Intelligent road repairs are among the revolutionary technologies being developed through eight new projects announced this week.
The business-led Prosperity Partnerships are announced today in support of the government’s ambitious new Innovation Strategy.
They are supported with an investment of almost £60 million by the Engineering and Physical Sciences Research Council (EPSRC), part of UK Research and Innovation (UKRI), businesses and universities.
They include a partnership between:
- construction and engineering company Costain
- Highways England
- the University of Cambridge.
Using a digital twinning system that visualises the road and its condition, it would allow highways agencies and councils to identify when repair work is needed, with roads able to repair themselves using self-healing materials.
- negate the need for laborious and costly on-site inspections
- prevent unnecessary delays to motorists because of road works
- reduce the emissions generated by roadworks.
(P&G), Durham University and Imperial College London aim to develop the tools needed to accelerate sustainable alternatives to everyday household products, such as laundry detergents and household cleaners. These are needed to help the UK achieve net zero by 2050.
NATS and The Alan Turing Institute also aim to use digital twinning to create the world’s first AI system to control airspace in live trials. They will work with air traffic controllers to help manage the complexities of their role.
EPSRC is investing £19 million in the projects through its long-running Prosperity Partnerships initiative.
Industry and university partners are investing a further £40 million.
Prosperity Partnerships build on existing UK strengths in industry and academia to develop new technologies, processes, and skills that will deliver economic growth and create jobs across the UK.
EPSRC Executive Chair Professor Dame Lynn Gladden said:
The new Prosperity Partnerships announced this week bring the total number of partnerships launched by EPSRC to 47 with a total investment of £335 million.
- £125.2 million from EPSRC
- £3.6 million from the Biotechnology and Biological Science Research Council
- £167 million from industry partners
- £39.2 million from universities.
Costain, Highways England, and the University of Cambridge
The partnership aims to use technology to develop roads utilising:
- digital twins
- intelligent materials
- data science
- robotic monitoring.
It aims to create connected physical and digital products and associated processes that can improve the cost, time, quality, safety, sustainability, and resilience performance of expressways.
The resulting system will use self-sensing and self-healing materials on and off the road surface to inform the road’s digital twin through robotic monitoring.
These in turn, along with other data, will inform the data-science enabled digital processes in making better:
- operation predictions.
This will allow proactive, robotic interventions and road maintenance schemes that are more sustainable through the smarter use of resources.
NATS and The Alan Turing Institute
The partnership aims to develop the science needed to deliver the world’s first AI system to control airspace in live trials.
These new tools would utilise digital twinning and machine learning to work in harmony with air traffic controllers and help them to manage the complexities of air traffic control.
Such tools will become more important with growing use of uncrewed aircraft and airspace playing a crucial role in delivering aviation’s commitment to net zero emissions by 2050.
bp, Cardiff University, Johnson Matthey and The University of Manchester
Catalysis is the process of speeding up a chemical reaction by use of a substance known as catalyst, and it is vital to a wide range of technologies and processes.
It underpins the production of advanced fuels, the removal of local pollutants in car exhausts, and the manufacture of materials vital to modern life, among other applications.
Catalysts are estimated to be used in the manufacture of more than 80% of the materials around us, accounting for more than 20% of UK GDP. They have also been honed over decades to work with fossil fuel resources.
This partnership will develop new catalysts to help the UK move to a sustainable, low carbon, net zero future.
These new catalysts will be inspired by nature and will convert sustainable biomass, waste, and carbon dioxide into valuable products such as fuels and lubricants. This will deliver major economic benefits as well as reducing carbon emissions.
SeeByte and Heriot-Watt University
Many potentially dangerous jobs in harsh and extreme environments, such as inspection, repair and maintenance offshore, are still carried out by human workers.
The partnership aims to help a variety of sectors to transition to the use of teams of smart robots to carry out these roles instead, working closely with human operators and experts onshore.
Using cutting edge robotics and AI technologies, researchers aim to develop the robust methods needed for humans to collaborate with autonomous systems. That is, to have them operate effectively and safely in hazardous and unpredictable environments.
These methods include:
- manned-unmanned teaming
- explainable AI
- robot scene understanding
- joint decision-making.
Element Six and University of Warwick
Diamond is the epitome of a multi-functional material with applications in:
- thermal management
- optical transmission
- quantum technologies.
Engineered synthetic diamonds offer an extraordinary combination of extreme properties and are capable of meeting the needs of the most demanding of applications in these diverse fields.
The partnership aims to build on the UK’s world-leading role in diamond growth and exploitation. To develop diamond solutions in areas where conventional materials are increasingly unable to meet the performance levels required by new technologies.
It aims to establish a UK diamond technology supply chain which will help researchers and businesses to capitalise on the potential of high quality, tailor-made synthetic diamonds to develop next-generation solutions to real-world challenges.
P&G, Durham University and Imperial College London
Consumers recognise that everyday responsible consumption is essential to solve some of the most complex global challenges across:
- water scarcity
- energy consumption
However, they are not willing to compromise the performance of their household products for living sustainably.
P&G, Durham and Imperial College will take on the challenge to develop new, breakthrough scientific tools revealing how to re-invent the performance of everyday products. For example, laundry detergents and household cleaners, to address these complex challenges.
This suite of experimental and theoretical tools, spanning component mechanisms, kinetics and surface interactions, will accelerate development of sustainable alternatives to current products and household tasks. This will help the UK to achieve net zero by 2050.
HSBC and The Alan Turing Institute
AI technologies have the potential to unlock significant growth for the UK financial services sector through:
- novel personalised products and services
- improved cost-efficiency
- increased consumer confidence
- more effective management of financial, systemic, and security risks.
The partnership aims to develop the trustworthy, data-driven AI decision-making approaches that are needed for the wider adoption of these technologies.
It aims to address challenges such as how to increase the accuracy of predictive models without threatening fair treatment of all customers or improving transparency without leaving systems open to external threats.
It aims to outline how the finance sector can make the transformational shift to the greater use of AI technologies and ensure that these technologies have fairness, security and accountability at their heart. Whilst also, being robust and aware of privacy.
Mitsubishi Chemical UK, the University of Nottingham and the University of St Andrews
Acrylic polymers are durable and versatile synthetic materials with a wide range of uses, from vehicle components and substitutes for:
- medical products.
The partnership will harness the UK’s technical and manufacturing leadership to decarbonise this industry by increasing sustainability and reducing waste.
This will allow the UK to seize the growing opportunity presented by the global acrylics market, with the market provided by PMMA, one form of acrylic, estimated to exceed $8 billion by 2025.
Source: UK Research and Innovation.
Launched in April 2018, UKRI is a non-departmental public body sponsored by the Department for Business, Energy and Industrial Strategy (BEIS). They bring together the seven disciplinary research councils, Research England, which is responsible for supporting research and knowledge exchange at higher education institutions in England, and the UK’s innovation agency, Innovate UK. For more details go to: https://www.ukri.org/
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