A New Web 2.0 Definition – It’s Not a Technology Or Platform

Yep my ears are burning from all the people exclaiming I’m nuts – but the truth is the Web 2.0 definition is not a technology or a platform (new or otherwise).

There’s a lot of talk about how Web 2.0 as a new technology. Hogwash. It’s not. Oh yea, the Web hasn’t changed platforms either.

OK, Now that I have just discounted all the erroneous speculation about web 2.0, I’m going to explain what I believe and think, and why what’s said is not correct. (No offense guys)

The World Wide Web (www) has always been a network of computers. The way it was set up hasn’t changed much since the ARPNET days. As it was then, so it is now, the Internet is a network of computers. This hasn’t changed, there’s no new paradigm of how the Internet works.

The creation of TCP/IP, the creation and advances in html, the creation of a browser, the ability to send information over network lines, all of this is old stuff.

The Web is still based on all of these foundations. The technology used to perform tasks has changed but when people say Web 2.0 is a new web platform – or new Internet platform – sorry, it’s just not true. It’s not even a platform.

Many of the platforms and technologies existed long before 2.0 were ever coined. Surprised? Don’t be. So what exactly is web 2.0? What is the best web 2.0 definition?

Good question, and now the answer. It’s a process. That’s it – that’s the answer. It’s a process that uses the technologies and platforms of the past in a new and exciting way.

Yet people keep saying it’s new. Take blogging; its a web 2.0 technology or platform that was actually developed in 1994. It’s an old technology that has grown into and now is part of the communication network called Web 2.0.

The term web 2.0 wasn’t even created until a media firm used it in 2004.
Now the term is all the rage.

OK my point… It’s a process.

Pre web 2.0 the way people got information, connected and communicated was through static web pages, forums and email. The web was static.

That was Web 1.0 (which is another recent term but it works so I’m using it) Web 2.0 enters. And things change.

But it’s not technologies or platforms or the World Wide Web that changed. It’s how information, and those looking for it, communicate and interact that has changed.

Communication is a process.

So for me, a web 2.0 definition encompasses existing technologies and used them in ways that weren’t used before. It’s changed the way (the process) in which people communicate.

Web 2.0 is a communication process. It is interaction. It is fast interactions that move in both directions. The communication now moves from me to you, you to me, and both of us out to the world. How we do this – through blogging, video, instant messages, podcasts, vlogs, tweets and more, is what a web 2.0 definition must encompasses. These are the processes we use to interact.

To me, a good Web 2.0 definition is the instantaneous and dual direction of communication, which the world uses to interact. If you would like more information on the social process and how you might benefit from them to change your life join my newsletter.

BLU-RAY and the Ultrahigh-Definition TV of 2012

Super Hi-vision (Ultrahigh-Definition Wide-Screen System with 4000 Scanning Lines) is the new standard in video viewing.

NHK Science & Technical Research Laboratories has created a new piece of engineering genius in its 8K Television System “Super Hi-vision”. This newest imaging technology upon us already in Japan and destined to give screen coverage of the 2012 Olympics on big screens in city centers across Britain. The BBC plans to use the technology, named Super Hi-Vision, just 4 years from now in 2012 but it was developed in Japan in 2005.

Does this incredible new resolution show us that man-machine interfaces with even higher resolutions are possible, and soon? What of true 3D with no glasses, 4D and better and what of BLU-RAY, Violet Ray and Ultra-Violet Ray?

NHK’s new image creation uses a video format with 7680 x 4320 pixels (16 times higher than standard Hi-vision, NHK’s HDTV system). 4000 scanning lines deliver ultra-clear, realistic three-dimensional images that can be achieved only by ultrahigh-definition technology.

Scanning lines are not visible even when relatively close to the screen. And a wider viewing angle provides a stronger sense of a reality.

The 3-D audio system has 24 speakers dramatically enhancing live presence.
Around the world electronics consumers have been buying the newest high definition TVs and BLU-RAY players to go with them but with this newest high-definition TV Japanese broadcasters and the BBC have finalized a system 33 times more detailed than the best sets currently for sale.

By 2015 NHK hopes to begin test broadcasts of its Super Hi-Vision system, with full-time public broadcasts scheduled for 2025.

Nobuyuki Hiruma, associate director at NHK’s laboratories in Tokyo, says that “Super Hi-Vision TV approaches the realism of human vision.” I fact it was based on research into human vision.

Super Hi-Vision exists only at NHK’s Broadcasting Center in Tokyo, where it is projected on to a 10 meter (yard) by 5.5 meter (yard) screen, with sound coming from 22 multi-layered speakers capable of replicating the sound of a concert hall. 24 discrete channel speakers are the actual technical goal.

Only 20 minutes of Ultrahigh-Definition can be recorded at a time and it must be edited frame by frame. Making a back-up takes engineers an whole night, and after a week they have only enough material for one hour of Super Hi-Vision TV.

Sitting just three meters (yards) from a 450-inch screen, viewers says “sometimes we suffer motion sickness,” says Masaru Kanazawa, research engineer on the SHV project.
While such a huge screens would not fit into most living rooms, Kanazawa thinks they soon might anyway.

Hiroyuki Ohira, GM of Pioneer’s plasma development center in Yamanashi, is in charge of the same team that, in the 1990s, invented the first high-definition plasma screens. “We are trying to develop a Super Hi-Vision panel to help NHK realize its broadcast plans,” he said.

The BBC and NHK often collaborate on program production, most recently on the David Attenborough-narrated documentary Planet Earth which was filmed in high definition and produced a number of new techniques.

November of 2007 NHK strapped its high definition television cameras to a Japan Aerospace Exploration Agency lunar probe to film an “Earth rise” over the moon in Ultrahigh-Definition detail.

To overcome the problem of how to transmit huge amounts of data remains NHK is uses Dirac video compression technology for its Super Hi-Vision testing, this is a BBC technology.

Using large outdoor screens and with the aid of Participate, an EU-funded project promoting public interaction with new technology, BBC engineers are involved in Super Hi-Vision events. “Super Hi-Vision feeds nicely into that and it’s definitely a long-term ambition,” said Andy Bower, interim controller of the BBC Research and Innovation Centre.

As you how to overcome data storage three dimensional holographic images enable more information to be stored in a much smaller space, preventing information overflow. This technology comes from Michael E. Thomas owner of Colossal Storage Corporation of Fremont California.

Also called Volume Holographic Optical Storage Nanotechnology the Volume (3 D) Holographic Optical Drive technology plans to push future storage densities of optical mass storage over 40,000 Terabits/cu.cm. To compare with magnetic hard drives of today which are around at 60 gigabits one can understand that Mr. Thomas’ optically assisted drives at 45 gigabits/sq. in. and contact recording AFM, STM, SPM or SFM, i.e. atomic force microscope and their derivatives, at about 300 gigabits/sq.in mean a storage capacity far beyond what current available methods provide.

A BLU-RAY player of the future might use tiny 3.5″ discs based on 3 D Volume Holographic Mass Data Storage using the Einstein/Planck Theory of Energy Quantum Electrons to control molecular properties by an atom’s electron movement/displacement.

Using Ultraviolet/Blue laser diodes with Voltage transducer to write, new definitions of term include photon/laser induced electrical field poling and UV/Blue laser diode and Nanooptical transistors or Nanofloating gates Mos Fet to read.

To be created for this device are ferroelectric perovskite’s dipole dielectrics giving properties allowing write, erase and storage states in nanocrystal memories. A Semiconductor Integrated Optical Read / Write Head will play back the data.

Having an almost infinite storage persistence of data fast read/write control of ferroelectric molecules will allow increasing areal densities and data transfer rates of data between the random mass storage device to system requirements and this will increase mass storage bandwidth needs.

For the new BLU-RAY ULTRA-VIOLET RAY players of tomorrow a transmission speed of extraordinary magnitude will be needed to send movies over the internet.

Super Hi-Vision live relay over IP

On December 31, 2006 a global first happened when a Super Hi-Vision feed of the 57th Kohaku Uta Gassen (NHK’s annual “Red & White Song Battle” which is the most-watched TV event of the year in Japan) was relayed long-distance over an IP network from the Tokyo venue and displayed on a giant 450-inch screen in an Osaka studio. There, members of the public enjoyed ultra-realistic picture and sound reproduction equivalent to a VIP seat at the actual live event.

Using a codec developed by NHK for efficient transmission and broadcast of Super Hi-Vision signals the encoder compresses the video signal from approximately 24Gbps down to 180-600Mbps and the audio from 28Mbps to 7-28Mbps. The reduced bit rate makes it possible to transmit the signal and to record even an event of long duration like Kohaku Uta Gassen.

A live viewing at the 2005 World Exposition, Aichi, Japan (Expo 2005 Aichi) was held from March to September 2005 on the theme “Wisdom of Nature”. At NHK booth, Super Hi-vision images were displayed on a 600-inch screen. With about 8,000 visitors each day, for six months some 1,560,000 people have seen these images and enjoyed crystal-clear ultrahigh-definition wide-screen system on the big screen.

For the first time in history a live-relay optical transmission of Super Hi-Vision succeeded in 2 November, 2007. The transmission was between Kamogawa of Chiba prefecture and NHK Science & Technical Research Laboratories. Kamogawa is famous for Kamogawa Sea World aquarium and about 260 km away from NHK Labs.

The long-haul optical transmission of uncompressed video and audio signals by using DWDM (Dense Wavelength Division Multiplexing) technique was a groundbreaking moment.

And so your BLU-RAY player of the future might be in Ultra-Violet or it could come strictly as a download from a new Super-Pipe Internet IV right into your mind.

Stand back, the Future is already Old.

Is LED TV Technology Better For Your High Definition Viewing Pleasure?

Of course these sleek new LED TVs look outstanding and perform way better than their predecessors but are we to believe they really are “better?” We also have to consider the marketplace as it is standard business practices nowadays to roll out technology in planned increments to increase sales, you don’t want to be stuck with something obsolete do you?

Truth is there are plans for even newer and better technological advances for the future. There is already been huge speculation of a 3D HD TV to come out when ‘Avatar’ is released on Blu-ray, now that is the plan so far. If your still gazing into an old tube style TV and are procrastinating patiently waiting for the newest high definition TV to come out that you can keep for years to come than the wait is really over.

The new LED TV is what should have been when these slim widescreen TVs came out in the first place, but that is where that planned roll out came into play. Already there is technology beyond 1080p, however there is nothing that can match it, yet. Cable and satellite feeds only produce 720p and 1080i respectively so the only true HD comes from Blu-ray. These LED TVs gives you the deep darkness of a plasma TV and the brightness of the LCD TV so it truly is the best out there today. That being said they draw 40% less energy and emit no heat, can’t say that about a plasma TV. The older LCD TV just couldn’t produce those dark colors and looked washed out if you tried to crank up the brightness too much.

The LED light has been around for many years, you recently had a string of them in all different colors on your Christmas tree recently, those lights that don’t give off heat are used in the same manner. For the LED TV each pixel has it’s own LED light while some companies use the out edge to shoot the LED light’s brightness across the entire screen with those particular units being the thinnest out of the bunch.

Let’s take a look at what an LED TV can do and why it is considered the best.

They are more cost efficient in terms of energy usage and emit less heat thanks to OLED (organic light emitting diode) LED technology. Lighter in weight and thinner in appearance so you will worry less about it falling off the wall if you live in an earthquake zone. A jaw dropping contrast ration of 2 million to one (2,000,000 to 1) which lets you see everything in high definition which looks better than real life so it will leave you in awe.

The only drawbacks are that you do see everything, and I mean everything as to a point of utter distraction. I was watching a recent movie on Blu-ray and could see the actors makeup so vividly it took my focus away from the film. The actors face was caked on with an orange-like makeup while his arms and neck area that did not have stage makeup on were ghostly white. Also it took this dramatic film and made it look like a soap opera, now let me expand on that. A soap opera you see on TV is shot on tape, not film so that is why it looks like your home movies on a high grade camcorder as the motion appears to be faster and the lighting is more true, film softens and enhances for a more dramatic effect. That is the drawback of such high definition, it loses the soft film quality we have come accustomed to as a society. The 11 o’clock newscasters look frightening as well even in 1080i through my cable feed because the makeup department has not caught up yet to the technology yet I suppose, the local nightly news is shot on tape as well.

So if your on the fence about buying one of the newest LED TV rest assured you are in fact going to get the highest definition in every sense if that is what your after, to each their own. The only technology that can top this is 3D, but now that will take a while to mature as the entertainment industry still needs to catch up to it.