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Towards Pervasive Indoor Wireless Networks

Coordinatore	THE UNIVERSITY OF SHEFFIELD    more  Organization address address: FIRTH COURT WESTERN BANK city: SHEFFIELD postcode: S10 2TN contact info Titolo: Ms. Nome: Joanne Cognome: Watson Email: send email Telefono: +44 114 222 4754 Fax: +44 114 222 1455
Nazionalità Coordinatore	United Kingdom [UK]
Totale costo	611˙100 €
EC contributo	611˙100 €
Programma	FP7-PEOPLE Specific programme "People" implementing the Seventh Framework Programme of the European Community for research, technological development and demonstration activities (2007 to 2013)
Code Call	FP7-PEOPLE-2012-IRSES
Funding Scheme	MC-IRSES
Anno di inizio	2012
Periodo (anno-mese-giorno)	2012-10-01   -   2016-09-30

 Partecipanti

#	participant	country	role	EC contrib. [€]
1	THE UNIVERSITY OF SHEFFIELD  Organization address address: FIRTH COURT WESTERN BANK city: SHEFFIELD postcode: S10 2TN contact info Titolo: Ms. Nome: Joanne Cognome: Watson Email: send email Telefono: +44 114 222 4754 Fax: +44 114 222 1455	UK (SHEFFIELD)	coordinator	390˙600.00
2	LINKOPINGS UNIVERSITET  Organization address address: CAMPUS VALLA city: LINKOPING postcode: 581 83 contact info Titolo: Prof. Nome: Di Cognome: Yuan Email: send email Telefono: +46 11 363192	SE (LINKOPING)	participant	220˙500.00

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 Obiettivo del progetto (Objective)

'In cellular networks, it is estimated that 2/3 of the calls and 90% of data services take place indoors. Smart meters are being and will be deployed across the world. Smart meters are connected with other meters and appliances wirelessly at homes. Smart buildings, e-health, assisted living applications also rely on quality in-building wireless communications. Thus pervasive wireless communications are very important.

There still remain many challenges to achieve high quality pervasive indoor wireless communications, for example, it is not well understood how various indoor wireless networks will interfere each other, how traffic models look like in smart homes/buildings, which new frequency bands can be used to meet exponential traffic growth indoors and how to make use of various wireless technologies with consideration of energy consumption, and so on.

The main objectives of the project are as follows: • To characterise material properties (permittivity, permeability, transmission, reflection loss, etc) for new and existing building/insulation materials that are used in Europe and China for frequencies up to 65GHz • To investigate indoor and indoor-outdoor wireless propagation channels • To investigate how different indoor wireless networks will interfere each other and the interference to and from wireless networks in the neighbourhood • To identify new frequency bands that can be used to meet the exponential traffic growth indoors • To investigate traffic models for indoor networks, e.g., in smart homes/buildings • To investigate how to reduce energy consumption of indoor wireless networks • To explore the synergy of complementary competences at the project partners and establish and/or strengthen the long-term collaborations between them.

The methodology of this project will adopt a combination of theoretical research that will be verified by experiment and simulation. The interactions between academia and industry will also be promoted. It is expected that the project will benefit more than 15 early stage researchers. The project partners will disseminate the project results in journals, conferences and workshops organised by the project partners.'