Nokia Senior Manager, Scott Probasco, is roaming the floor of the hangar at the Imperial War Museum, Duxford, with a Nokia N9 attached to a small box. He passes a Concorde, turns right at a World War One bi-plane and pauses underneath a sea rescue helicopter suspended from the ceiling. Strategically placed signs give detailed information about and the stories behind the historic planes on display at the former airbase outside Cambridge, but Probasco doesn’t need to look at them. Using the N9 he is demonstrating a three year Nokia research project to develop indoor information delivery using TV white spaces. TV white spaces are unused parts of the TV spectrum at a particular location. So, for example, part of the signal reserved for a London TV channel may not work in Cambridge – resulting in a ‘white space’ which can potentially be used for providing better and cheaper internet access.
Nokia is demonstrating how indoor information delivery might use this as part of the Cambridge TV White Spaces Trial, which has brought together a consortium of 17 leading technology and media companies. “We are interested in TV white spaces from the perspective of getting more radio spectrum to give greater internet access capacity,” Probasco explains. “It’s a new and novel way to access the spectrum. The existing ways are inefficient. Because white spaces are unlicensed we can deploy systems and provide internet access more cheaply.”
White spaces can be used to launch new services, like the Nokia demo at the Imperial War Museum: “You know when you go to a museum and you put the headset on, and listen to the information about what you’re seeing,” Probasco says, “Well, this basically does away with that.” As he roams the floor of the hangar, the N9 detects his location and pushes him “offers” of information about the different planes. The Imperial War Museum, like any other major museum, has vast archives, and multi-media content, which could never be displayed on old-fashioned signs and maps. An indoor information delivery system, which museums could potentially develop as apps, “would be great for displaying that content,” says Ian Crawford, the museum’s head of ICT.
Nokia Senior Manager, Scott Probasco |
The demo also raises the possibility of developing the system for commercial use in locations like grocery stores, or shopping malls. “Shop owners might install their own access point to give people free Wi-Fi,” says Probasco. “If they do that using white spaces, the users can be located and, as people walk by, the store can target them with offers and coupons. If this is a coupled with a loyalty program, then it can become even more tailored and targeted to what people want.”
According to their official blog, the system has some unique advantages: “GPS works really well outdoors, but less well indoors. What we are doing here is about indoor positioning,” Probasco explains. Unlike information that comes from crowd sourcing, or ‘war driving’, the system uses information automatically generated from a government mandated database that is activated when the equipment in turned on.
Probasco used a box that was attached by a cable to the N9. The box is a simple radio system operating in UHF TV bands that connects to a TV white space database to determine which TV channels are available for use. The Nokia N9 connects to the Internet over the TV white space and the app contacts the Nokia service on the Internet. Using the location provided by the TV white space database, the Nokia servers then deliver information about nearby aircraft carriers to the app in the phone. The phone uses signal strength measurements to refine the location provided by the TV white space database, which is accurate to about 10 metres.
Source:- Tech2
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