Log in
BEAA research has impacted positively on commerce in brewing and biotechnology companies worldwide through continuous collaboration with Aber Instruments, an AU spin-out company formed to commercialise university research. Aber Instruments has supplied over 1000 fermentation monitoring systems world-wide for the on-line measurement of viable biomass concentration, providing improvements in speed and accuracy over previous off-line, culture or stain-based procedures. On-line, real-time monitoring of viability during fermentation reduces costs and improves product quality, leading to practitioners in large breweries including Anheuser Busch, SABMiller, Inbev, Coors, Diageo, Heineken, Suntory and San Miguel adopting the Yeast Monitor as part of their standard operating procedures. The new Futura instrument, which utilises the same technology developed from BEAA research, was launched in 2009 and is now used by major biotechnology companies including Genetech, Novo, Biogen Idec, GlaxoSmithKline, Centocor, Sandoz, Eli Lilly and Genzyme to monitor biomass in a much wider range of fermentations.
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.
Cardiff University's research in acoustic emission monitoring and refined data analysis has been applied to large, complex structures and has subsequently transformed the inspection processes of concrete and steel bridges. This has been commercialised by Mistras Group Ltd. to provide a safer, more reliable and progressive means of bridge monitoring, enabling the company to acquire a global reputation and increase its turnover to £7.5M per year — £5M relating to Cardiff research. Cardiff's innovations have had major international impacts (in UK, Europe, India and USA) through:
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).
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.
The Railway Systems Group develops state-of-the-art condition monitoring and instrumentation systems that identify system faults before they degrade into failures that cause passenger disruption. The key impacts of the Railway Systems Group lie in the following areas:
Examples of direct quantifiable impact are a reduction of over 60,000 minutes in train delays over the last one year period through monitoring of 5,600 railway point machines (the cost to Network Rail of delays is between £20/min to £160/min). Also, the deployment of an award winning conductor shoe monitoring system, which has resulted in an estimated savings of 12,150 minutes. Expert advice and practical prototypes have been through active contracts from railway companies totalling £4.2M. This includes an influence in the £7 billion successful order from the Department for Transport to Hitachi for new trains, energy saving strategies reported by the Office of the Rail Regulator and evidence to the Transport Select Committee on winter operations. These have been achieved by working extensively with the British and international railway industries in the area of condition monitoring and bespoke instrumentation systems that support an improvement in the dependability of rail travel.
In this case study, two specific examples of impact are reported. One is cost-effective and high-performance smart antennas for the offender tagging system and marine navigation system for Guidance Navigation Ltd (Guidance). This collaboration has resulted in new and leading products and also helped the company to win a range of contracts. The other example is the development of a novel intelligent drilling system_for Zetica Ltd. This system can detect deeply buried unexploded ordinance and other objects. It has given Zetica a unique new product to significantly improve operational safety and win business worldwide.
Research into distributed optical fibre sensing undertaken at the Optoelectronics Research Centre (ORC) at the University of Southampton has had profound economic and environmental impact within the oil and gas industries in both extraction efficiency from existing reservoirs and improved safety performance and operation of three companies: Optasense, Stingray Geophysical and Schlumberger. Each of these companies have established highly competitive positions in the worldwide optical sensor market and collectively employ more than 160 people in the south of England, in their distributed sensing programmes having benefitted from the adoption of this new technology that contributes to the management of environmental risks and hazards.
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:
Agent-based computing is a new paradigm for building complex socio-technical systems composed of many interacting intelligent and autonomous components. New co-ordination and negotiation algorithms developed at the University of Southampton, have provided new methods for managing such interactions in a flexible manner. This study focuses on their applications in two new start-up companies (Aerogility and Aroxo) in the defence, aerospace and civil contingency sectors (e.g. BAE Systems, Ministry of Defence and Hampshire County Council) in helping the GB Sailing Team to success at the 2012 Olympics, and in monitoring the environment for effects of climate change.