Thursday, October 31, 2019

The Cornish Villages 4G Trial report Coursework

The Cornish Villages 4G Trial report - Coursework Example 4G enables full fledged IP based communication through a mobile device with every device having a unique IP address and harmonizing â€Å"global roaming, super high speed connectivity, and transparent end user performance† (www.4Gtechnology.com). BT Wholesale and Everything Everywhere (EE) have begun a trial run of 4G technology to provide broadband services to St. Newlyn East and South Newquay in Cornwall. The project has called for 200 subscribers to register for the service that would enable them to receive broadband through mobile and landline services. This report studies the technical, social, user, legal and policy aspects related to this project of implementing 4G in the Cornish villages, to understand the main challenges during the process of implementation. Technical background BT Wholesale along with EE has identified the two Cornish villages to be connected for trial implementation of 4G/LTE (Long Term Evolution) technology through mobile broadband that is 10Mb of the total 150Mb generated in the lab. This project aims to prove that mobile broadband technology is more viable than laying of fibre. This project aims to study the viability of integrating two different providers’ architectures to deliver high speed broadband to remote villages within UK. High resolution mobile devices when connected to 4G technology enable streaming video and ubiquitous computing. Technologies like wireless mesh networks and cognitive radio networks are used to allocate equal network traffic over equal bandwidths to ensure secure connections. UMTS, OFDM, SDR, TD-SCDMA, MIMO and to the some extent, WiMAX (Worldwide Interoperability of Microwave Access) are used in 4G (freewimaxinfo.com). While seamless broadband connections are available for users, the connections receive and can send data from WiMAX towers, switching from one tower to the other, being based on IP (Tandall, 2011). IEEE’s (Institute of Electrical and Electronics Engineers) 802.22 â₠¬Ëœwhite space Internet’ standard is being used to allow wireless broadband through analogue television signal frequency range of 54MHz to 698MHz. This standard enables lower speeds over higher range of spectrum to cover remote areas that were difficult to connect through 3G internet. White space internet ‘wireless regional area networks’ (WRANs) provide access to at least 62 miles with speeds of 22Mbs which can cover wide areas in the remote villages of Cornwall (Philips, 2011). High speed data with high security and instant download is enabled by 4G which is based on WiMAX and LTE and supports WiMAX Network system (network infrastructure) and mobile phone set. 4G technology enabled smartphones are based on wireless IP connectivity and manages voice data through packet-switching instead of circuit-switching as in the case of internet technology of 3G. Further, LTE which is developed on radio wave technology is said to provide internet facility using both systems as it is compatible with 3G technologies. This feature enables existing networks to be used based on MIMO (Multiple input multiple output) and transmits and receives high data transfer speed while transiting from one mode to another through the same bandwidths (freewimaxinfo.com). Switching from analogue to digital broadcasting services as per the ‘Digital Agenda’, the 800MHz digital dividend sub-band consisting of 790-862MHz

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