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Research into industrial process tomography has been performed at the University of Leeds from 1999 to the present day with much of this being in collaboration with Industrial Tomography Systems plc (ITS). This research, together with the associated intellectual property, has provided the foundation of 5 innovative new products developed and produced by ITS during the eligible period. These new products have generated sales of £5m and are in large part responsible for increases in turnover and employment of approximately 60%, and exports of 67% since 2008. These instruments are used in a significant number of new applications and are generating major benefits to end users in the oil and gas, pharmaceuticals, chemicals, consumer products, minerals and food sectors.
The Space Robotics unit is heavily involved with the ESA/Roscosmos 2018 ExoMars rover mission, and is responsible for the radiometric and colourimetric calibration and image processing for two of the ExoMars science cameras during mission operations. Camera emulators have been built which has led to novel hyperspectral camera technology being developed. A terrestrial aerial version of this camera has been deployed in an unmanned aerial system (UAS) used for advanced remote sensing for precision agriculture applications. Impact on practitioners in this application area has emerged together with economic impact via Welsh Government funding. The ExoMars related research has led to impact in the area of society, culture and creativity.
This case study describes the impact of a sustained programme of research conducted over more than 10 years, which has changed conceptualisations of young children's abilities and needs, and shaped national and local provision from birth to five. The research has influenced early years policy, secondary legislation, professional standards and training, curriculum, and the daily experiences of babies, children and practitioners in every childcare setting in England. It has produced innovative resources to enhance multi-professional practice, and significantly contributed to the deployment of high-quality, interdisciplinary research findings to improve provision, stimulate debate and challenge conventional wisdom about children and childhood.
Research at the University of Leeds led to the development of UltraCane — an ultrasonic cane for people who are visually-impaired that gives tactile feedback to the user's hand with progressive non-contact warning of obstacles (ground-to-head) up to 4 m. [text removed for publication]. Testimonials from users describe its transformative nature on their quality of life, giving `a true feeling of independence', whilst healthcare professionals commend `the simplicity of operation and ease of use'. Furthermore, with a technology mimicking bat echolocation, the UltraCane has informed and engaged the wider public in science and engineering through, for example, the BBC `Miracles of Nature' series. The technology has also been developed to allow people who are visually-impaired to cycle independently and safely around a cycle track — the `UltraBike'.
Research into on-line control of crystallisation at the University of Leeds started in 2002 which led to a collaboration being formed with Malvern Instruments Ltd (MIL) in 2006 and subsequently to the development of a new type of instrument capable of measuring particle shape and shape- distribution. The instrument range, Morphologi, launched in 2007 has since generated sales for MIL of approximately £11 million since January 2008. The instrument is now operational within many industrial sectors and used e.g. to optimise process efficiency and enhance product quality. The success of this instrument has contributed to providing secure employment at MIL and to obtaining the "Queen's Awards for Enterprise: International Trade" in 2011.
Research at the University of Leeds underpinned the development and manufacture of RF filter technology by Radio Design Ltd, including the 3G `Universal RF Combiner Unit' with sales of >£18M (40,000 units) since 2008, which led to the company's Queen's Award for Enterprise (Innovation) in 2011. This technology was subsequently improved specifically for the 2012 London Olympics for shared use by all five cellular operators, and has now been further developed, again using Leeds research, for 4G systems (with >£4.2M sales in 2013). Leeds research has contributed directly to ~75% of Radio Design's products, and its expansion from 11 employees in 2008 to 150 employees today. Leeds-designed RF filters have also been widely utilized by other manufacturers, with estimated annual international sales of tens of millions of pounds since 2008.
In parallel, Leeds research on the physical modelling and design of pHEMT switches has been used since 2008 by RFMD (UK) Ltd (previously Filtronic Compound Semiconductors), who supply all major mobile phone manufacturers — over 2 billion pHEMT switches are used worldwide, with RFMD's estimated sales exceeding £250M since 2008.
Over the past 10 years there has been a massive expansion in biomass use for power generation, particularly in the UK and Europe. Research at the University of Leeds has been crucial in addressing many of the challenges inherent in moving from coal to biomass including milling, combustion characteristics, deposition and corrosion enabling adoption of biomass for power generation. The research has impacted: (1) company strategy and industry practice for the use of biomass and key technology choices; (2) society, health and environment via CO2 reduction and emission reduction; (3) national energy security through an increased fuel inventory; (4) UK Government and EU policy as expert members of advisory groups.
Automotive design analysis software based on qualitative reasoning research in the Advanced Reasoning Group at Aberystwyth is deployed at more than 200 automotive and aeronautic OEMs and Tier 1 suppliers world-wide. The software necessitates companies changing their process for performing design analysis, and companies are willing to do this because of the attendant benefits.
The major benefits of use of the software are early feedback on potential problems with the design of automotive systems, and improved safety of automotive designs. Related benefits are improved product time to market, and cost savings. A representative example of production savings of $2.5 million has been given for use of the software on a single product design, as well as Ford Motor Company's estimate of $20M per year saved in just their company.
Research on data compression produced novel algorithms that optimise the use of bandwidth and processing power. This research has led to the establishment of a product line that applies these algorithms to video surveillance software, marketed by Digital Barriers plc. Since 2008 this compression technology has allowed the company to grow from 8 to 41 staff and increase revenue from £800K to £6M in 2013. The novelty and usefulness of the data compression research was also appreciated by ThinkAnalytics plc. This led the company to the optimal design for data compression in their recommender system, which is currently being supplied to 130M cable TV customers making the product the most deployed content recommendation system in the market.
Research performed at York during 2003-6 revealed the unexpectedly high level of organic emissions by trees in the UK during the hottest periods, catalysing the formation of smog. This research on causes of summertime air pollution informed UK government policy reports in 2008/9. It also resulted in on-going changes in modelling of biogenic emissions by DEFRA (Department for Environment Food and Rural Affairs), embedding the knowledge into all future government policy evaluations of air pollution. The Met Office and others have now improved their air quality forecasts provided to the public by adding the effect of natural emissions. The beneficiaries of the York research include government and those people at health risk from low air quality. The impact spans public policy, environmental policy and health.