blog

Quote Cart

View your shopping cart.

Newsletters of Sustainable Lighting

Wireless data from every light bulb

LED wifi

LED luminaires can replace Wi-Fi – by transmitting data at high frequency. The first commercial installation of a visible light communication network has been completed in the US – and researchers reckon it’s the next big thing. Mark Faithfull reports. In the far corners of the world, research teams are pushing forward an emerging area of technology known as Visible Light Communications (VLC), which uses the rapid flickering of advanced LEDs to encode data.

The work was pioneered in Japan by the Visible Light Communications Consortium (VLCC). On the back of its research – which could change the way information is sent and received – the US has invested £11.5 million to help develop VLC, and the Chinese government has injected investment funds of its own. In Europe, Oxford and Edinburgh universities are involved in research, as are firms such as Siemens.

In the Vanguard

Japan and Korea have led the way so far. For example, Nakagawa Laboratories has been pioneering the technology since 2003, working with educational bodies. One of those partners, Shinichiro Haruyama at the department of information and computer science at Keio University in Japan says: ‘Because LED lighting is used in so many places, achieving this would make it [lighting systems] a ubiquitous network.’

The advantage of VLC over conventional wireless networks is that it does not interfere with radio- frequency electronics, making it suitable for use in hospitals, sensitive data environments and aircraft. It is also relatively environmentally friendly because it is based on adapting existing infrastructure, both reducing costs and allowing for future network expansion.

The main catalyst behind VLC has been the rapid development of the lighting industry’s shining star, LED technology. Uniquely, the LED responds quickly to ‘on’ and ‘off’ signals. By flickering an LED light on and off in specific patterns at speeds imperceptible to the human eye, data can be transmitted and received.

Basic LEDs should be able to send data at rates as high as 40Mb per second, RGB LEDs up to 100Mb per second and resonant-cavity LEDs (fitted with reflectors for spectral clarity) at even faster rates. Last year, using a white LED from Siemens subsidiary Osram, researchers from Corporate Technology in Munich succeeded in transmitting data across a distance of five metres. The researchers used an Ostar LED, modulated at a frequency that that made data transfer rates of up to 500Mb per second possible.

The researchers were also able to show that a system combining up to five LEDs is capable of transferring data over longer distances at rates as high as 100Mb per second.

A sense of place

Niigata University in Japan is also looking at developing the technology as a positioning system, collecting data from luminaires. Liu Xiaohan, who is part of the development team, believes it could be used in applications such as guiding visually impaired people in buildings. ‘If we use LED and image sensors as the receiver, we can reach an accuracy of less than five centimetres,’ he says. ‘It is far more accurate than other location technologies, but the biggest problem is cost. Adapting existing light fixtures for VLC functionality will be a huge task.’

Although development has been spearheaded in the East, the first commercial installation has been completed in the US at six municipal offices in St Cloud, Minnesota – including City Hall, the police department, the fire station, a wastewater treatment facility, the civic centre and the public works central maintenance building. The system, from Minnesota start-up LVX System, uses LED luminaires to connect office computers to the internet. Patented modems receive the light signals and transfer their own light back to the ceiling luminaires.

They can only transmit data at about 3Mb per second, but LVX chief executive officer John Pederson says a second-generation system that will roll out in about a year will achieve speeds on a par with commercial Wi-Fi networks.

Ironically for the city, the data networking capability is secondary to the energy-saving characteristics of the installed LED system and, at least initially, the data transmission system is just a bonus.

Follow the trail

Because the LEDs can also change colour, Pederson says they could be combined with personal locators or tiny video cameras to guide people through large buildings, showing a trail of green LEDs to an emergency exit, for example.

While far more work will need to be done on VLC to make it commercially viable, the data speeds achieved in the Siemens experiments suggests that high-speed networks based on LED installations could be a ground-breaking way to transmit data. All eyes will be on the project at St Cloud because it will provide the first real evidence of whether such a light-based network is robust enough to be used in other applications.

http://www.ted.com/talks/harald_haas_wireless_data_from_every_light_bulb.html
http://www.luxmagazine.co.uk/2011/06/luminaires-the-new-wi-fi

wireless transmission

its really a fudu type of oroject if u want to prepare it then come to me

Wireless data from every light bulb | Technilux Lighting

I have been examinating out many of your posts and it's pretty nice stuff. I will definitely bookmark your site.

Wireless data from every light bulb | Technilux Lighting

You really make it seem so easy with your presentation but I find this matter to be really something which I think I would never understand. It seems too complicated and very broad for me.

I'm looking forward for your next post, I will try to get the hang of it!

Wireless data from every light bulb | Technilux Lighting

Hi, all the time i used to check weblog posts here early in the dawn, for the reason that i like to learn more and more.

Wireless data from every light bulb | Technilux Lighting

The other day, while I was at work, my sister stole my iPad and tested to see if it can survive a 25 foot drop, just so she can be a youtube sensation. My apple ipad is now broken and she has 83 views. I know this is entirely off topic but I had to share it with someone!

Post new comment

The content of this field is kept private and will not be shown publicly.
  • Web page addresses and e-mail addresses turn into links automatically.
  • Lines and paragraphs break automatically.
  • Allowed HTML tags: <strong> <em> <p>

More information about formatting options

By submitting this form, you accept the Mollom privacy policy.
Technilux Lighting
  • Address Unit 18, 41-49 Norcal Road,
  • Nunawading, Victoria, Australia
  • ABN 69 065 653 885
  • Telephone +61 03-9872-7688
  • Fax +61 03-9874-8299
Technilux Lighting Partners Technilux Lighting Partners Technilux Lighting Partners Technilux Lighting Partners Technilux Lighting Partners Technilux Lighting Partners