• Title/Summary/Keyword: High definition television

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WENO methodology for UHD TV Image Quality Improvement (WENO 방법을 이용한 UHD TV 화질 개선)

  • Yi, Dokkyun;Park, Jieun
    • Journal of Digital Convergence
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    • v.16 no.4
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    • pp.149-155
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    • 2018
  • It has passed the era of Full High Definition Television (FHD) and ended the era of Ultra High Definition Television (UHD). We will talk about the problems caused by the difference in the number of pixels in the TVs and introduce a method to improve them. This method is a method of performing an interpolation method suitable for a given image with Weighted Essential Non-Oscillation (WENO). Thus, it is possible to reduce the distortion of the image and to ensure a better image quality. Therefore, if we use the WENO methodology, when we watch old video material on UHD TV, we can enjoy high definition of UHD TV without changing the number of pixels.

Evaluation of Human Factors for the Next-Generation Displays: A Review of Subjective and Objective Measurement Methods

  • Mun, Sungchul;Park, Min-Chul
    • Journal of the Ergonomics Society of Korea
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    • v.32 no.2
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    • pp.207-215
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    • 2013
  • Objective: This study aimed to investigate important human factors that should be considered when developing ultra-high definition TVs by reviewing measurement methods and main characteristics of ultra-high definition displays. Background: Although much attention has been paid to high-definition displays, there have been few studies for systematically evaluating human factors. Method: In order to determine human factors to be considered in developing human-friendly displays, we reviewed subjective and objective measurement methods to figure out the current limitations and establish a guideline for developing human-centered ultra-high definition TVs. In doing so, pros and cons of both subjective and objective measurement methods for assessing humans factors were discussed and specific aspects of ultra-high definition displays were also investigated in the literature. Results: Hazardous effects such as visually-induced motion sickness, visual fatigue, and mental fatigue in the brain caused by undesirable TV viewing are induced by not only temporal decay of visual function but also cognitive load in processing sophisticated external information. There has been a growing evidence that individual differences in visual and cognitive ability to process external information can make contrary responses after exposing to the same viewing situation. A wide vision, ultra-high definition TVs provide, can has positive and negative influences on viewers depending on their individual characteristics. Conclusion: Integrated measurement methods capable of considering individual differences in human visual system are required to clearly determine potential effects of super-high vision displays with a wide view on humans. All of brainwaves, autonomic responses, eye functions, and psychological responses should be simultaneously examined and correlated. Application: The results obtained in this review are expected to be a guideline for determining optimized viewing factors of ultra-high definition displays and accelerating successful penetration of the next-generation displays into our daily life.

Development of 45-inch High Quality LC-TV

  • Yoshida, Yasuhiro;Furukawa, Hiroyuki;Ueno, Masafumi;Ikuta, Eiji;Daly, Scott;Feng, Xiaofan;Sezan, Ibrahim;Kikuchi, Yuji;Fujine, Toshiyuki;Sugino, Michiyuki
    • 한국정보디스플레이학회:학술대회논문집
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    • 2004.08a
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    • pp.30-33
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    • 2004
  • Sharp has developed industry's largest high-definition LC TV, Aquos LC-45GDI. In this paper, we discuss its 10-bit signal processing as one important enabler of its excellent picture quality. Utilizing 10 bits signal processing, in combination with full-spec High-Definition panel and "Intelligent Environment Illumination Sensor", we have succeeded to realize a beautiful gigantic LC TV.

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'Super Hi-Vision'-an ultra-high definition television-and its human factors

  • Sugawara, M.;Masaoka, K.;Emoto, M.;Nojiri, Y.;Okano, F.
    • 한국정보디스플레이학회:학술대회논문집
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    • 2006.08a
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    • pp.81-85
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    • 2006
  • The ultra-high definition TV system nicknamed "Super Hi-Vision" is a television system with 4000-scanning-line video and 22.2 multichannel sound. NHK has been developing it with the aim of creating a broadcasting system conveying a strong sensation of presence. We believe that it is important to design the system by taking into account human factors such as human visual system characteristics. This paper describes the psychological and physiological experiments on the visual effects of "Super Hi-Vision".

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HDTV의 현황과 전망

  • 이충웅
    • 전기의세계
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    • v.39 no.1
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    • pp.10-17
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    • 1990
  • HDTV는 High Definition Television의 약어로서 아주 섬세한 영상을 대화면에 비추고 원음에 가까운 음질을 즐길수 있도록 개발된 차세대의 텔레비전을 의미한다. HDTV를 우리말로는 고선명TV 또는 고정세도TV라고 한다. 원래 HDTV라는 용어는 약4반세기전에 세계에서 먼저 HDTV개발을 시작한 일본에서 생긴 말이다. 최근에 일본에서 HDTV를 Hivision이라고 한다. 미국에서는 ATV(advanced television), 유럽에서는 HD-MAC(high definion multiplexed analog component television)이라고 한다.

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Real-Time HD Watermarking System in DTV environment

  • Hahm Sangjin;Lee Keunsik;Park Keunsoo
    • Journal of Broadcast Engineering
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    • v.10 no.2
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    • pp.131-138
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    • 2005
  • High-quality digital broadcasting contents are susceptible to illegal copy and unauthorized redistribution, which makes broadcasters difficult to protect valuable media assets. So, broadcasters and content providers need the technology for copyright protection of professional digital content. Digital watermarking technology is one of the most actively developed solutions for the copyright protection. This paper suggests the requirements of watermarking technology in DTV(Digital TV) environment for copyright protection and shows the developed real-time watermark embedding/detecting system for HD(High Definition)/SD(Standard Definition) video and experimental results of the system against watermark attack tests. Our watermarking system meets the watermarking requirements of invisibility, robustness and security of DTV environment.

Design and Implementation of Multimedia Functional Module for Digital TV (디지털 TV용 멀티미디어 부가기능 모듈의 설계 및 구현)

  • 김익환;최재승;임영철;남재열;하영호
    • Journal of the Institute of Electronics Engineers of Korea SP
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    • v.41 no.6
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    • pp.231-237
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    • 2004
  • Current paper introduces the multimedia functional module and related interface development for digital TV. The module is developed for displaying the image captured by digital still camera, camcorder, or PC in the digital TV. For these purposes, the module has the interface circuit for accessing five media type of memory cards. It decodes JPEG, BMP, or TIFF image date saved in the memory card and converts the image data to analog RGB signal. It also supports three types of output image size from HD(High Definition) to WXGA(Wide Extended Graphics Array) resolution. So the introduced module could be adopted in all kinds of digital TV set.

A study of next generation OpenCable systems for Ultra-High Definition television broadcasting (초 고화질 텔레비전 방송을 위한 차세대 오픈 케이블 방식에 대한 연구)

  • Cho, Chang-Yeon;Heo, Jun;Kim, Joon-Tae
    • Journal of Broadcast Engineering
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    • v.14 no.2
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    • pp.228-237
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    • 2009
  • This paper examines the potential of Ultra-High Definition TV (UD-TV) broadcasting transmission systems beyond HD-TV over cable channel. Firstly, we analyze the trend of TOV(Threshold of Visibility) by extending the OpenCable (J.83 Annex B) system 256QAM which is the standard of Korean and American cable television transmission to 1024QAM, and realize that the OpenCable 1024QAM has nearly 30% higher data rate than 256QAM at the expense of impractically higher TOV (Threshold of Visibility). To achieve practical TOV, we control code rates of inner convolutional coder and replace turbo coder in forward error correction (FEC) part, thereby analyzing the best performance of the OpenCable systems having conventional FEC. In that result, it is necessary to modify conventional FEC of the OpenCable system to achieve under 31.5dB TOV. Moreover we study the potential of UD-TV transmission via two or more TV channels, so called channel bonding, through the Shannon capacity in 6MHz channel and the relationship with next generation A/V codec technologies.