
Ya Wen Chen, AU Optronics Corp., Hsinchu, Taiwan
|
|
P.110:� |
Multi-Refractive
Collimation Film (MRF) for NBPC BLU System
Jae Hyun Park, LG.Philips LCD, Gumi, Korea |
|
P.111:� |
Multi-Performance
Film (MPF) for Highly Efficient LCD Backlights
Jen Chieh Hsieh, National Chiao Tung University, Hsinchu,
Taiwan |
|
P.112:� |
Three-Dimensional
Volumetric Display System Based on a Rotating Two-Dimensional LED
Array
Xie Xiaoyan, Zhejiang University, Hangzhou, China |
|
P.113:� |
Temporal Behavior of
Nanostructure Formation in Photopolymer on Backlight Layer of TFT-LCD
Y.D. Yao, National Chung Cheng University, Chia-Yi, Taiwan |
|
P.114:� |
Tandem Light Guides
with Micro Line-Prism Arrays for Scanning FSC-LCDs
Yen Hsing Lu, National Chiao Tung University, Hsinchu, Taiwan |
|
P.115:� |
Color Light-Guide
Plate with Ag Nanostructures for TFT-LCDs
Kai-Wen Cheng, Institute of Physics, Taipei, Taiwan |
|
P.116:� |
Minimum Mercury
Quantity Required in the Discharge Plasma of CCFLs and EEFLs
Guangsup Cho, Kwangwoon University, Seoul, Korea |
|
P.117:� |
Analysis for LED
Junction Temperature in LCD Module Based on Numerical Simulation
Yung Kan Chen, Chi Mei Optoelectronics Corp., Tainan County,
Taiwan |
|
P.118: |
Optical Structure of
Thin-Direct-Type Backlight for TFT-LCD TV Module
Dekai Chen, SVA Optronics Co., Shanghai, China |
|
P.119:� |
Discussion on
Acoustic Noise of LCD Module
Hung-Ming Hsieh, Tulsa, Taiwan |
|
P.120:� |
Comparison of
Discharge Characteristics between Co-Planar and Plate-Gap
Structures in Xe-Backlight Unit
Jaenyeong Heo, Kyungpook National University, Daegu, Korea |
|
P.121:� |
Enhancement of
Brightness and Uniformity by LED Backlight Using a Total Internal
Reflection (TIR) Lens
Jang Hwan Hwang, Hongik University, Seoul, Korea |
|
P.122:� |
Characteristics of
Low-Pressure Cold-Cathode Fluorescent Lamp for Brightness
Uniformity
Yong Eun Park, Samsung Electronics Co., Ltd., Chungcheongnam-do, Korea |
|
P.123:� |
Image-Separated
Viewing-Angle LCD Based on Multidomain
Hin-Yu Mak, The Hong Kong University of Science and Technology,
Kowloon, Hong Kong |
|
P.245:� |
Late-News
Poster: Wide-Viewing-Angle 3-D Depth-Fused Display (DFD)
System
Ching-Yi Hsu, National Chiao Tung University, Taipei, Taiwan |
|
P.246:� |
Late-News
Poster: A New Method of Local Dimming and a New
Electrode Structure of Mercury-Free Flat Lamp (MFFL) for
High-Efficiency LCD Backlight Application
Jun-Young Lee, Dankook University, Cheonan, Korea |
|
Emissive Displays |
|
Phosphors and Process |
|
P.124:� |
MOVED TO 14.5 |
|
P.125:� |
Small-Particle-Sized
Lanthanum Cerium Terbium Phosphate (LAP) Phosphors for CCFL
Backlight Units in LCDs
Robert Withnall, Brunel University, Uxbridge, UK |
|
P.126:� |
Nanowire Contact
Powder Electroluminescent Technology
Feng Chen, McMaster University, Hamilton, Ontario, Canada |
|
P.127:� |
A ZnO-Based
Heterostructure n-i-n LED by Low-Cost Ultrasonic Spray Pyrolysis
Xiaowei Sun, Nanyang Technological University, Singapore |
|
P.128:� |
Experimental Study
on the Reduction of Temporal Bright Image Sticking in ACPDPs Using
Vacuum-Sealing Method
Choon-Sang Park, Kyungpook National University, Daegu, Korea |
|
P.239� |
Synthesis and Photoluminescence
Properties of Tb3+-Doped Lanthanide Orthophosphates
Kyeongsoon Park, Sejong University, Seoul, Korea
|
|
P.247:� |
Late-News
Poster: Novel White-Emitting Hybrid Electroluminescent
Device Based on Organic Dye and Inorganic Phosphor
Toshifumi Satoh, Tokyo Polytechnic University, Atsugi,
Kanagawa, Japan
|
|
Plasma-Display Discharge |
|
P.129:� |
The Effect of Front
Dielectric Thickness on Luminous Efficacy in ACPDPs with Auxiliary
Electrode
Kwanhyun Cho, KAIST, Dajeon, Korea |
|
P.130:� |
Study on Address
Discharge Time Lag in ACPDPs at High Temperature
Won-Jae Jeon, Inha University, Incheon, Korea |
|
P.131:� |
Discharge
Characteristics of Extra Pixel Assistance Structured (EPAS) ACPDP
Eun Ha Choi, Kwangwoon University, Seoul, Korea |
|
P.132:� |
Influence of Closed
Barrier Ribs on the Excited Xe Atom's Density and Its
Spatiotemporal Behavior in ACPDPs
Eun Ha Choi, Kwangwoon University, Seoul, Korea |
|
P.133:� |
A New DIDE Cell
Structure for High Luminous Efficacy and Low Voltage Driving in
Full-HD PDPs
Hae-Yoon Jung, Seoul National University, Seoul, Korea |
|
P.134:� |
Dependency of
Auxiliary Pulse Width on Luminous Efficacy in ACPDPs
Sung-Min Lee, KAIST, Cheonan, Korea |
|
P.252:� |
Late-News
Poster: Three-Dimensional Spatiotemporal Behavior of
Infrared and Visible Emission from Discharge Plasma of ACPDP
Tae-Seung Cho, Samsung SDI Co, Ltd., Chonan, Korea |
|
Plasma-Display Driving |
|
P.135:� |
Analysis on
Sustain-Waveform Distortion Induced by Display-Pattern Type in
ACPDPs
Jae Kwang Lim, Kyungpook National University, Daegu, Korea |
|
P.136:� |
Low-Cost
High-Efficiency Energy-Recovery Circuit to Drive ACPDPs with a
Single Sustain Circuit Board
Su Chang Lee, Pohang University of Science and Technology,
Gyoungbuk-do, Korea |
|
P.137:� |
Investigation of the
Vital Closed Surface to Study Discharge Phenomena in ACPDPs with an
Auxiliary Electrode
Seong Min Lee, KAIST, Daejeon, Korea |
|
P.138:� |
Driving Waveforms
for Reducing Address Discharge Time Lag in an ACPDP with Auxiliary
Electrodes
Cheol Jang, KAIST, Daejeon, Korea |
|
P.139:� |
Driving Waveform
with Multi-Scan High Level for Stable Address Discharge Under
Variable Ambient Temperature
Soo-Kwan Jang, Kyungpook National University, Daegu, Korea |
|
P.140:� |
A Modified Selective
Reset-Waveform To Minimize Wall-Voltage Variation During
Address-Period in Full-HD PDP
Hyung Dal Park, Kyungpook National University, Daegu, Korea |
|
P.141:� |
Effect of Modified
Scan and Sustain Waveforms on Black Luminance and Address Voltage
in an AC Display Panel
Raj Jana, Samtel Color PDP R & D Electronics, Ghaziabad,
India |
|
P.142:� |
New Driving
Technology for the Improvement of PDP Driving Margins in
Single-Sustain PDPs
Hyun Il Park, LG Electronics, Seoul, Korea |
|
P.143:� |
New Drive Waveforms
for High-Speed Erase Addressing
Jae-Chul Jung, Seoul National University, Seoul, Korea |
|
Plasma-Display Protective Layer |
|
P.144:� |
Photoluminescence
Spectra of Doped MgO Crystals and the Effect of Heat Cleaning
Yawei Kuang, Southeast University, Jiangdu, China |
|
P.145:� |
Influence of Crystal
Structure of Doped MgO on Jitter Time in SM-PDPs
Qing Li, Southeast University, Jiangsu, China |
|
P.146: |
Thermoluminescence
Spectra of MgO Polycrystals Exposed to Vacuum-Ultraviolet
Radiation
Qiyue Shao, Southeast University, Jiangsu, China |
|
P.147:� |
Change of
Secondary-Electron-Emission Properties with Microstructural
Evolution of MgO Film During Growth
Hak Ki Yu, Pohang University of Science and Technology, Kyunggi-do,
Korea |
|
P.148:� |
WITHDRAWN |
|
P.149:� |
Analysis of Optical
Emission Spectra from ACPDPs Operated in Lower Voltage
Giichiro Uchida, Hiroshima University, Higashi-Hiroshima, Japan |
|
FEDs |
|
P.150:� |
Catalyst-Free Carbon
Nanotubes Synthesized on Graphite Flakes by Thermal Chemical Vapor
Deposition
Jian-Min Jeng, Tatung University, Taipei, Taiwan |
|
P.151:� |
Fabrication of Nano-Crystalline
Graphite Field-Emission Device by Uisng Thick-Film Technology
Jian-Min Jeng, Tatung University, Taipei, Taiwan |
|
P.152:� |
Field-Emission
Properties of t-RNA Wrapped Carbon-Nanotube Emitters
Woo-Sung Cho, Korea University, Seoul, Korea |
|
P.153:� |
Field-Emission
Properties of Dual Emitter in Planar Gate Structure
Sun-Hee Lee, Kumho Electric, Inc., Kyunggi-do, Korea |
|
P.154:� |
Optimized Field
Emission of Multiwalled Carbon Nanotubes Using Spray Method
Byeong-Kwon Ju, Korea University, Seoul, Korea |
|
P.155:� |
Enhanced Electron
Emission with Robust CNTs Grown by Resist-Assisted Patterning
Process
Kyu Chang Park, Kyung Hee University, Seoul, Korea
|
|
Liquid-Crystal Technology |
|
Liquid-Crystal Alignment |
|
P.156:� |
Alignment of
Ferroelectric Liquid Crystals on the Substrates Processed by
Plasma-Beam Treatment
Vladimir Chigrinov, Hong Kong University of Science &
Technology, Kowloon, Hong Kong |
|
P.157:� |
Effect of the
Preparation Condition on the LC Alignment on SiO2 Inorganic Layer
Byeong-Dae Choi, DGIST, Daegu, Korea |
|
P.158:� |
Recent Developments
in Photo-Alignment Technology: Alignment Properties of Novel Azo
Dye CD-1
Gurumurthy Hegde, Hong Kong University of Science and
Technology, Kowloon, Hong Kong |
|
P.159:� |
Releasing Behavior
of Image Sticking
Yu-Chieh Chen, AU Optronics Corp., Hsinchu, Taiwan |
|
P.160:� |
Alignment of Liquid
Crystal with Ink-Jet-Printed Polyimide for Flexible LCDs
Jeoung-Yeon Hwang, Liquid Crystal Institute, Kent State
University, Kent, OH, USA |
|
P.161:� |
Multi-Domain
Vertical Alignment of Liquid Crystal by Ion-Beam Exposure on
Inorganic Film Surfaces
Phil Kook Son, Pusan National University, Busan, Korea |
|
P.162:� |
Image Sticking of
Photo-Reactive Polyimide Photo-Alignment Layer for LCDs
Sang Gu Lee, Hongik University, Seoul, Korea |
|
P.163: |
Mono-Domain
Alignment of the SmC Liquid-Crystalline Phase for Analog Display
Applications
Mitya Reznikov, Kent State University, Kent, OH, USA |
|
P.164:� |
WITHDRAWN |
|
P.254:� |
Late-News
Poster: Investigation into Stability of LC Alignment
with Newly Developed PI-Based Photopolymer
Soon Bum Kwon, Hoseo University, Asan, Chungnam, Korea |
|
Electronic Paper |
|
P.165:� |
Flexible and
Full-Color Electronic-Paper Display Using Quick-Response
Liquid-Powder Technology
Ryo Sakurai, Bridgestone Corp., Kodaira, Japan |
|
P.166:� |
An Electrophoretic
LCD with Selective Reflection
David Sikharulidze, Hewlett-Packard Laboratories, Bristol, UK |
|
P.167:� |
A 4.53-in.
Electrochromic Display with Passive-Matrix Driving
Jae-eun Jang, Samsung Advanced Institute of Technology, Yongin,
Korea |
|
P.168:� |
Reflective-Type
Polarizer-Free Flexible Displays Using Dye-Doped Nematic
Liquid-Crystal Gels
Yi Hsin Lin, National Chiao Tung University, Hsinchu, Taiwan |
|
P.169:� |
5-in. Dual-Mode
Flexible LCDs
Kwan Sik Min, Hoseo University, Chungcheongnam-do, Korea |
|
P.170:� |
Color Writable
Cholesteric LCD and Its Operational Principle
Da-Wei Lee, DTC/ ITRI, Hsinchu, Taiwan |
|
P.171:� |
A Flexible
Touch-Sensitive Writing Tablet
Tod Schneider, Kent Displays, Inc., Kent, OH, USA |
|
P.172:� |
Power-Consumption
Reductive Driving Method for Electrophoretic Displays
Joo-Young Kim, Samsung Electronics Co., Ltd., Yongin, Korea |
|
Fast Switching
|
|
P.173:� |
Fast Switching of a
Liquid-Crystal Cell by Optically Hidden Relaxation
Jong-In Baek, Pusan National University, Busan, Korea |
|
P.174:� |
Stabilization of
High-Brightness Relaxed Bend State and Investigation of
Fast-Switching Symmetric H State in a Pi-Cell by Synchronized
Illumination Technique
Bo Ru Yang, National Chiao Tung University, Hsinchu, Taiwan |
|
P.175:� |
Carbon-Nanotube
Doped Liquid-Crystal OCB Cells: Dielectric and Electro-Optical
Properties
Shin Ying Lu, Kent State University, Kent, OH, USA |
|
P.255:� |
Late-News
Poster: Precise Measurement of LC Material Parameters
for Ultra-High-Resolution Full-HD OCB-Mode FSC-LCD
Tadashi Kishimoto, Research Institute for Advanced Liquid
Crystal Technology, Hachinohe, Japan |
|
P.256:� |
Late-News
Poster: Realization of Reliable Splay-to-Bend
Transition for OCB-Mode LCD Based on Analyzing Behavior of
Disclination
Ken Kuboki, Aomori Support Center for Industrial Promotion,
Hachinohe, Japan |
|
P.257:� |
Late-News
Poster: Dynamic Simulation of Pi-Cell LCDs with
Transverse Field
Philip Bos, Kent State University, Kent, OH, USA |
|
LCD Addressing
|
|
P.176:� |
New High-Performance Algorithm
for 2+2 Dynamic Drive Scheme for Cholesteric LCDs
Andriy Rybalochka, Institute of Semiconductor Physics, NASU,
Kyiv, Ukraine
|
|
P.177:�
|
Multi-Line
Addressing of LCDs with Simple Diagonal Matrices
Temkar Ruckmongathan, Raman Research Institute, Bangalore,
India |
|
P.178:�
|
Modified Discrete
Cosine Transform for Addressing LCDs
Temkar Ruckmongathan, Raman Research Institute, Bangalore,
India |
|
Liquid-Crystal Simulation |
|
P.179:�
|
Modeling and
Prototyping of Optically Compensated VA-LCD
Alexander Lazarev, Crysoptix KK, Tokyo, Japan |
|
P.180:�
|
Enhancement of
Predictability for Optical Properties of LC Simulator
Sung Hoon Yang, Samsung Electronics Co., Ltd., Kyunggi-do,
Korea |
|
Optical Components |
|
P.181:�
|
Axially Symmetric
Liquid-Crystal Polarization Converter
Tsung-Hsien Lin, National Sun Yat Sen University, Kaohsiung,
Taiwan |
|
P.182:�
|
Liquid-Crystal
Switch Array Based on Total Internal Reflection
Peizhi Xu, Hong Kong University of Science & Technology,
Kowloon, Hong Kong |
|
P.183:�
|
Refraction Control
in Optical Films for LCDs
Alexander Lazarev, Crysoptix KK, Tokyo, Japan |
|
P.184:�
|
Optical Compensation
for High Contrast Ratio in Reflective Horizontal-Switching LC Cell
Gi-Dong Lee, Dong-A University, Busan, Korea |
|
Transflective Displays |
|
P.185:�
|
Single-Cell-Gap
Single-Mode Transflective LCD with High Optical Efficiency
Li Tan, Hong Kong University of Science & Technology,
Kowloon, Hong Kong |
|
P.186:�
|
High-Quality
Patterned Retarder for Transflective LCDs
Hiroshi Hasebe, Dai Nippon Ink & Chemicals, Inc., Saitama,
Japan |
|
P.187:
|
Photoaligned
Transflective LCD Using Low-Twisted-Nematic and Electricity
Controlled Birefringence Modes
Hin-Yu Mak, The Hong Kong University of Science and Technology,
Kowloon, Hong Kong |
|
P.188:�
|
Optical
Configuration of Transflective LCD for Dynamic Memory Operating
Mode
Chul Gyu Jhun, Hoseo University, Chungcheongnam-do, Korea |
|
P.189:�
|
Fast-Response
Transflective Display Using a Tight-Pitch Ferroelectric Liquid
Crystal in a Single-Gap Configuration
Dong Woo Kim, Seoul National University, Asan, Korea |
|
P.190:�
|
Wide-Band
Transflective LCD with a Single Cell Gap in a Patterned Vertically
Aligned Mode
Jae Hoon Kim, Hanyang University, Seoul, Korea |
|
P.191:�
|
Reflective LCD Mode
of Twisted-Nematic Liquid Crystal Designed for Low-Voltage Driving
Jae Hoon Kim, Hanyang University, Seoul, Korea |
|
P.192:�
|
Advanced
Transflective Multi-Domain Vertical Aligned Liquid-Crystal Display
(ATR-MVA LCD) with Micro Bump Technology
Syuan Ling Yang, AU Optronics Corp., Hsinchu, Taiwan |
|
P.193:�
|
Single-Gap and
Single-Gamma Transflective Display Using Fringe-Field-Switching
Mode
Seung-Hee Lee, Chonbuk National University, Chonbuk-do, Korea |
|
P.258:�
|
Late-News
Poster: Analysis of Internal Reflectance in AFFS Plus
Technology
Jun-Baek Park, HYDIS, Ichon-si, Gyeonggi-do, Korea |
|
Wide Viewing Angle |
|
P.194:�
|
New Eight-Domain MVA
LCD with Reduced Color Shift
Ruibo Lu, University of Central Florida, Orlando, FL, USA |
|
P.195:�
|
Enhanced Outdoor
Readability in AFFS Plus Technology by Negative LC
Suk Choi, BOE Hydis, Kyunggi-do, Korea |
|
P.196:�
|
Vertically Aligned
Nematic LCD with Double-Sided In-Plane Switching Using Positive
Liquid-Crystal Materials
Hun Ki Shin, Pusan National University, Busan, Korea |
|
P.197:�
|
Improved Patterned
VA Mode for Fast Response Time by Using Strong Fringe-Field Effect
Gi-Dong Lee, Dong-A University, Busan, Korea |
|
P.198:�
|
Azimuthally
Continuous Nematic Domain Mode Using Electrode Structure with
Circular Slit
Jae Hoon Kim, Hanyang University, Seoul, Korea |
|
P.199:�
|
Achromatic Reduction
of Off-Axis Light Leakage in LCDs by Compensated-Phase-Retardation
Film
Young-Chol Yang, Kent State University, Kent, OH, USA |
|
P.200:�
|
Effect of the
Magnitude of Dielectric Anisotropy on the Light Efficiency of
Fringe-Field-Switching Nematic Liquid-Crystal Cell
Seung-Hee Lee, Chonbuk National University, Chonbuk-do, Korea |
|
P.201:�
|
Chiral Hybrid IPS LC
Mode for High Brightness and Contrast Ratio
Jae Hoon Kim, Hanyang University, Seoul, Korea |
|
P.202:�
|
High-Transmittance
LC Pixel Design for Multi-View 3-D Mobile Display
Wallen Mphepo, National Chiao Tung University, Hsinchu, Taiwan |
|
OLEDs |
|
P.203:�
|
The Improvement of
White OLED Performance
Kazuki Nishimura, Idemitsu Kosan Co., Chiba, Japan |
|
P.204:�
|
A Near-Infrared
Phosphorescent OLED for Day/Night Display
Jason Brooks, Universal Display Corp., Ewing, NJ, USA |
|
P.205:�
|
OLED Display
Sharpness with Diffuser
Ronald Cok, Eastman Kodak Co., Rochester, NY, USA |
|
P.206:�
|
Improved OLEDs with
Single Amibipolar Material for Hole-Transport and
Electron-Transport Layers
Mei-Fang Lin, Hong Kong Baptist University, Hong Kong, China |
|
P.207:
|
Novel Buffer
Materials with High Work Function for Efficient and Stable OLEDs
Dal Ho Huh, Cheil Industries, Ulwangi, Korea |
|
P.208:�
|
Flexible OLEDs with
Anodes Formed by Vapor-Phase Polymerization
Peter Levermore, Imperial College London, London, UK |
|
P.209:�
|
New
Green-Phosphorescent Host Materials
Woo Sik Jeon, Kyung Hee University, Seoul, Korea |
|
P.210:
|
Blue-to-Red
Phosphorescence from Iridium Complexes and Their Applications in
OLEDs
Xiaofan Ren, Eastman Kodak Co., Rochester, NY, USA |
|
P.211:�
|
High Quantum
Efficiency of New Deep-Blue EML Materials for OLEDs
Jong-Wook Park, Catholic University of Korea, Pucheon, Korea |
|
P.212:�
|
Architecture Design
for Efficient True-Blue Phosphorescent OLEDs
Chung-Chia Chen, National Taiwan University, Taipei, Taiwan |
|
P.213:�
|
Decomposable
Precursors as Electron-Injection Materials for High-Performance
OLED Devices
Lian Duan, Tsinghua University, Beijing, China |
|
P.214:
|
Ultra-Thin-Film
Encapsulation for AMOLED Displays
Younggu Lee, Samsung Advanced Institute of Technology, Yongin,
Korea |
|
P.215:�
|
Improved Carrier
Transport into Wide-Bandgap Host for Low-Voltage High-Efficiency
Blue PHOLEDs
Meng-Ting Lee, Industrial Technology Research Institute,
Hsinchu, Taiwan |
|
P.216:�
|
Synthesis of
Laterally Attached Side-Chain Liquid-Crystalline Poly(p-phenylene
vinylene) Derivatives for the Application of Polarized
Electroluminescence
Chih-Nan Lo, National Chiao Tung University, Hsinchu, Taiwan |
|
P.217:�
|
120% Luminance
Enhancement of OLED by Patterned Microlens Array
Jiun-Haw Lee, National Taiwan University, Taipei, Taiwan |
|
P.218:�
|
High-Efficiency
White OLEDs Using Hybrid Spacer
Ji Hoon Seo, Hongik University, Seoul, Korea |
|
P.219:�
|
Color Stability of
White-Light-Emitting Organic Electroluminescent Device Based on
Three Phosphorescent Emission Peaks
Tien-Shou Shieh, Industrial Technology Research Institute,
Hsinchu, Taiwan |
|
P.220:�
|
NPB-Based RGB
Single-Layer OLEDs
K. K. Tsung, Hong Kong Baptist University, Hong Kong, China |
|
P.221:�
|
Enhancement of
Electroluminescent Property of Inverted Top-Emitting OLEDs with
Transparent AgOx by O2 Plasma
Jong-Lam Lee, Pohang University of Science and Technology,
Kyunggi-do, Korea |
|
P.222:�
|
Solution-Processed
Red-Emission Oligofluorene Electrophosphorescent Diodes
Juo-Hao Li, UCLA, Los Angeles, CA, USA |
|
P.223:�
|
Enhanced Power
Efficiency of Single-Layer White Triplet Polymer LEDs by Blending
with Polymer Oxides
Yung-Shiuan Chen, Hsinchu, Taiwan |
|
P.224:�
|
Damage-Free Cathode
Coating Process for OLEDs
Shiva Prakash, DuPont Displays, Santa Barbara, CA, USA |
|
P.225:�
|
Suppressed
Efficiency Roll-Off in Phosphorescent OLEDs
Jun Yeob Lee, Dankook University, Yongin, Korea |
|
P.226:�
|
New Tris Bipyridyl
Derivative as Hole-Blocking and Electron-Transporting Materials
for OLED Devices
Musubu Ichikawa, Shinshu University, Nagano, Japan |
|
P.227:�
|
Efficient Electron
Injection in OLEDs Using Dipotassium Phthalate as a n-Type Dopant
Meng Huan Ho, National Chiao Tung University, Hsinchu, Taiwan |
|
P.228:�
|
Degradation of
White-Light-Emitting OLEDs
Woo Sung Jeon, Samsung Advanced Institute of Technology (SAIT),
Kyunggi-do, Korea |
|
P.229:�
|
MOVED TO 36.5 |
|
P.230:�
|
Novel
Chemical-Electrical Polished Stainless-Steel Anode OLED with Long
Lifetime at High Luminance for Flexible Lighting
Xiao-Ming Yu, Hong Kong University of Science and Technology,
Kowloon, Hong Kong |
|
P.231:�
|
Blade Coating for
Multilayer Polymer LEDs
Hsin-fei Meng, National Chiao Tung University, Hsinchu, Taiwan |
|
P.248:�
|
Late-News
Poster: High-Efficiency Deep-Blue OLED with a Novel
Blue Dye in Low-Polarity Host
Jwo-Huei Jou, National Tsing Hua University, Hsin-Chu, Taiwan |
|
P.249:�
|
Late-News
Poster: Collimated OLED Light Source with Patterned
OLED and Microlens
Sukekazu Aratani, Hitachi Research Lab, Hitachi-shi, Ibraraki-ken,
Japan |
|
Projection
|
|
P.232:�
|
FLC Cell for
Speckle-Noise Suppression
Igor Kompanets, Lebedev Physical Institute of RAS, Moscow,
Russia |
|
P.233:�
|
Multimode DBR Laser
Operation for Frequency-Doubled Green Lasers in Projection
Displays
Jacques Gollier, Corning Incorporated, Corning, NY, USA |
|
P.234:�
|
Polarization
Conversion Illumination System
Shuang Chao Chung, Industrial Technology Research Institute,
Hsinchu, Taiwan |
|
P.235:�
|
Polarization
Recovery System Using PBS Array Suitable for Light-Pipe-Based
Systems
Kenneth Li, Wavien, Inc., Valencia, CA, USA |
|
P.236:
|
LED Light Recycling
with Recycling Collars
George Ouyang, Wavien, Inc., Valencia, CA, USA |
|
P.237:
|
Measurement of the
Picture Contrast Enhancement of Gray Projection Screens
Michael Rudd, THK Ltd., San Rafael, CA, USA |
|
P.238:
|
Limits on a Bent
Waveguide for a Wedge Display
Danny Kong, University of Cambridge, Cambridge, UK |
|
P.250:�
|
Late-News
Poster: Low-Speckle Laser Projection with a Broad-Area
VCSEL in the Incoherent Emission Regime
Falko Riechert, Universit�t Karlsruhe (TH), Karlsruhe, Germany |
|
P.251:�
|
Late-News
Poster: Miniature Wide-Throw-Angle Scanning Fiber
Projection Display
Brian Schowengerdt, HIT Lab, University Of Washington, Seattle,
WA, USA |
| Session 60:
Electronic Paper III (Liquid-Crystal
Technology) |
|
Friday, May 23 / 9:00 -
10:00 am / Concourse Hall 151 |
|
Chair:
Allan R. Kmetz, Consultant
|
|
Co-Chair:
Martin Schadt, MS Hightech Consulting
|
|
60.1: |
Optical Rewritable
Electronic Paper with Fluorescent Dye-Doped Liquid Crystal
Alexander Muravsky, Hong Kong University of Science and
technology, Kowloon, Hong Kong |
|
60.2: |
Novel Optically
Addressable Photochiral Displays
Erica Montbach, Kent Displays, Inc., Kent, OH, USA |
|
60.3:� |
High-Resolution
Electronic-Paper Based on LED Print-Head Scanning Exposure
Masahiro Sato, Fuji Xerox Co., Ltd., Kanagawa, Japan |
|
60.4: |
Rollable Displays: A
Technology Development Enabling Breakthrough Mobile Devices
Edzer Huitema, Polymer Vision, Eindhoven, The Netherlands
|
| Session 61:
White OLEDs I (OLEDs) |
|
Friday, May 23 / 9:00 -
10:30 am / Concourse Hall 152 |
|
Chair:
Yasunori Kijima, Sony Corp.
|
|
Co-Chair:
Julie J. Brown, Universal Display Corp.
|
|
61.1:� |
Invited Paper:
High-Performance
OLEDs for Displays and General Lighting
Junji Kido, Yamagata University, Yamagata, Japan |
|
61.2: |
Fluorescent White
OLED Devices with Improved Light Extraction
Yuan-Sheng Tyan, Eastman Kodak Co., Rochester, NY, USA |
|
61.3: |
A 3.0-in. 308-ppi WVGA
AMOLED by Top-Emitting White OLED with Color Filter
Sang Yeol Kim, Samsung Advanced Institute of Technology, Suwon,
Korea |
|
61.4: |
WITHDRAWN
|
|
61.5:� |
Late-News
Paper: Extremely Long-Lived White Phosphorescent OLEDe
with Minimum Organic Materials
Brian D'Andrade, Universal Display Corporation, Ewing, NJ, USA
|
| Session 62:
Novel AMLCDs (Active-Matrix Devices) |
|
Friday, May 23 / 9:00 -
10:20 am / Petree Hall |
|
Chair:
Feng-Yuan Gan, AU Optronics Corp.
|
|
Co-Chair:
Nam Deog Kim, Samsung Electronics Co., Ltd.
|
|
62.1: |
Late-News
Paper: FPC-Free LCD Panel with Capacitive
Coupling for Transmission of Signal and Power�
Futoshi Furuta, Hitachi, Ltd., Tokyo, Japan |
|
62.2: |
AMLCD with Carbon-Nanotube
Pixel Electrodes
Axel Schindler, Universitaet Stuttgart, Stuttgart, Germany |
|
62.3:� |
A Non-Rectangular
Heart-Shaped SOG-LCD
Yoshihiro Nonaka, NEC Corp., Kanagawa, Japan |
|
62.4:� |
Development of
Zigzag TFT-Driven OCB for Field-Sequential-Color LCDs with High
Aperture Ratio
Chao-Hui Wu, HannStar Display Corp., Taoyuan, Taiwan
|
| Session 63:
New Projection Light Sources (Projection) |
|
Friday, May 23 / 9:00 -
10:30 am / Room 403A |
|
Chair:
Alan Sobel, Flatscreen Technologies Corp.
|
|
Co-Chair:
Matthew S. Brennesholtz, Insight Media
|
|
63.1:� |
Red Laser-Array
Light Source for Mobile Projection Displays
Michael Golub, Explay, Ltd., Herzliya, Israel |
|
63.2:� |
Efficient and
Compact Green Laser Incorporating Adaptive Optics for Wide
Operating Temperature Range
Vikram Bhatia, Corning Incorporated, Corning, NY, USA
|
|
63.3: |
GaN-Based 1-W
Continuous-Wave Blue-Laser Diodes
Takashi Miyoshi, Nichia Corp, Anan, Japan
|
|
63.4:� |
Invited
Paper: Development and Application Prospects of InGaN-Based
Optoelectronic Devices Prepared in Non-Polar Orientations
Hisashi Masui, University of California at Santa Barbara, Santa
Barbara, CA, USA
|
|
63.5:� |
Late-News
Paper: Planar-Waveguide Green Laser for Laser TV
Yoshihito Hirano, Mitsubishi Electric Corporation, Kamakura,
Kanagawa, Japan
|
| Session 64:
Local Dimming (Display Systems) |
|
Friday, May 23 / 9:00 -
10:20 am / Room 403B |
|
Chair:
Masaru Suzuki, Rohm and Haas Company
|
|
Co-Chair:
Myung Hwan Oh, Dankook University
|
|
64.1: |
High-Contrast Low-MPRT
OCB-LCD with Dynamic Backlight Control Technology
Shigesumi Araki, Toshiba Matsushita Display Technology Co.,
Ltd., Ishikawa, Japan |
|
64.2: |
Spatio-Temporal
Consistent Video Processing for Local Backlight Dimming
Remco Muijs, Philips Research Europe, Eindhoven, The
Netherlands |
|
64.3: |
Super-Gaussian Light
Spread Function for High-Dynamic-Range Displays
Yu Kuo Cheng, National Chiao Tung University, Hsinchu, Taiwan |
|
64.4:� |
Smart Algorithms for
Local-Dimming LED Backlight
Dong-Min Yeo, Samsung Electronics Co., Ltd., Chungcheongnam-do,
Korea
|
| Session 65:
Image and Video Processing (Display
Electronics) |
|
Friday, May 23 / 9:00 -
10:20 am / Room 408A |
|
Chair:
Nikhil Balram, Marvell Semiconductor
|
|
Co-Chair:
Michiel A. Klompenhouwer, Philips Research
Laboratories
|
|
65.1:� |
Invited
Paper: Image/Video Compression: A Display-Centric
Viewpoint
Vasudev Bhaskaran, Marvell Semiconductor, Inc., Sunnyvale, CA,
USA |
|
65.2: |
Video and
Picture-Quality Enhancement for Mobile Display Systems
Pierre De Greef, NXP Semiconductors, Eindhoven, The Netherlands |
|
65.3: |
Next Generation of
Frame-Rate-Conversion Algorithm
Quang Dam Le, AMD, Markham, Ontario, Canada |
|
65.4: |
Invited
Paper: Key Human Visual System Components as Applied to
Display Algorithms
Scott Daly, Sharp Labs of America, Camas, WA, USA
|
| Session 66:
Image Quality and Legibility (Applied Vision) |
|
Friday, May 23 / 9:00 - 10:20 am / Room
408B |
|
Chair:
Jeffrey B. Mulligan, NASA Ames Research Center
|
|
Co-Chair:
Yoshifumi Shimodaira, Shizuoka University
|
|
66.1: |
Ambient-Light
Control for Mobile Displays
Stefan Swinkels, Philips Research Laboratories, Eindhoven, The
Netherlands
|
|
66.2: |
An Approach for
Achieving Ideal Readability on Electronic-Paper Extraction of
Essential Disadvantages in Conventional Displays
Makoto Omodani, Tokai University, Kanagawa, Japan |
|
66.3: |
Visual Ergonomic
Effects of Screen Gloss on LCDs
Kjell Brunnstr�m, Acreo AB, Kista, Sweden |
|
66.4: |
Effects of Surface
Treatment and Reflectance on Legibility and Visual Fatigue in
Reflective-Type Displays
Yu-Ting Lin, National Tsing Hua University, Hsinchu, Taiwan
|
| Session 67:
Electronic Paper IV (Liquid-Crystal
Technology) |
|
Friday, May 23 / 10:40 am -
12:00 pm / Concourse Hall 151 |
|
Chair:
Xiao-Yang Huang, Ebulent Technologies Corp.
|
|
Co-Chair:
Asad Kahn, Kent Displays, Inc.
|
|
67.1: |
Active-Matrix
Electronic Paper with Silver Electrodepositon
Noriyuki Kokeguchi, Konica Minolta Technology Center, Inc.,
Tokyo, Japan |
|
67.2: |
Permanent Bistable
Twisted-Nematic Displays Using Bi-Directional Alignment Surface
Yuet-Wing Li, Hong Kong University of Science & Technology,
Kowloon, Hong Kong |
|
67.3: |
Electrophoretically
Controlled Nematic LCD: Plastic Bistable Technology with Memorized
Intrinsic Gray Scale
David Sikharulidze, Hewlett-Packard Laboratories, Bristol, UK |
|
67.4: |
Defect Loops in the
Zenithal Bistable Display
Sally Day, University College London, London, UK
|
| Session 68:
White OLEDs II (OLEDs) |
|
Friday, May 23 / 10:40 am -
12:00 pm / Concourse Hall 152 |
|
Chair:
Chin (Fred) H. Chen, National Chiao Tung
University
|
|
Co-Chair:
Reiji Hattori, Kyushu University
|
|
68.1:� |
Invited
Paper: Energy Transfer in Organic Phosphorescent
Guest-Host Systems
Shizuo Tokito, NHK, Tokyo, Japan |
|
68.2: |
Achieving
Wide-Color-Gamut with Microcavity-on-White OLED
Changwoong Chu, Samsung Electronics Co., Ltd., Kyunggi-do,
Korea |
|
68.3:� |
High-Efficient
All-Fluorescence White OLED with Double ETL and Its Analysis
Mu Gyeom Kim, SAIT, Yongin, Korea
|
|
68.4:� |
Microcavity Design
of RGBW AMOLED for 100% Color Gamut
Baek-Woon Lee, Samsung Electronics Co., Ltd., Kyunggi-do, Korea
|
| Session 69:
Novel TFTs (Active-Matrix Devices) |
|
Friday, May 23 / 10:40 am -
12:00 pm / Petree Hall |
|
Chair:
Willem Den Boer, ScanVue Technologies LLC
|
|
Co-Chair:
John Zhong, Apple, Inc.
|
|
69.1: |
Invited
Paper: Time-Multiplexed
Optical-Shutter (TMOS) Technology: Advantages and Advances
Dan Van Ostrand, Uni-Pixel Displays, The Woodlands, TX, USA
|
|
69.2:� |
New R2PAT Printing
Method for TFT Electrode Fabrication Process
Masanobu Tanaka, Sony Corp., Kanagawa, Japan |
|
69.3:� |
Transflective IPS-LCD
with Improved Reflective Contrast Ratio
Kenichi Mori, NEC LCD Technologies, Kanagawa, Japan |
|
69.4:�
|
Invited
Paper: SELAX Technology for Poly-Si TFTs Integrated
with Si TFTs
Takuo Kaitoh, Hitachi Displays, Ltd., Mobara, Japan
|
| Session
70: Emerging Portable Projection
Systems (Projection) |
|
Friday, May 23 / 10:40 am -
12:10 pm / Petree Hall |
|
Chair:
Edward English, Jr., 3M Precision Optics,
Inc.
|
|
Co-Chair:
Ming Hsien Wu, Hamamatsu Corp.
|
|
70.1: |
LED-Illuminated
Pico-Projector Architectures
Mark Handschy, Displaytech, Inc., Longmont, CO, USA |
|
70.2:� |
Invited Paper:
Holographic Laser Projection Technology
Edward Buckley, Light Blue Optics, Ltd., Colorado Springs, CO,
USA |
|
70.3:� |
Novel Single-Panel
Projection Systems
Yong-Jing Wang, Display Photonics, Inc., Valencia, CA, USA |
|
70.4:�
|
Invited
Paper: Light-Engine Design and Manufacturing
Development in Projection System
Roger Chen, Young Optics, Hsinchu, Taiwan
|
|
70.5:�
|
Late-News
Paper: A Mobile Projection Engine with a Multi-layer
Reflective Polarizer Based PBS
Todd Rutherford, 3M Precision Optics, Cincinnati, OH, USA
|
| Session
71: Field Sequential Color (Display
Systems / Display Electronics) |
|
Friday, May 23 / 10:40 am -
12:20 pm / Room 403B |
|
Chair:
Paul T. Breen, Jr., Applied Display
Technology
|
|
Co-Chair:
Achin Bhowmik, Intel Corp.
|
|
71.1: |
Invited
Paper: Field-Sequential-Color LCD TV Using Multi-Area
Control Algorithm
Wen-Chih Tai, Chunghwa Picture Tubes Ltd., Taoyuan, Taiwan |
|
71.2:� |
Gray-Level
Redistribution in Field-Sequential-Color LCD Technique for
Color-Breakup Reduction
Chun-Ho Chen, National Chiao Tung University, Hsinchu, Taiwan |
|
71.3:� |
Field-Sequential-Color
Notebook Using LED Scanning-Backlight System
Chin-Young Lin, Chunghwa Picutre Tubes, Ltd., Taoyuan, Taiwan |
|
71.4:�
|
High-Efficiency and
/ or Low-Cost LED Backlight System for Color-Sequential Technique
in Color- Filterless LCD System
Ke-Horng Chen, National Chiao Tung University, Hsinchu, Taiwan |
|
71.5
|
Stencil FSC Method
for Color-Break-Up Suppression and Low Power Consumption in
Field-Sequential LCDs
Fang Cheng Lin, National Chiao Tung University, Hsinchu, Taiwan
|
| Session
72: Color Processing and Gamma
Control (Display Electronics) |
|
Friday, May 23 / 10:40 am -
12:00 pm / Room 408A |
|
Chair:
Michiel A. Klompenhouwer, Philips Research
Laboratories
|
|
Co-Chair:
Nikhil Balram, Marvell Semiconductor
|
|
72.1: |
Invited
Paper: PenTile RGBW Color Processing
Candice Brown Elliott, Clairvoyante, Inc., Sebastopol, CA, USA |
|
72.2:� |
Invited
Paper: Color Processing for Wide Color Gamut and
Multi-Primary Displays
Moshe Chorin, Genoa Color Technologies, Herzelia, Israel |
|
72.3:� |
Free-Color-Wash-Out
Solution with Advanced Gamma-Control Technology
Chao-Yuan Chen, AU Optronics Corp., Hsinchu, Taiwan |
|
72.4:�
|
Novel LCD Driver ICs
with Built-In Programmable RGB Independent Gamma Control
Takashi Nose, NEC Electronics Corp., Kanagawa, Japan
|
| Session
73: Medical Displays (Applied Vision) |
|
Friday, May 23 / 10:40 am -
12:10 pm / Room 408B |
|
Chair:
Aldo Badano, CDRH / FDA
|
|
Co-Chair:
Eli Peli, Schepens Eye Research Institute,
Harvard Medical School
|
|
73.1: |
Invited
Paper: Modeling the Effect of Image Noise on Perceptual
Decisions
Craig Abbey, University of California at Santa Barbara, Santa
Barbara, CA, USA |
|
73.2:� |
A New Methodology for
Clinical and Perceived Quality of Medical Displays
Cedric Marchessoux, BARCO Medical Imaging Systems, Kortrijk,
Belgium |
|
73.3:� |
Psycho-Visual
Evaluation of CT Image Denoising Algorithms
Ewout Vansteenkiste, Ghent University, Ghent, Belgium |
|
73.4:
|
Investigation of
Crosstalk Characteristics in a Two-View 3-D Display
Yan Tu, Southeast University, Nanjing, China
|
|
73.5:
|
Late-News
Paper: Model Observer Strategies for Assessment of
Temporal Response
Aldo Badano, CDRH/FDA, Silver Spring, MD, USA
|
