Log in
A quiet technology revolution in the UK has been changing the way that police officers on the beat and hospital nurses access and record information, using handheld electronic notebooks that bring large time and cost savings. This revolution began as a University of Glasgow research programme and led to the creation of a successful spin-out company, Kelvin Connect. Acquired in 2011 by the UK's largest provider of communications for emergency services, Kelvin Connect has grown to 30 staff. Its Pronto systems are now in use by 10% of UK police forces and nursing staff in several UK hospitals.
Research into the operational characteristics and applicability of biological reaction networks, carried out at the university in collaboration with groups at Caltech and Sony Systems, revealed the pressing need for a standard format that could be used for storage and exchange of mathematical models of such systems. Hertfordshire researchers played a crucial role in the initial design, dissemination and early exploitation of the Systems Biology Markup Language, SBML, now recognised as the de facto standard format for this purpose. Several major scientific publishers operating across academic boundaries require their authors to use SBML, and 254 software tools, including MATLAB and Mathematica, are now SBML-compliant. Online forums testify to a sizeable, international user-developer community that encompasses engineers, biologists, mathematicians and software developers.
The volume and diversity of data that companies need to handle are increasing exponentially. In order to compete effectively and ensure companies' commercial sustainability, it is becoming crucial to achieve robust traceability in both their data and the evolving designs of their systems. The CRISTAL software addresses this. It was originally developed at CERN, with substantial contributions from UWE Bristol, for one of the Large Hadron Collider (LHC) experiments, and has been transferred into the commercial world. Companies have been able to demonstrate increased agility, generate additional revenue, and improve the efficiency and cost-effectiveness with which they develop and implement systems in various areas, including business process management (BPM), healthcare and accounting applications. CRISTAL's ability to manage data and their provenance at the terabyte scale, with full traceability over extended timescales, based on its description-driven approach, has provided the adaptability required to future proof dynamically evolving software for these businesses.
This case study embodies a non-linear relationship between underpinning research, software development and deployment. It involves computer science research at UWE in conjunction with its applied development for the world's largest particle physics laboratory and onward deployment commercially into private sector industry.
Research undertaken between 2002 and 2012 at Birkbeck has helped establish a participatory approach to cyber-physical computing as the predominant methodology for the construction of mobile and pervasive computing systems. Cyber-physical systems intimately interlink material entities and their information representations as existing on the Internet. Our specific research contributions in systems architecture, privacy protection and human dynamics have demonstrated how the user's activity can be exploited as the core ingredient in building such systems. Our research has resulted in the implementation of applications that are used to monitor biodiversity across the globe, to assess and support Parkinson's disease patients in the UK, to improve the well-being of office workers in London, to engage the public in a debate about the costs and benefits of pervasive computing, and to inform legislatures in the UK and the US.
This case study reports the impact on businesses and practitioners of model-driven software architecture research, workflow-based application development, and intelligent computing through a series of connected JISC, Knowledge Connect projects, and, especially, Knowledge Transfer Partnerships.
Key impacts for software companies, related to their software development processes and products, include the adoption of the model-driven architecture approach, showing:
Integration of intelligent computing in the form of data mining and decision support in software processes and products.
Newcastle University's fundamental research into the theory of concurrency and the automated construction and analysis of asynchronous systems has resulted in novel technologies that have been adopted and applied worldwide by industry. This case study describes impact over the last five years on the industrial development of asynchronous microprocessor chips, in particular, deployed by Intel for handling financial transactions on NYSE and NASDAQ (with combined daily volume of trade exceeding £80 billion), and the improvements in business process analysis through the world-leading open-source ProM tools (downloaded over 65,000 times since 2008, and used by a number of major organisations, e.g. ING Bank and Deloitte).
University of Cambridge research on the principles of `sentient computing' led to the foundation of spin-out company Ubisense, which has grown into a leading location solutions company. By the end of 2011, Ubisense had 170 employees and was floated on AIM with a valuation of £38.6million. It serves customers such as BMW, Airbus, Aston Martin and the US Army. Deployment of the Ubisense Real Time Location System has improved production line accuracy and efficiency by up to 10%.
Based on research within the Digital Media Technology group, innovative multi-media technologies for capturing, structuring, and analysing real-time crash test data were developed, between 1996 and 2006, leading to transformational impacts on the professional practices of the global vehicle crash testing industry. Initially realised through an award-winning technology transfer programme with MIRA, the systems have been widely deployed by leading crash test organisations, supported faster vehicle design iterations and contributed to the design of safer vehicles. The underpinning research has directly contributed to the ISO standard (ISO/DTR 13499) and its current version. The impact is ongoing and long lasting since most systems in current use are largely based on the original technologies.
i-DAT has developed an open infrastructure for `harvesting' and visualising data to support collaborative interdisciplinary projects in environmental, social and cultural contexts. Framed as a series of `Operating Systems' this research contributes to the strategic activities of not-for-profit, public, private and community sectors, including Arts Council England, Plymouth City Council, UNESCO Biosphere and World Heritage Sites. Through i-DAT's National Portfolio Organisation status, this research delivers significant audience numbers and new work and contributes to and can be measured against impacts in relation to civil society, cultural life, policy making, public services and, to a lesser extent, economic prosperity.
This case study concerns the design and methodology adopted in the construction of high reliability (safety-critical and real-time) embedded systems, particularly as applied in the automotive and avionics industry. The key impact has been for the automotive and avionics industry to adopt a change in the way these systems are designed, leading to more reliable systems, faster time to market, lower production and verification costs, and lower maintenance costs.
The subject matter concerns the fundamental architecture of high reliability embedded systems. Specifically it is a paradigm shift in the theoretical design of the software and hardware from established event-driven architectures to novel time-triggered architectures developed at the University of Leicester (UoL). The novel paradigm is supported by a range of development tools, processor designs, and diagnostic/maintenance tools developed by a spin-out company, TTE Systems Ltd. Research was exploited commercially by TTE Systems Ltd to provide economic impact via software tools sales, consultancy services, bespoke product development, and training courses.