Super Hi-Vision (ultrahigh-definition wide-screen system in 4000 Scanning Lines) is a new standard in video viewing.
NHK Science & Technical Research Laboratories has created a new piece of engineering genius in the 8K Television System "Super Hi-Vision". This latest imaging technology to our already in Japan and tried to screen coverage of the 2012 Olympics on big screens in city centers throughout the United Britaniji.BBC plans to use the technology, called Super Hi-Vision, just four years from now in 2012, but it was developed in Japan in 2005.
Does this incredible new definition shows us that the man-machine interface with even higher resolutions are possible, and soon? As a true 3D without glasses, and more 4D and the Blu-ray, Violet Ray and Ultra-Violet Ray?
NHK creating a new image using a video format with 7680 x 4320 pixels (16 times higher than standard Hi-Vision, NHK HDTV system). 4000 scan lines provide exceptionally clear, realistic three-dimensional images that can be achieved only by ultrahigh-definition technology.
search lines are not visible even when relatively close to the screen. The wider viewing angle gives a greater sense of reality.
3-D audio system with 24 speakers dramatically increase the presence of mercury.
Worldwide electronics consumers are buying the latest high definition TV and Blu-ray player to go with them, but with this latest high-definition Japanese TV broadcasters and the BBC have finalized the system 33 times more detailed than the best sets currently on sale.
By 2015, NHK hopes to begin test broadcasts of its Super Hi-Vision system, a full-time public broadcasting is scheduled for the 2025th
Nobuyuki hiruma, associate director of NHK's laboratories in Tokyo, says that "Super Hi-Vision TV access to the realism of human vision." I fact it is based on research in human vision.
Super Hi-Vision exists only at the NHK Broadcasting Center in Tokyo, where it is projected at 10 meter (yard) by 5.5 meter (yard) screen, with sound from 22 speakers capable of multilayer Umnožavazvuk concert halls. 24 discrete channel speakers are the real technical goals.
Just 20 minutes of ultrahigh-definition footage can be recorded on time and must be changed frame by frame. Making back-up engineers takes all night, a week after they have just enough material for one hour of Super Hi-Vision TV.
is sitting just three meters (yards) from the 450-inch screen, the audience says: "Sometimes we suffer disease," says Masaru Kanazawa, research engineer on the project SHV.
Although such large screens would not fit in most living rooms, Kanazawa thinks he might soon anyway.
Hiroyuki Ōhira, GM Pioneer's plasma development center in Yamanashi, is responsible for the same team that was in the 1990s, invented the first high-definition plasma screens. "We are trying to develop a Super Hi-Vision panel to make its plans NHK broadcasting," he said.
BBC and NHK often collaborate on program production, the recent David Attenborough-narrated documentary Planet Earth which was filmed in high definition, and produced a number of new techniques.
in November 2007 NHK strapped to their high-definition television camera on the Japan Aerospace Exploration Agency lunar probe on the film "Earth rise" to the moon in the ultrahigh-resolution detail.
to overcome the problem of how to transmit huge amounts of data continues to be used by NHK Dirac video compression technology for Super Hi-Vision test, this is the BBC's technology.
using a large external screen with the help participate, the EU funded project promoting public interaction with new technology, BBC engineers are involved in the Super Hi-Vision event. "Super Hi-Vision feeds nicely into that and it's definitely a long-term ambition," said Andy Bower, Acting Controller BBC Research and Innovation Center.
As data storage to overcome a three-dimensional holographic images enable more information are stored in a much smaller space, preventing information overflow. This technology comes from Michael E. Thomas owner of Colossal Storage Corporation Fremont California.
is also called Volume Holographic Optical Storage Nanotechnology Volume (3 D) Holographic optical drive technology, intends to push future storage densities of optical mass storage over 40,000 Terabits / cu.cm. For comparison with the magnetic hard disks of today who have been around for 60 gigabytes can understand that Mr. Thomas optical discs with at 45 gigabytes / sq. u. and contact recording AFM, STM, SPM or SFM, ie atomic force microscope and their derivatives, at about 300 gigabits / sq.in means the capacity far beyond what is currently available methods provide.
Blu-ray player in future be able to use the tiny 3.5 "drives are based on 3 D Volume Holographic Mass Storage using the Einstein / Planck Theory of Energy Quantum Electrons to control the molecular properties of the atom the electron movement / displacement.
using a UV / blue laser diode voltage probe for writing a new definition of the concept of the photon / laser induced electric field poling and UV / blue laser diodes and transistors or Nanooptical Nanofloating gate MOSFET reading.
To be created for this device are Perovskaias the ferroelectric dipole dielectrics giving properties can write, delete, and save states in nanocrystal sjećanja.Poluvodički integrated optical read / write manager will reproduce the data.
Once the nearly infinite storage persistence fast read / write control of ferroelectric molecules will allow for increased areal density and data transfer rates of data between the random mass-storage device system requirements and it will increase the weight to the storage bandwidth.
For the new Blu-Ray ultra-violet ray player tomorrow, the transmission speed of extraordinary size will be necessary to send movies over the Internet.
Super Hi-Vision live relay over IP
at 31 December 2006 first in the world happened when Super Hi-Vision feed 57th Kohaku Uta Gassen (NHK's annual "Red & White Song Battle", which is the most watched TV event of the year in Japan), was carried over long distances via IP networks in Tokyo and the place shown on a giant 450-inch screen Osaki study. There are members of the public to enjoy ultra-realistic picture and sound reproduction equivalent to VIP seats at the actual live event.
Using codec developed by NHK for efficient transmission and broadcast of Super Hi-Vision signal encoder compresses the video signal from approximately 24Gbps to 180-600Mbps and audio from 28Mbps to 28Mbps .Smanjena 7-speed signal transmission and allows for shooting even the case of long duration as Kohaku Uta Gassen.
live view of the 2005 World Exposition, Aichi, Japan (EXPO 2005 Aichi) was held in March-September 2005 issue of "The Wisdom of Nature". On the stand, NHK, Super Hi-Vision images are displayed on the 600-inch screen. With about 8,000 visitors a day, for six months some 1.56 million people have seen these pictures and enjoy the crystal clear ultrahigh definition wide-screen system on the big screen.
For the first time in the history of live relay optical transmission Super Hi-Vision has succeeded in the 2nd November 2007.Prijenos was the Kamogawa in Chiba Prefecture and the NHK Science and Technical Research Laboratories. Kamogawa is famous Kamogawa Sea World aquarium, and about 260 km from NHK Labs.
long optical transmission of uncompressed video and audio signals using DWDM (Dense Wavelength Division Multiplexing) technology is a revolutionary moment.
and so is Blu-ray player in the future could be in the ultra-violet or may occur only as a download from the new super-pipe Internet IV in his right mind.
Stand back, the future is already old.
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