A series of trials in the UK as part of the ofcom TV white spaces pilot

Holland, Oliver D; Sastry, Nishanth; Ping, Shuyu; Chawdhry, Pravir; Chareau, Jean-Marc; Bishop, James; Bavaro, Michele; Anguili, Emanuele; Knopp, Raymond; Kaltenberger, Florian; Nussbaum, Dominique; Gao, Yue; Hallio, Juhani; Jakobsson, Mikko; Auranen, Jani; Ekman, Reijo; Paavola, Jarkko; Kivinen, Arto; Dionisio, Rogerio; Marques, Paulo; Tran, Ha-Nguyen, Ha-Nguyen; Ishizu, Kentaro; Harada, Hiroshi; Kokkinen, Heikki; Luukkonen, Olli
CCS 2014, 1st IEEE International Workshop on Cognitive Cellular Systems, 2-4 September 2014, Rhine River, Germany

TV White Spaces technology is a means of allowing wireless devices to opportunistically use locally-available TV channels (TV White Spaces), enabled by a geolocation database. The geolocation database informs the device of which channels 
can be used at a given location, and in the UK/EU case, which transmission powers (EIRPs) can be used on each channel based on the technical characteristics of the device, given an assumed interference limit and protection margin at the edge of the 
primary service coverage area(s). The UK regulator, Ofcom, has initiated a large-scale Pilot of TV White Spaces technology and devices. The ICT-ACROPOLIS Network of Excellence, teaming up with the ICT-SOLDER project and others, is running an 
extensive series of trials under this effort. The purpose of these trials is to test a number of aspects of white space technology, including the white space device and geolocation database interactions, the validity of the channel availability/powers calculations by the database and associated interference effects on primary services, and the performances of the white spaces devices, among others. An additional key purpose is to undertake 
a number of research investigations such as into aggregation of TV White Space resources with conventional (licensed/unlicensed) resources, secondary coexistence issues and means to mitigate such issues, and primary coexistence issues under challenging deployment geometries, among others. This paper describes our trials, their intentions and characteristics, objectives, and some early observations. 

Rhine River
Systèmes de Communication
Eurecom Ref:
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