[FoRK] first decent LED lamp in legacy bulb form factor
sdw at lig.net
Mon Dec 27 11:58:58 PST 2010
On 12/22/10 10:03 PM, Stephen Williams wrote:
> On 12/22/10 6:44 PM, John Parsons wrote:
>> I can find no mention of their dimmibility (sp?). That's a deal breaker in many instances.
> There's no excuse for not building in Bluetooth and/or Zigbe dimmability into that kind of unit, at least at that pricepoint. For
> that matter, they could be omni (everything in the room) data transfer units on the same channel, visible or IR, coded into the
> duty cycle.
Ceiling lights send coded Internet data
By Chris Williams
Posted: 12/27/2010 08:17:20 AM PST
ST. CLOUD, Minn. -- Flickering ceiling lights are usually a nuisance, but in city offices in St. Cloud, they will actually be a
pathway to the Internet.
The lights will transmit data to specially equipped computers on desks below by flickering faster than the eye can see. Ultimately,
the technique could ease wireless congestion by opening up new expressways for short-range communications.
The first few light fixtures built by LVX System, a local startup, will be installed Wednesday in six municipal buildings in this
city of 66,000 in the snowy farm fields of central Minnesota.
The LVX system puts clusters of its light-emitting diodes, or LEDs, in a standard-sized light fixture. The LEDs transmit coded
messages -- as a series of 1s and 0s in computer speak -- to special modems attached to computers.
A light on the modem talks back to the fixture overhead, where there is sensor to receive the return signal and transmit the data
over the Internet. Those computers on the desks aren't connected to the Internet, except through these light signals, much as Wi-Fi
allows people to connect wirelessly.
LVX takes its name from the Latin word for light, but the underlying concept is older than Rome; the ancient Greeks signaled each
other over long distances using flashes of sunlight off mirrors and polished shields. The Navy uses a Morse-coded version with lamps.
The first generation of the LVX system will transmit data at speeds
of about 3 megabits per second, roughly as fast as a residential DSL line.
Mohsen Kavehrad, a Penn State electrical engineering professor who has been working with optical network technology for about 10
years, said the approach could be a vital complement to the existing wireless system.
He said the radio spectrum usually used for short-range transmissions, such as Wi-Fi, is getting increasingly crowded, which can
lead to slower connections.
"Light can be the way out of this mess," said Kavehrad, who is not involved in the LVX project.
But there are significant hurdles. For one, smartphones and computers already work on Wi-Fi networks that are much faster than the
Technology analyst Craig Mathias of the Farpoint Group said the problems with wireless congestion will ease as Wi-Fi evolves,
leaving LVX's light system to niche applications such as indoor advertising displays and energy management.
LVX Chief Executive Officer John Pederson said a second-generation system that will roll out in about a year will permit speeds on
par with commercial Wi-Fi networks. It will also permit lights that can be programmed to change intensity and color.
For the city, the data networking capability is secondary. The main reason it paid a $10,000 installation fee for LVX is to save
money on electricity down the line, thanks to the energy-efficient LEDs. Pederson said one of his LED fixtures uses about 36 watts
of power to provide the same illumination that 100 watts provides with a standard fluorescent fixture.
Besides installation costs, customers such as St. Cloud will pay LVX a monthly fee that's less than their current lighting expenses.
LVX plans to make money because the LED fixtures are more durable and efficient than standard lighting. At least initially, the data
transmission system is essentially a bonus for customers.
Pederson said the next generation of the system should get even more efficient as fixtures become "smart" so the lights would dim
when bright sunlight is coming through a window or when a conference room or hallway is empty.
Because the lights can also change color, Pederson said they could be combined with personal locators or tiny video cameras to help
guide people through large buildings. The lights could show a trail of green lights to an emergency exit, for instance.
While Kavehrad and Mathias credited LVX for being the first company in the United States to bring the technology to market, Kavehrad
said it trails researchers and consumer electronics companies in Japan and Korea in developing products for visible-light networks.
Pederson's previous company, 911 EP, built high-powered LED roof lights for squad cars and other emergency vehicles. He said he sold
the company in 2002. He said the visible-light network grew out his interest in LEDs that goes to the mid-1990s.
The Minneapolis-St. Paul International Airport, which pays for 24-hour lighting and replacing fluorescent bulbs on high ceilings, is
considering an LVX system, said Jeffrey W. Hamiel, executive director of the Metropolitan Airports Commission.
The system might include mounting cameras on the light fixtures to bolster the airport security system, but the real attraction is
the savings on electricity and maintenance.
"Anything we can do to save costs is worth consideration," he said.
Michael Williams, the city administrator in St. Cloud, said the city had been considering LVX for some time.
"It's pretty wild stuff," he said. "They have been talking about it with us for couple of years, and frankly it took a while for it
to sink in."
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