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The performance of absolute distance measuring systems has been improved in terms of accuracy, traceability, reliability and cost through the introduction of new methodology arising from research at the University of Oxford. This has brought commercial benefit to a German company making measurement systems, through the creation of a new product line. New capabilities for measurement have been delivered to a first customer in Germany. The research has also resulted in the establishment of new activity at the National Physical Laboratory, and influenced UK and European technology roadmaps for future manufacturing.
The Beazley Archive Online Database enables large and diverse audiences to access and understand ancient art through Oxford research. It allows users around the world to ask and answer their own research questions and to learn about ancient imagery. It is principally dedicated to the study of ancient Athenian figure-decorated pottery and ancient/neo-classical engraved gems. It makes available hundreds of thousands of pictures and information-fields which can be browsed and searched in a variety of ways, according to the level and requirements of the user. The Database is the foremost academic tool for the study of ancient Greek pottery, but its demonstrable impact extends far beyond academia, to an international audience of students, educators, museums, businesses, and private researchers.
Research in Multi-spectral Imaging (MSI) of manuscripts by researchers in the University of Oxford's Faculty of Classics has led to advances in imaging technology. A series of initiatives by Dr Dirk Obbink that captured images through MSI technology have led to the decipherment of new texts that have made a substantial mark in the public sector. Equity spinout of this technology has resulted in the entry in the market of the first portable multispectral scanning unit in flat-bed desktop format. The scanner, which uses innovative patented LED technology at different levels of the light spectrum, was developed under funding from ISIS, Oxford University's technology transfer division.
John Blair's research on the history and archaeology of early medieval England has had a major impact on central and local planning policy. It has made several significant contributions to current practice as regards historic landscapes and building preservation (especially churches), and it is at the heart of the on-going debate about future policy reform. His publications are read and used by planning officers, policy makers, and by the general public — who have also come to know of his work through Channel Four's Time Team. Blair's research demonstrates the influence that academic history and archaeology of the highest scholarly standards can have on planners, policy makers, commercial archaeologists, and conservationists. Its public benefits include improved understanding, cultural enrichment, and conservation policies which are more sensitive to the heritage embedded in landscapes.
This case study demonstrates how research into ground source geothermal cooling has benefited a public service organisation (London Underground Ltd (LUL)), an international engineering consultancy (Parsons Brinckerhoff (PB)) and the safety and comfort of staff and users of the London Underground.
Impact includes:
Research on the history, repertoires and performance cultures of brass instruments has reconfigured the international music community's understanding of how brass instruments have been played in the past and has unveiled new repertoires. The results are new understandings of performance techniques and instrumentation that continue to influence creative practice among leading professional performers. The findings from the research are recognised as major points of reference for professional and amateur performers, and have also contributed to work in the heritage industry and to that of print and broadcast media professionals. The research has also been translated for wider consumption in pivotal publications such as Grove Music Online, which features new entries on bands and individual brass instruments. The research also inspired Music in Words, the seminal textbook for teachers and students of music performance outside the higher education sector.
This study outlines the ways in which Alexandra Harris, Senior Lecturer in English at the University of Liverpool, has engaged public interest in modern British art and literature. Harris has demonstrably encouraged both art-world professionals and members of the public to appreciate more fully the rich variety of modern British art, and to realise its contemporary relevance in exploring British landscapes and identities. Between September 2010 and July 2013, her books, radio programmes, literary festival appearances, and collaborations with art galleries have had a major impact on cultural life. They have helped to raise the profile of British painting, and brought diverse audiences to challenging literature (especially the work of Virginia Woolf). They have heightened public consciousness of the ways in which contemporary debates and indeed the habits of daily life can be informed by cultural history, giving `the long view' on national identity, notions of `home' and tradition, and particularly the potent relationships between art and place.
Rolls-Royce uses the HYDRA computational fluid dynamics (CFD) code for the design of all of its new gas turbine engines. The HYDRA CFD package, including the mathematical theory behind it, was developed by Professor Mike Giles and his research team in the period 1998-2004 at the University of Oxford, and subsequently transferred to Rolls-Royce, forming the basis of the RR corporate CFD strategy with an investment of over 100 person years in development.
Since 2009, HYDRA has become the standard aerodynamic design tool across Rolls-Royce, and has been used to design Rolls-Royce's Trent 1000 engine and the newer Trent XWB. HYDRA has enabled Rolls-Royce to save over [text removed for publication] in test rig expenses, provides superior accuracy compared to its competitors such as FLUENT, and has contributed to increases in engine efficiency of up to [text removed for publication], which in turn has led to higher sales and increased revenue for Rolls-Royce.
Research by Classicists at Oxford, led by Professor Alan Bowman, on wooden tablets found at Vindolanda, a Roman fort on Hadrian's Wall, has led to the publication of texts that have contributed greatly to public knowledge of life in Roman Britain. This research has been made available to the public at the British and Vindolanda Museums, and through printed and visual media. It has been particularly important in the teaching of Roman Britain and Latin in schools. Bowman's collaboration with colleagues in Engineering to develop new techniques, to enable a better reading of the texts of the tablets has received wide publicity, increasing public knowledge of the methods of historical and scientific research. Research by Bowman on a Frisian tablet has also had impact within the Netherlands; in this case providing the benefit of public awareness of the problems of the historical evidence that has been used to construct nationalistic narratives. Jacob Dahl's application of the technology, developed in Bowman's project to proto-Elamite tablets from south-west Iran has in turn increased public knowledge of attempts to decipher an unknown script and stimulated public engagement with the research.
Professor Gupta, an internationally recognised expert on architecture and climate change, has developed an innovative software model for carbon counting (DECoRuM® model) and climate change adaptation (DECoRuM® adapt) of existing housing. The combination of Geographic Information System techniques, energy efficiency and climate change adaptation measures has enabled DECoRuM® model to provide a range of environmental, public policy and practice benefits to homeowners, communities, local authorities and architects. These benefits have been realised through refined global common carbon metrics promoted by UNEP, BSI standard and industry guidance, as well as achievement of real energy and CO2 emission reductions from low carbon refurbishment, leading to improved building energy performance.