Skip to search form
Skip to main content
Skip to account menu
Semantic Scholar
Semantic Scholar's Logo
Search 227,741,301 papers from all fields of science
Search
Sign In
Create Free Account
Multiple sub-Nyquist sampling encoding
Known as:
1035i
, Hi-Vision
, Multiple sub-nyquist sampling Encoding system
MUSE (Multiple sub-Nyquist sampling encoding), was a dot-interlaced digital video compression system that used analog modulation for transmission to…
Expand
Wikipedia
(opens in a new tab)
Create Alert
Alert
Related topics
Related topics
19 relations
Analog high-definition television system
B-MAC
Cathode ray tube
Chroma subsampling
Expand
Papers overview
Semantic Scholar uses AI to extract papers important to this topic.
2013
2013
High-Performance Video Codec for Super Hi-Vision
Y. Shishikui
,
Kazuhisa Iguchi
,
S. Sakaida
,
Kimihiko Kazui
,
Akira Nakagawa
Proceedings of the IEEE
2013
Corpus ID: 36908225
To help pave the way for Super Hi-Vision (SHV) broadcasting, we have developed a new codec system that can encode and decode SHV…
Expand
2011
2011
Integral imaging system with 33 mega-pixel imaging devices using the pixel-offset method
J. Arai
,
M. Kawakita
,
+7 authors
M. Sato
Optical Systems Design
2011
Corpus ID: 109490439
Integral 3D television based on integral imaging requires huge amounts of information. Earlier, we built an Integral 3D…
Expand
2010
2010
3D television system based on Integral Photography
T. Mishina
Picture Coding Symposium
2010
Corpus ID: 309386
Integral Photography (IP) is a photographic technique in which a lens array consisting of a large number of tiny lenses is used…
Expand
2007
2007
Invited Paper: Super Hi‐Vision projection display for next‐generation TV
M. Kanazawa
,
Yuichi Kusakabe
,
Y. Nojiri
,
Y. Haino
,
M. Sato
,
K. Doi
2007
Corpus ID: 62648814
Abstract— For future broadcasting, NHK is studying new video services offering very‐high‐picture quality achieved through Super…
Expand
2006
2006
Image Quality Management for the Super Hi-Vision System at the Kyushu National Museum
Kenichiro Masaoka
,
M. Kawakita
,
M. Sugawara
,
M. Kanazawa
,
K. Ohzeki
,
Y. Nojiri
IEICE Transactions on Fundamentals of Electronics…
2006
Corpus ID: 21316241
We have introduced an extremely high resolution video system 'Super Hi-Vision' at the Kyushu National Museum. This feature opened…
Expand
2005
2005
Beyond HDTV : why 8 k x 4 k ?
M. Sugawara
2005
Corpus ID: 157060153
This article briefly describes the current status of R&D on the “Super Hi-Vision” television system in Japan. The R&D efforts on…
Expand
1994
1994
High Density Video Disc for HDTV Baseband Signal
Y. Morita
,
H. Watanabe
,
M. Yamada
,
K. Asano
,
T. Hioki
IEEE International Conference on Consumer…
1994
Corpus ID: 35359542
We examined a long-play video disc for Hi-Vision baseband video. The Hi-Vision video signal is divided into two TCl signals and…
Expand
1993
1993
Hi-Vision and Wide Aspect TV Receiver. 1. Hi-Vision TV. 1-1. Direct View Hi-Vision TV.
Hisafumi Yamada
1993
Corpus ID: 61282297
1993
1993
High density write-once optical disk for high definition television
Kurebayashi Masaaki
,
N. Tokushuku
,
Miyamoto Makoto
,
Y. Noro
,
T. Koizumi
1993
Corpus ID: 62569714
The authors have developed a high density write-once optical disk using the reflection plane shift recording method. A high…
Expand
1988
1988
Resolution dependence of saticon for hi-vision on signal storage time.
M. Kurashige
,
N. Egami
1988
Corpus ID: 61402675
By clicking accept or continuing to use the site, you agree to the terms outlined in our
Privacy Policy
(opens in a new tab)
,
Terms of Service
(opens in a new tab)
, and
Dataset License
(opens in a new tab)
ACCEPT & CONTINUE