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Li-Fi to replace Wi-Fi in China ?

Unless the lifi works without turning on the light in every room it does not seem to be an invention in the right direction. An invention nonetheless. I would not want an illuminated room just to use internet. Could work in office settings but the real question remains why would anyone switch from GB connection routers to MB connections? Router tech has surpassed connection speeds long ago. We need higher internet speeds.
 
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Unless this problem is solved, Li-fi is not going anywhere

Also, for speed concern, the latest 802.11ac gave 1.3Gbps vs Li-Fi's 150Mbps

Li-Fi need to solve these 2 problem before implementation

this can be used in conjunction with wifi. or in area where wifi signal is too weak to reach. There is also a health concern with wireless wifi signals with small children that is being studied.
 
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this can be used in conjunction with wifi. or in area where wifi signal is too weak to reach. There is also a health concern with wireless wifi signals with small children that is being studied.

Correct.

when researchers are saying wifi and electro-magnetric spectrums could be linked to cancer, Li-fi offers a healthier solution


Whether you’re using wireless internet in a coffee shop, stealing it from the guy next door, or competing for bandwidth at a conference, you’ve probably gotten frustrated at the slow speeds you face when more than one device is tapped into the network. As more and more people—and their many devices—access wireless internet, clogged airwaves are going to make it increasingly difficult to latch onto a reliable signal.

But radio waves are just one part of the spectrum
that can carry our data. What if we could use other waves to surf the internet?

One German physicist, Harald Haas, has come up with a solution he calls “data through illumination”—taking the fiber out of fiber optics by sending data through an LED lightbulb that varies in intensity faster than the human eye can follow. It’s the same idea behind infrared remote controls, but far more powerful.

Haas says his invention, which he calls D-Light, can produce data rates faster than 10 megabits per second, which is speedier than your average broadband connection. He envisions a future where data for laptops, smartphones, and tablets is transmitted through the light in a room. And security would be a snap—if you can’t see the light, you can’t access the data.

You can imagine all kinds of uses for this technology, from public internet access through street lamps to auto-piloted cars that communicate through their headlights. And more data coming through the visible spectrum could help alleviate concerns that the electromagnetic waves that come with WiFi could adversely affect your health. Talk about the bright side.

Forget WiFi, It's LiFi: Internet Through Lightbulbs | Business on GOOD
And a lot faster in the future:

As it turns out there is a Li-Fi consortium, a nonprofit group that wants to promote “optical wireless technology.” The consortium promises to deliver “ever-faster wireless connectivity,” for devices around the home and office. In the future it could be up to 8,000 times what we consider “high speed.”

Li-Fi is Wi-Fi with lights | Cool International
 
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This is going to revolutionize every thing built around radio frequencies.
Yes very right. Though limitation exist, but that is what you call evolutionary process. Each new invention had some impediment. This unit has the advantage of taking birth in modern times, shorter incubation expected.
 
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The Chinese had been boasting many inventions, none of their inventions yet commercialized. Remember about the super computer which they ran headlines how it is far more power than any other super computers? Now, nowhere it is mentioned again.

Back to the Li Fi, same thing to be said, the Chinese extremist will raise this invention like some greatest human invention, that is future human despite its flaw

China has filed a lot of patents during the past decade and these patents are commercialized inventions
We are not different from any other countries with intensive R and D investments, some are aiming at foundamental researches to reveal scientific mysteries, others are more mature and have developed or aim to develop into commercial applications like TD-LTE technology, thorium reactors, quantum communications, "invisible cloak" technology, Flu vaccines, stem cells researches, the lightest material ..etc


In respect of the application of our supercomputers and its components, read this thread which sheds lights on your doubt! We are not an advertising agency nor the supercomputer makers a multi-media / electrical appliance org which keep promoting its products

http://www.defence.pk/forums/technology-science/258727-china-tianhe-2-became-no-1-supercomputer-june-2013-top-500-list-3.html
 
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The technology is cool, but I guess the main hindrance is that, light waves cannot pass through opaque objects.......and unfortunately, they travel in straight lines....
 
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As far as Patent is concerned, I guess it is not with China...

Haas and his team at the UK's University of Edinburgh, are the brains behind a new patented technology that uses beams of flickering light to transmit digital information wirelessly, a process known as Visible Light Communication (VLC or "Li-Fi" as it has been nicknamed).



London (CNN) -- The light bulb figuratively suspended above a human head has long been symbolic of the eureka moment that every inventor craves.

But for German physicist Herald Haas, it's the bulb itself that provides the inspiration for his bright idea.

Haas and his team at the UK's University of Edinburgh, are the brains behind a new patented technology that uses beams of flickering light to transmit digital information wirelessly, a process known as Visible Light Communication (VLC).

"My big idea is to turn light bulbs into broadband communication devices ... so that they not only provide illumination, but an essential utility," he says.

Haas claims that data can be sent by adding a microchip to any humble LED bulb, making it blink on and off at a phenomenal speed, millions of times per second.




"My big idea is to turn light bulbs into broadband communication devices ... so that they not only provide illumination, but an essential utility
Harald Haas, University of Edinburgh

It's this capability that allows LEDs to transmit data in a rapid stream of binary code that, although invisible to the naked eye, can then be detected by a light-sensitive receiver.

Read more: 'Teach young to be innovative'

"It's a bit like sending a Morse code signal with a torch, but at a much faster rate and using the alphabet that computers understand," explains Haas.

The implication is that wherever you have a light bulb -- and there are an estimated 14 billion of them worldwide -- you have the potential for a wireless Internet connection. In practice, it means that any street lamp could double up as a web hotspot.

But VLC, or "Li-Fi" as it has been nicknamed, does more than just increase Internet accessibility.

The dominant technology used for wireless data transfer, Wi-Fi, is transmitted through radio wave signals. However, radio waves represent only a small fraction of the electromagnetic spectrum and so, as demand for wireless connectivity grows, the supply of available bandwidth diminishes.

The problem is epitomized by the frustrating experience of sitting in an Internet coffee shop, helplessly watching on as more and more people connect their device to the network, causing your browser speed to wither to a snail's pace.

The same is true for 3G mobile networks, which rely on an increasingly congested system of around 1.4 million cellular radio masts worldwide.






Watch this video

Li-Fi could be the future of the web
Meanwhile, the number of bytes we transmit through mobile devices is doubling every year, according to a report from networking equipment giant Cisco Systems.

However, Haas claims his technology should be a big part of the solution.

Test your knowledge of accidental inventions

"The visible light spectrum is 10,000 times larger than the radio frequency spectrum," he explains.

Less congestion means greater bandwidth and Haas says transmission rates using "Li-Fi" could be as high as one gigabit a second -- meaning that downloads of high-definition films could take less time than sending a text.

For Haas, the beauty of his technology is that -- unlike radio wave signals that are generated from large energy-intensive cell masts -- VLC requires almost no new infrastructure.




"If the light signal is blocked, or when you need to use your device to send information -- you can seamlessly switch back over to radio waves
Harald Haas, University of Edinburgh

"We use what is already there," he says. "The visible light spectrum is unused, it's not regulated, and we can communicate at very high speeds."

But the technology has its limitations.

Thomas Kamalakis, a lecturer at the Department of Informatics and Telematics at the Harokopio University of Athens, commends Haas on his work but warns against overstating its potential just yet.

Watch Make Create Innovate on Quest Means Business

"Of course one problem is that light can't pass through objects, so if the receiver is inadvertently blocked in any way, then the signal will immediately cut out," Kamalakis says.

Mark Leeson, associate professor at Warwick University's School of Engineering also foresees challenges.

"The question is how will my mobile phone communicate back with the light source?" Leeson asks.

Both are valid issues, Haas says, but he has a simple workaround.

"If the light signal is blocked, or when you need to use your device to send information -- you can seamlessly switch back over to radio waves."

VLC is not in competition with WiFi, he says, it is a complimentary technology that should eventually help free up much needed space within the radio wave spectrum.

"We still need Wi-Fi, we still need radio frequency cellular systems. You can't have a light bulb that provides data to a high-speed moving object or to provide data in a remote area where there are trees and walls and obstacles behind," he says.

Although the widespread use of "Li-Fi" is still some way off, it could have some useful, small scale, applications in the short term.

For instance, Haas says it could transform air travel by allowing overhead cabin lights to connect mobiles and laptops in-flight; it could also improve conditions for those working underwater -- such as people on oil rigs -- where radio waves cannot penetrate; LED car lights could even alert drivers when other vehicles are too close.

Haas also turns one of the technology's perceived weaknesses -- the inability of light to penetrate through objects -- into a strength.

"LiFi offers a far more secure form of data transfer because it can only be intercepted by those within a line of sight of the light source," he explains.

"It's a very simple electromagnetic spectrum we can see, and if that is an engine that also provides some of the fundamental needs of modern societies [like] high-speed data communication, wouldn't that be brilliant?"

'Li-Fi' provides a light bulb moment for wireless web - CNN.com
 
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As far as Patent is concerned, I guess it is not with China...

Haas and his team at the UK's University of Edinburgh, are the brains behind a new patented technology that uses beams of flickering light to transmit digital information wirelessly, a process known as Visible Light Communication (VLC or "Li-Fi" as it has been nicknamed).



London (CNN) -- The light bulb figuratively suspended above a human head has long been symbolic of the eureka moment that every inventor craves.

But for German physicist Herald Haas, it's the bulb itself that provides the inspiration for his bright idea.

Haas and his team at the UK's University of Edinburgh, are the brains behind a new patented technology that uses beams of flickering light to transmit digital information wirelessly, a process known as Visible Light Communication (VLC).

"My big idea is to turn light bulbs into broadband communication devices ... so that they not only provide illumination, but an essential utility," he says.

Haas claims that data can be sent by adding a microchip to any humble LED bulb, making it blink on and off at a phenomenal speed, millions of times per second.




"My big idea is to turn light bulbs into broadband communication devices ... so that they not only provide illumination, but an essential utility
Harald Haas, University of Edinburgh

It's this capability that allows LEDs to transmit data in a rapid stream of binary code that, although invisible to the naked eye, can then be detected by a light-sensitive receiver.

Read more: 'Teach young to be innovative'

"It's a bit like sending a Morse code signal with a torch, but at a much faster rate and using the alphabet that computers understand," explains Haas.

The implication is that wherever you have a light bulb -- and there are an estimated 14 billion of them worldwide -- you have the potential for a wireless Internet connection. In practice, it means that any street lamp could double up as a web hotspot.

But VLC, or "Li-Fi" as it has been nicknamed, does more than just increase Internet accessibility.

The dominant technology used for wireless data transfer, Wi-Fi, is transmitted through radio wave signals. However, radio waves represent only a small fraction of the electromagnetic spectrum and so, as demand for wireless connectivity grows, the supply of available bandwidth diminishes.

The problem is epitomized by the frustrating experience of sitting in an Internet coffee shop, helplessly watching on as more and more people connect their device to the network, causing your browser speed to wither to a snail's pace.

The same is true for 3G mobile networks, which rely on an increasingly congested system of around 1.4 million cellular radio masts worldwide.






Watch this video

Li-Fi could be the future of the web
Meanwhile, the number of bytes we transmit through mobile devices is doubling every year, according to a report from networking equipment giant Cisco Systems.

However, Haas claims his technology should be a big part of the solution.

Test your knowledge of accidental inventions

"The visible light spectrum is 10,000 times larger than the radio frequency spectrum," he explains.

Less congestion means greater bandwidth and Haas says transmission rates using "Li-Fi" could be as high as one gigabit a second -- meaning that downloads of high-definition films could take less time than sending a text.

For Haas, the beauty of his technology is that -- unlike radio wave signals that are generated from large energy-intensive cell masts -- VLC requires almost no new infrastructure.




"If the light signal is blocked, or when you need to use your device to send information -- you can seamlessly switch back over to radio waves
Harald Haas, University of Edinburgh

"We use what is already there," he says. "The visible light spectrum is unused, it's not regulated, and we can communicate at very high speeds."

But the technology has its limitations.

Thomas Kamalakis, a lecturer at the Department of Informatics and Telematics at the Harokopio University of Athens, commends Haas on his work but warns against overstating its potential just yet.

Watch Make Create Innovate on Quest Means Business

"Of course one problem is that light can't pass through objects, so if the receiver is inadvertently blocked in any way, then the signal will immediately cut out," Kamalakis says.

Mark Leeson, associate professor at Warwick University's School of Engineering also foresees challenges.

"The question is how will my mobile phone communicate back with the light source?" Leeson asks.

Both are valid issues, Haas says, but he has a simple workaround.

"If the light signal is blocked, or when you need to use your device to send information -- you can seamlessly switch back over to radio waves."

VLC is not in competition with WiFi, he says, it is a complimentary technology that should eventually help free up much needed space within the radio wave spectrum.

"We still need Wi-Fi, we still need radio frequency cellular systems. You can't have a light bulb that provides data to a high-speed moving object or to provide data in a remote area where there are trees and walls and obstacles behind," he says.

Although the widespread use of "Li-Fi" is still some way off, it could have some useful, small scale, applications in the short term.

For instance, Haas says it could transform air travel by allowing overhead cabin lights to connect mobiles and laptops in-flight; it could also improve conditions for those working underwater -- such as people on oil rigs -- where radio waves cannot penetrate; LED car lights could even alert drivers when other vehicles are too close.

Haas also turns one of the technology's perceived weaknesses -- the inability of light to penetrate through objects -- into a strength.

"LiFi offers a far more secure form of data transfer because it can only be intercepted by those within a line of sight of the light source," he explains.

"It's a very simple electromagnetic spectrum we can see, and if that is an engine that also provides some of the fundamental needs of modern societies [like] high-speed data communication, wouldn't that be brilliant?"

'Li-Fi' provides a light bulb moment for wireless web - CNN.com

I dont see China is claiming patents on the technology but we are also one of the teams that has mastered it at this stage and also in further development

Every scientific researches progress in stages and move forward when they can iron out the problems like this fantastic discovery below. But in the lab its function is a just minute fraction of the computer that we are using. Nonetheless its has a major impact on how our computers will be made tomorrow

Scientists build the first carbon nanotube computer, change computing world forever | ExtremeTech
 
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That supercomputer you mentioned we're using intel CPUs

It was also using domestic CPUs too. Next supercomputer will use all domestic CPUs. That's the goal. That way we can export our supercomputers to any country we want (Pakistan, Iran, Venezuela, etc). It will be good to export our supercomputers build with 100% domestic components to a country like Iran that can help them acquiring nuclear weapons and other weapons technologies.
 
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It was also using domestic CPUs too. Next supercomputer will use all domestic CPUs. That's the goal. That way we can export our supercomputers to any country we want (Pakistan, Iran, Venezuela, etc). It will be good to export our supercomputers build with 100% domestic components to a country like Iran that can help them acquiring nuclear weapons and other weapons technologies.

Correct!

We are progressing on well with domestic CPUs:

China Develops KD-90 Supercomputer using Domestic Processors

China building a 100-petaflop supercomputer using domestic processors
 
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this can be used in conjunction with wifi. or in area where wifi signal is too weak to reach. There is also a health concern with wireless wifi signals with small children that is being studied.

umm......

You do know Radio wave have stronger signal than Visual Light, hence visual light cannot bent and radio wave can punch thru opaque....

It was also using domestic CPUs too. Next supercomputer will use all domestic CPUs. That's the goal. That way we can export our supercomputers to any country we want (Pakistan, Iran, Venezuela, etc). It will be good to export our supercomputers build with 100% domestic components to a country like Iran that can help them acquiring nuclear weapons and other weapons technologies.

No, there wasn't a single Chinese Domestic CPU on TianHe-2

Otherwise it will not be competible with the Ivy Bridge the Server is actually using.This is the same you cannot use an AMD processor in an Intel Server.....
 
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C406X0369H_2013%E8%B3%87%E6%96%99%E7%85%A7%E7%89%87_N71_copy1.JPG
 
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