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A reduction in planning uncertainties and financial risks of photovoltaics has been achieved by developing internationally accepted standards. Non-standardised characterisation and unreliable energy prediction caused a performance gap between expectations and realistic yields. Loughborough University (Prof. Gottschalg, Dr. Betts) conducted a series of research projects since 1999 which reduced this performance gap. The team consciously transferred developed methods to international standards for energy prediction and device characterisation. Standardisation has, with significant contributions from this team, resulted in the reporting period in a reduction of at least 2% calibration uncertainty, which has a value at today's prices of $1.500,000,000 per year (J. Wohlgemuth [5.1]).
This research has already saved the NHS in excess of £2.5 million over 3 years through bulk purchasing. It was used by the National Ambulance Fleet Strategy Group to develop a national specification of emergency ambulances to reduce costs and improve patient care with 6 of 11 Ambulance Trusts in England purchasing from the national contract. The design and testing of a second tier of vehicles and equipment has supported new systems of work through a Community Urgent Response Environment (for on-the-spot treatment) and has been used in a tender specification by NHS Supply Chain to purchase replacement portable equipment.
Research by Loughborough University academics has influenced the development of elite footballs used in numerous global tournaments including FIFA World Cups, UEFA European Championships and Olympic Games. Research findings have led to increased design freedoms that have allowed adidas to produce balls with improved commercial appeal resulting in a tenfold increase in sales whilst maintaining product performance in line with the highest certifiable level of FIFA standards.
Publically and industrially funded research at Loughborough University into the simulation, monitoring and control of electronics soldering has had significant impact in the development of new software and hardware technologies, which have delivered substantial commercial and economic benefits, with examples cited for at least two leading companies. One key commercial product is a modelling tool that optimizes reflow oven settings quickly, easily and accurately. It optimises oven settings each time a new product or solder paste is introduced, reducing set up times and scrap levels. More than 700 systems per year continue to be sold, with 90% exported.
Since 2003 Loughborough University has worked with industry to create future manufacturing systems to enable large scale production of human stem cells. The research, development and demonstration of consistent, optimised, automated expansion in culture of human stem cells at Loughborough has led to the commercial sale by July 2013 of 47 systems worth £20.1M to companies developing stem cell-based and other therapies. Their use is contributing to the health and quality of life of patients, whilst creating a new industry sector with significant economic and employment benefits. Loughborough leads internationally and nationally in this emerging field with research at significant scale contributing new manufacturing and regulatory science and standards.
Since 1993, the outcomes of preservation management research at Loughborough University have:
Research at LU carried out from 2003 to 2011 has made a significant impact on the practical realisation of Open Access (OA) to scholarly publications at an international level. Research into publisher's Copyright Transfer Agreements underpinned the development of the SHERPA/RoMEO service, widely used by repository managers across Europe [impact 4.1]; a cost-benefit model of scholarly publishing in relation to the main routes to OA influenced the publishing industry, and research strategy amongst UK funding agencies [impact 4.2]; further research influenced Research Councils UK (RCUK) policy in relation to mandates [impact 4.3], and the work of the European Commission in the development of its digital agenda [impact 4.4].
Loughborough University's (LU) interdisciplinary model based systems engineering (MBSE) research (2001-2010) has directly enabled life-saving operations by i) Developing synthetic vision systems to improve the safety of emergency services helicopter operations involving low level flight during day, night, all weather and conditions of zero visibility, and ii) Saving lives through a reduction in morbidity and mortality of babies born with congenital heart defects.
The impact translates directly into significant cost savings and safety risk reductions in expensive flight trials costing millions of pounds by BAE Systems [5.1], and in supporting clinical practice/surgical interventions by University Hospital of Rennes [5.2] with a reduction in the morbidity and mortality of babies born with congenital heart defects in Brittany, France.
Led by Professor Andrews, a computational method for real time mission planning, based on Binary Decision Diagrams (BDD), was developed in the Mathematical Sciences Department at Loughborough University (LU) from 1993-2003. This is fast and accurate and can be used to support decision-making on system utilisation in real-time operation, which has led to the ability to diagnose in flight faults for unmanned aerial vehicle (UAV) applications.
The research has changed the understanding and awareness of the advantages of BDD, resulting in integration into major industrial trials and proprietary software products, including at BAE Systems, one of the world's largest companies in an area of vital importance to UK security and economic development. The methodology has attracted significant research funding in collaborative programmes with industry.
The impact of the research at Loughborough University from 1999 to date has transformed informational processes in Leicestershire Police and has been adopted by other Police forces across the UK and internationally. Within Leicestershire it has led directly to [5.1]: