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Femtocells provide short-range (e.g. 10m) wireless coverage which enables a conventional cellular communication system to be accessed indoors. Their widespread and growing use has been aided by the work in UoA11 by the University of Bedfordshire (UoB).
In 2008, while the femtocell concept was still in its infancy, researchers at UoB with expertise in wireless networks recognised that coverage prediction and interference reduction techniques would be essential if the benefits of that concept were to be realised.
Collaboration with two industrial partners (an international organisation and a regional SME) resulted in tools that enable operators to simulate typical femtocell deployment scenarios, such as urban, dense apartments, terraced house and small offices, before femtocells can be reliably deployed by users without affecting the rest of the network (a benefit of the technology). These tools have been deployed by those partners to support their businesses. A widely-cited textbook, written for network engineers, researchers and final year students, has brought knowledge of femtocell operation to a wider audience.
Aston's fibre Bragg grating research on optical sensing has had a global commercial impact, in particular the development of low-cost fibre FBG sensor interrogation methods. The work has been carried out with a diverse range of companies (including BAE Systems, Airbus, Insensys, Schlumberger) working across different sectors including oil and gas aerospace and marine. Specific impacts include the acquisition of 70% of the stock of Insensys Wind for US$15.7 million by Moog in 2009 and continuing employment by Smart Fibres, Moog Insensys and Astasense.
Essex research has investigated a range of switching techniques to enable efficient routing in optical networks. This research informed the development of the iVX8000 system, the world's first `carrier class' converged switch and transport solution, launched in May 2011 by the network equipment manufacturer Intune Networks Ltd. The development, launch and field implementation of the iVX8000 system have underpinned a period of sustained growth and success for Intune. The company has enhanced its position within the photonics transmission sector and attracted €15M of venture capital and collaborative research funding since 2011.
Our research on cross-layer optimised video distribution over wireless networks has led to wide- reaching economic and societal impact, via the following pathways:
- Standardisation: our research results were directly adopted in WirelessMAN and LTE, the two global standards for the next generation of wireless broadband networks.
- Collaborative research: the work resulted in a product that has been commercialised by our collaborators Rinicom Ltd, an SME specialising in mobile video, and recognised with a Queen's Award for Enterprise (2013), for achievements to which our research contributed significantly.
- User engagement: the work resulted in the deployment of a WiMAX network in Slavutych/Chernobyl, Ukraine; contributing to community regeneration in a UK Government programme to address social and economic consequences of nuclear power plant closure.
Low-cost wireless solutions beyond the technologies available previously and developed at Loughborough University since 2005 are used by IDC, and Sure, who integrate these technologies in several products and services so generating impacts in terms of:
The technologies have been deployed in a logistics distribution centre (ToysRUs), an automotive manufacturing process (Toyota), and a safety and security system (Sure).
The supply of electrical energy to centres of demand is an increasingly important issue as our power generation sources decarbonise. Without innovation in our use of high voltage cables, security of supply to our major cities cannot be guaranteed. Our research has:
The world's longest high capacity terrestrial commercial communications system, now deployed worldwide, was developed from Aston University's pioneering research on the concept of dispersion managed solitons. The concepts and expertise from this research were used to develop and implement the associated system design for high capacity (1Tb/s) WDM (wavelength division multiplexing) transmission over 1000s of kilometres. Commercial development was led by Prof Doran and the core team from Aston who left the University to found Marconi-Solstis, a part of Marconi plc. Prof Doran and other key members of this team have since returned to Aston The system, now owned by Ericsson, (but still called Marconi MHL3000) has current annual sales of order $100M, and employs hundreds of people worldwide.
Lancaster University's pioneering research on Quality-of-Service (QoS) architecture has led to significant impact on the development of TETRA (Terrestrial Trunked Radio) — the digital radio standard used by emergency and public safety services globally. The route to impact was via UK projects on Mobile and Emergency Multimedia. It involved the transfer of QoS technology and know-how to HW Communications Ltd (HWC), a Lancaster-based SME. HWC became instrumental in developing the outcomes of our collaboration in TETRA's Multimedia Exchange Layer (MEX) standard and its specification for TETRA II (or TETRA Enhanced Data Services, TEDS) — a new version of TETRA that enables multimedia data services. MEX was adopted as a new clause in the TETRA II release in 2010. The impact is that vendors of TETRA equipment manufactured after 2010 can implement MEX in their products, thereby leveraging Lancaster's pioneering QoS research to enable applications to obtain the best possible level of service in a standardised way — which is absolutely crucial for the public-safety and related applications for which TETRA is being used.
As a key participant in the Internet Engineering Task Force (IETF), Dr Perkins has been instrumental in developing key protocol standards that underpin modern telecommunications. The Real-time Transport Protocol (RTP) acts as a transport layer distributing audio-visual data across the network, whilst the Session Description Protocol (SDP) describes the format and destination of streaming media. These standards are essential components of 3G and 4G mobile phone standards and form the infrastructure for many fixed telephone networks. They are implemented in Apple's Mac OS X and iOS, Google's Android, and Microsoft Windows, and feature in billions of devices around the world.
Mobile technologies and in particular mobile applications have become key drivers of the economy in many countries especially those that lack established communications infrastructures. Since 2003, the research team led by Professor Al-Begain has created both significant infrastructure and know-how that became the base for the creation of the £6.4million Centre of Excellence in Mobile Applications and Services (CEMAS) that is providing research and development to SMEs in Wales to increase their competitiveness. In the first three years since its inception 28 projects have been completed and 66 companies have received services.