Departmental news

On Friday (16th June) Professor Robin Clark, Dean of WMG; and Professor David Greenwood, CEO of the High Value Manufacturing Catapult and Director of Industrial Engagement at WMG, were pleased to welcome guests from the Indian Forum of Parliamentarians.

The delegation was made up of representatives from across various political parties including Shri Rajiv Pratap Rudy, Chair of the Forum of Parliamentarians; Ms. Vandana Chavan - National Congress Party; Shri Krishna Devarayalu Lavu - Yuvajana Sramika Rythu Congress Party; Shri Sujeet Kumar - Biju Janata Dal; Shri N K Premachandran - Revolutionary Socialist Party; and Shri Brijendra Singh - Bharatiya Janata Party.

The guests were particularly keen to hear more about WMG’s research and education programmes in electrification and mobility.

They were given a tour of the real-world demo site of the track system for the Coventry Very Light Rail flagship transport project, before Professor David Greenwood led a tour of the Energy Innovation Centre (EIC) the home of WMG’s battery research.

Finally the group heard more about the Warwick Moto project, where engineering students have been tasked with designing, building and racing an electric superbike.

The parliamentarians also had the opportunity to meet with Indian PhD students and researchers, studying and working at WMG.

Professor Robin Clark, Dean of WMG, explained: “ It was a pleasure to welcome the group of Indian Parliamentarians. Our relationship with India is long standing, and one that we value very highly.

“One example of our commitment is the strength of our relationship with IIT (Indian Institute of Technology) Kharagpur, whom in October 2022 we signed a Memorandum of Understanding (MoU) for a further five years, having first started in 2006.

We are increasingly appreciating the breadth of opportunity India presents, both in the academic and industrial spaces. As India is our main focus internationally at present, we expect to see more visits and more projects over the coming months and years!”

A simple smell and taste test could revolutionise diagnosis of Alzheimer’s – long before symptoms of memory loss even arise.

Scientists are working on a ground-breaking medical screening for the disease which could also improve treatment options. The research is based on growing evidence that people with Alzheimer’s can lose their sense of smell and taste many months or even years before other symptoms, such as memory loss, become apparent.

An early diagnosis is critical for those with the disease. New drug technology can slow, or even reverse the progress of Alzheimer’s, but only if the disease is detected early enough. The drug, lecanemab, is one of two new treatments for the disease.

The research, led by WMG at the University of Warwick together with Superlunary Labs and with support from University Hospitals Coventry & Warwickshire (UHCW) NHS Trust, New-Food innovation, and Alzheimer’s Society, could lead to UK-wide screening services where members of the public can take a simple smell and taste test. Those who perform poorly can then be referred for further tests which could result in an Alzheimer’s diagnosis.

The novel solution provides accurately simulated flavour samples (known as virtual flavour, developed in collaboration with New Food Innovation) via an easy-to-use low-cost dispenser, which could be used by a nurse as part of an annual health check, in pharmacies, care homes, community centres and even in the home.

While in the trial stages at the moment, academics hope that one day an inclusive mobile Alzheimer’s screening unit could reduce significant pressures on the NHS and ease waiting times for those who are struggling to get an appointment with their GPs.

Professor Alan Chalmers from WMG at the University of Warwick said, “In this simple screening test, people will be given different flavours to smell and taste – they then determine which is sweeter, less astringent, smells more of lemon, for example. It’s an easy, non-invasive test which can be rolled out to people quickly across the UK.

“At the moment, people who present with symptoms of memory loss are referred for MRI scans and spinal fluid tests to confirm a diagnosis. By the time memory loss occurs things are often too late; pioneering drug treatments only perform well in the early stages of degeneration. MRI scans and spinal fluid tests are currently not done before there is an indication of the disease as they are incredibly invasive, can cause distress and are expensive and time-consuming for the NHS. Failure of the flavour test can give the necessary early indication.

“Our preliminary data shows that there is a difference in the flavour detection of those with Alzheimer’s compared to those without the disease, so we hope to get further backing and implement these screening tests UK-wide.

“It’s important to note that the loss of smell and taste associated with Alzheimer’s is quite different to that of long COVID. While COVID could cause a loss of the sense of taste and smell, long COVID can alter your sense of flavour – a combination of taste, smell and mouthfeel – rather than diminish it.”

This research was showcased by the University of Warwick alongside the Alzheimer’s Society, at an All-Party Parliamentary Group (APPG) on dementia, on 14 June. The APPG is hosted by Sir Jeremy Wright, MP for Kenilworth & Southam and vice-chair of the all-party parliamentary group on Dementia.

Sir Jeremy Wright MP added: “I am delighted to be hosting an event at the House of Commons focussing on a development that could contribute to a significant improvement in the mass diagnosis of Alzheimer’s, alongside the new strides in treatments that have been announced in recent months.”

Dr Richard Oakley, Associate Director of Research at Alzheimer’s Society, said: “It’s really exciting to see how researchers are thinking outside of the box about potential methods to detect the diseases that cause dementia at the earliest stages. This is so important now that new disease-modifying treatments are just around the corner.

“The NHS needs to be ready for these new treatments. We can’t be in a situation where new drugs are being approved but people can’t access them early when they work best. Alzheimer’s Society will continue to stand up for people living with dementia and push for more accurate, earlier dementia diagnosis in the NHS.”

Malcolm Barnes, Director of Superlunary Labs added, “Simplicity of the device and test is key to collecting big data across different age groups and demographics.”

Dyrr Ardash has been appointed as the new Director of Business Development for WMG, at the University of Warwick.

Dyrr will engage with education and research communities focusing on growing services to industry. He will lead business development across WMG, within professional education programmes and across all research areas - whether it be collaborative or industry funded opportunities. He will be engaging with a variety of customers from SMEs to large multi-nationals, within the UK and across the globe.

Dyrr is an automotive engineering graduate with more than 25 years’ experience in mobility and transportation, and a breadth of technical, commercial and strategic experience.

He started his career in powertrain development at Ford Motor Company, before joining DENSO where he developed electronic powertrain control and fuel systems for several European manufacturers. Dyrr held both Chief Engineer and senior commercial roles at Ricardo before joining WAE.

He has delivered projects globally in a variety of technical areas across products, from two-wheel mobility solutions, passenger cars, through to construction equipment and marine applications. At WAE he was responsible for strategic partnerships, collaborating closely with industry and academia, in addition to leading several de-carbonisation initiatives.

Dyrr explains: "I have long admired the impact that WMG has had on UK industry and its reach across the world. WMG capability is very relevant for the needs of today, but also the transformation of industry to one that will meet the sustainability requirements of mobility, transportation and beyond. I am very excited to be able to work with our current and potential partners to meet their sustainability goals and have a lasting impact on the world we live in.”

Professor David Greenwood, the CEO of the WMG centre High Value Manufacturing Catapult and Director for Industrial Engagement at WMG, University of Warwick, comments: “Dyrr joins WMG at an exciting time, as our primary research areas of electrification; sustainable materials; sustainable manufacturing; and sustainable transport are at the top of the agenda for government and much of industry.

“We look forward to broadening the impact of our research by working with an increasing number and type of businesses to deliver innovation into a wide range of market sectors.”

Find out more about the High Value Manufacturing Catapult centres here: https://hvm.catapult.org.uk/

To contact Dyrr about working with WMG, please email: wmgbusiness@warwick.ac.uk

You can also connect with Dyrr on LinkedIn

WMG, at the University of Warwick, has announced a new two year research partnership focusing on sustainable high-performance sealing materials.

Researchers at WMG’s Link opens in a new windowInternational Institute for Nanocomposites Manufacturing (IINM), led by Dr Chaoying Wan, will be working with experts at James Walker to develop the next generation of sealing compounds which will be compliant with future per- and poly- fluoroAlkyl substances (PFAS) regulations.

In February 2023, the European Chemicals Agency announced a proposal for the European Economic Area that will effectively lead to a ban on all PFAS materials, due to their persistence in the environment.

This research project will use high quantity techniques to develop and identify novel elastomer compounds that comply with proposed PFAS regulations, for use in critical industrial applications drawing on WMG’s expertise in elastomer and polymer technology.

The new technologies developed will have a high impact on a wide range of industries from transportation, oil/gas, semiconductor to hydrogen storage and wind turbines.

Conventional high performance sealing compounds rely on PFAS, as these materials are resistant to extremes of temperature and aggressive chemicals. PFAS are essential to the semi-conductor, aerospace, petrochemical, defence and nuclear industries for example, and there are currently no suitable replacement materials available. Alternative sealing materials are urgently needed to substitute PFAS.

Dr Mike Eason, Technical and Quality Director at James Walker commented: "Industrial dependence on PFAS elastomers is a global issue with supply chain impact already seen. I am delighted that we will work with Dr Wan and her team to identify and develop materials which will help industry be compliant with the proposed regulations. This partnership will accelerate James Walker’s development of seal materials for critical industry. WMG has small scale, advanced, mixing capability, with knowhow regarding nanofillers and polymer science that will allow James Walker to rapidly design, manufacture and screen bench-scale test formulations.

“I believe the combination of James Walker’s history and expertise in critical industrial sealing together with WMG’s state of the art capabilities will enable rapid development and commercialisation of materials. James Walker is committed to developing solutions to the PFAS regulations faced by global industry."

Dr Chaoying WanLink opens in a new window, Reader of Functional Polymers and Nanocomposites at WMG, University of Warwick explains: "Collaborating with James Walker to develop alternatives for PFAS seals is an important and exciting opportunity. Our elastomer research facility is supported by High Value Manufacturing Catapult CentreLink opens in a new window (HVMC), equipped with the latest technology, including a rubber process analyser (RPA) with wide temperature range - it is the only one in the UK, and one of only a few in the world with the capability to simulate dynamic elastomer performance at very low temperature.

“This function is extremely useful to compare differences in formulation design for applications such as high pressure or low temperature sealing. I am very much looking forward to working with the James Walker team on the development of new material options for high performance sealing applications and advancing our knowledge of polymer formulation and performance."

Find out more about WMG’s Nanocomposites research here: Nanocomposites (warwick.ac.uk)

New research by WMG at the University of Warwick has identified characteristics of aggressive driving – which impact both road users and the transition to self-driving cars of the future.

In the first study to systematically identify aggressive driving behaviours, scientists have measured the changes in driving that occur in an aggressive state. Aggressive drivers drive faster and with more mistakes than non-aggressive drivers – putting other road users at risk and posing a challenge to researchers working on self-driving car technology.

The research comes as a leading Detective Chief Superintendent, Andy Cox, warns of the perils of such driving – warning that the four-five deaths on UK roads daily are “predominantly caused by dangerous and reckless drivers”.

The study categorised aggressive driving behaviours and showed the key aspects of this dangerous driving style. Published in Accident Analysis and Prevention, it reported key findings:

• Aggressive drivers have a 5km/h mean faster speed than non-aggressive drivers;
  
  
• Aggressive drivers also exhibit more mistakes than control groups – such as not indicating when changing lanes;
  
  
• Aggressive driving is categorised as any driving behaviour that intentionally endangers others psychologically, physically, or both.
  
  

Lead author of the study Zhizhuo Su, PhD student, across both the Intelligent Vehicles Research Group and the Institute of Digital Healthcare at WMG, University of Warwick, said: “While it’s unethical to let aggressive drivers loose on the roads, participants were asked to recall angry memories, putting them in an aggressive state, while performing a driving simulation. These were compared to a control group, who weren’t feeling aggressive.

“This research is significant because, as the era of autonomous vehicles approaches, road traffic will be a mix of both autonomous and non-autonomous vehicles, driven by people that may engaged in aggressive driving. This is the first study to characterise aggressive driving behaviour quantitatively in a systematic way, which may help the autonomous vehicles identify potential aggressive driving in the surrounding environment."

Roger Woodman, Assistant Professor at WMG and co-author of the study, added: “Over the last few decades, road safety policies, infrastructure changes, and improved vehicle safety have significantly reduced road casualties. However, human error, which is often a result of aggressive driving, remains a leading cause of crashes. To make driving safer, our research focuses on methods for understanding the state of the driver, to identify risky driving behaviours, through the use of driver monitoring systems (DMS). This will enable the driver to be alerted when they are at an increased risk of an accident and allow the vehicle to deploy calming methods, such as altering the cabin noise level, playing relaxing music, or ultimately reducing the speed of the vehicle.”

Detective Chief Superintendent Andy Cox, NPCC lead for fatal crash investigation and OCU Commander at the Metropolitan Police, added: ‘In the UK, on average between four-five people die every single day in a road crash. This widespread devastation is predominantly caused by dangerous and reckless drivers. Having met many bereaved families who live with the lifelong heartache of prematurely losing a loved one in such a violent manner, I recognise the need to instigate substantial change across the road safety sphere; which includes driving culture, standards and legislative options.

“Those drivers who choose to commit road crimes such as aggressive driving, intimidating other sensible and safe road users – should recognise the risk they pose to themselves and others, and frankly the law should remember that a driving licence is assigned after a person demonstrates themselves to be safe and earns the right to drive. We should seek to maintain high standards and ensure the system sees the right to drive as a privilege rather than an entitlement. Currently I think the balance favours the individual rather than the law abiding collective.”

Read the full paper here.

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University of Warwick press office contact:

Annie Slinn
Communications Officer | Press & Media Relations | Email: annie.slinn@warwick.ac.uk

• OXECO and WMG at the University of Warwick will conduct a 15-month research programme into lithium-ion battery coatings
• Research is expected to advance next generation active materials and coating foils used to create electrodes
• The partnership aims to improve lithium-ion battery performance, longevity, and manufacturing

OXECO, a spin-out of the University of Oxford, has partnered with WMG at the University of Warwick, for a 15-month collaboration on lithium-ion battery technology. The partnership aims to advance the lithium-ion battery industry by leveraging WMG’s research on battery cell development and optimisation, alongside OXECO’s unique technology platform.

The research programme aims to enhance the performance, longevity, and ease of manufacturing of lithium-ion batteries by focusing on the preparation of active materials and coating foils used to create electrodes.

The programme is expected to yield transformative results in the improvement of current lithium-ion batteries and be a significant step towards the development of more efficient, reliable, and sustainable energy storage solutions.

This partnership will further OXECO’s aim to leverage innovative surface chemistry to accelerate our net-zero future. Jon-Paul Griffiths, founder and Chief Technology Officer at OXECO, commented that: “This is a remarkable opportunity to help steer the progress of battery technology - a crucial industry for the realisation of a sustainable energy economy. WMG has exceptional proficiency and credibility in battery research, coupled with the ability to manufacture from bench to pilot scale.

"This marks the initial phase of our efforts towards the integration of ONTO™ chemistry into lithium-ion batteries, and we are also delving into other domains of our chemistry for diverse applications in batteries, such as separator membranes. Our team is dedicated to forging a path towards cutting-edge technological advancements that will shape the future of energy storage solutions.”

WMG has an international reputation for working successfully with industry, with a history of partnering with pioneering entities, including Lotus, Aston Martin, JLR, BAE Systems, IBM, and Plug and Play, as well as the latest technology innovators.

Dr Mark Copley, Chief Engineer in WMG's Electrochemical Materials and Manufacturing team, concluded: “We are excited to be partnering with OXECO. This collaboration will draw on the University’s extensive expertise in battery technologies and OXECO’s chemistry to improve battery performance and longevity and help the global transition to sustainable power solutions through innovative research and training.”

About OXECO

OXECO is a chemistry technology company that designs, develops, and manufactures thin coatings and materials for the transport and clean technology sectors. The company’s core innovative technology controls the way that surfaces behave using cutting-edge carbene chemistry. This technology was born in the University of Oxford’s Department of Chemistry and developed over more than two decades.

www.oxeco.co.uk

Researchers in the UK and Ukraine are teaming up to develop artificial intelligence (AI) that will help treat those wounded by shrapnel.

Scientists at WMG at the University of Warwick and the Kharkiv National University of Radio Electronics (NURE) in Ukraine are developing AI software that will help medics understand which patients require immediate treatment, due to life-threatening wounds that might not be obvious with the naked eye. The state-of-the-art technology enables users to feed data from a CT scan to a computer programme, which will help medics make quick decisions on which of the injured require most immediate treatment.

The project is one of 33 being discussed at the House of Lords this evening, to mark the one-year anniversary of the Twinning initiative – an institution-to-institution collaboration model which allows universities around the world to support their Ukrainian counterparts in real, concrete ways. It is funded by a £5m grant from Research England, administered by Universities UK International (UUKi).

Professor Mark Williams, WMG at the University of Warwick, said: “A huge problem for medics dealing with many severely injured people at the same time is the rapid identification of life-threatening injuries so they can prioritise who needs emergency surgery soonest. This is why we’re developing software with the team in Kharkiv to help address this issue. As well as being useful in other emergency situations such as earthquakes, the research is also applicable to doctors in trauma wards – already stretched by pressures experienced by the NHS – who need to triage patients quickly.

“For WMG’s part of the project, we will be creating phantom models using 3D imaging – replicas of human anatomy and shrapnel wounds. These will act as ‘test objects’, which experts in computer science can use to calibrate their technology and AI programme.

“It is very exciting to be able to bring our expertise in Additive Manufacture at WMG to deliver a rapid solution to such an important humane need, allowing us to truly exploit the incredible advantages in speed of response and material complexity offered by this technology.”

Anastasiya Chupryna, coordinator of Radio Electronics-Warwick Allied Research and Development (REWARD) project at NURE said: “We would like to thank our partner Warwick University for supporting us in joint research activities. Within this project NURE and Warwick University will be able to solve extremely important problems. We believe that practical results of these projects will demonstrate significant impact and innovation solutions for society.”

WMG is considered the leading international role model for successful collaboration between academia and the public and private sectors by successive UK Governments. The WMG specific research is funded by a £179k grant from UUKi.

More here https://www.ukri.org/news/research-england-invests-in-uk-ukraine-university-twinning-scheme/

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University of Warwick press office contact:

Annie Slinn

Communications Officer | Press & Media Relations |

Email: annie.slinn@warwick.ac.uk

New research has shown that understanding how oxygen participates in energy storage is critical for developing higher energy density batteries, in a new paper published by experts at WMG, at the University of Warwick.

Using advanced X-ray techniques, researchers at WMG, together with the Faraday Institution's FutureCat consortium, have obtained new insights into the oxygen redox activity in conventional ni-rich cathodes, which will help to deliver improved electric vehicle performance.

Range anxiety is a key concern of many potential EV buyers, but range is steadily improving as battery technology and research evolves. The Faraday Institution’s Next Generation Lithium-Ion Cathode Materials project, FutureCat, aims to develop understanding of existing and newly discovered cathode chemistries to deliver improved EV performance, whilst considering sustainability.

Professor Louis Piper, from WMG at the University of Warwick, who led the research explained: “Transitioning to electrification requires integrating advanced materials science into battery processing to develop cheaper, safer, faster and better batteries, which is the focus of our research.”

The battery field is moving to increasing nickel contents in cathodes to meet the Government’s stringent EV 2030+ targets. These roadmaps assume successful strategies in material development to allow cathodes like W-LNO to operate at high voltages without degrading. This work provides the platform towards realising that goal by better understand the redox mechanisms (i.e., the reactions that enable charging/discharging the battery) at high voltage operation.

The study employed advanced x-ray characterisation techniques at the Diamond Light Source in Oxford and at WMG. The team at WMG utilised novel in-house x-ray absorption spectroscopy which enabled researchers to look at the electrode redox process of the battery cathodes after careful disassembly. Researchers were surprised to find that the oxidised oxygen species had the same characteristics as another group of Li-ion battery cathodes, Li-excess transition metal oxides. Reconciling how the same oxidised oxygen environment exists in both conventional and Li-excess cathodes is critical for unlocking how to develop the next generation of cathodes.

Professor Piper adds: “This work highlights how large-scale collaborative fundamental studies are needed even for supposedly ‘known’ systems.”

WMG will be continuing with further studies in this field, supported by the Faraday Institution, for the benefit of cathode battery manufacturers.

A link to the published article can be found here:

https://journals.aps.org/prxenergy/pdf/10.1103/PRXEnergy.2.013005

A new report led by academics at WMG at the University of Warwick, proposes a ground-breaking safety assurance framework that has the potential to be applied across automated transport modes.

The new report is the result of Warwick’s extensive safety research which has undergone 12 months of evolution, development and validation with key stakeholders across the transport domains of land, sea and air.

Over the past year, 35 organisations in industry, academia, government and regulation from the UK and internationally have contributed to the discussions which have been captured in the report. The report encourages Government policy to tackle similar challenges all three domains face to realise the safe introduction of automated transport systems, in a joined-up manner.

The Cross Domain Safety Report highlights the economic potential of the global automated transport ecosystem, which is projected to reach over £750 billion by 2035, with a UK market share of approximately 6% representing £42 billion and creating up to 38,000 new jobs.

When it comes to safety assurance of automated transport systems, the report suggests the need to not only establish the safety level of automated transport, but also to communicate the safety level to all stakeholders (society, regulators, policymakers, developers etc).

Communicating safety level is key as one of the main obstacles to the safe introduction and consumer acceptance of automated transport are safety and trust, according to this new research. The report contains a set of key recommendations which include standardised definitions, new processes for virtual test environments, a new scalable and manageable safety assurance framework, and the key role of independent organisations.

The report highlights that whilst there are differences between the safety assurance processes of autonomous ships, aircraft or vehicles there are also large elements of crossover. This can then be leveraged by governments, developers and manufacturers by aligning safety artifacts across the different types of transport, allowing for greater safety and consumer acceptance.

Ian Stewart MP, Chair of the Commons Transport Select Committee said: “It’s important that we look ahead and horizon scan at emerging technologies… We’ve got to look ahead to make sure the regulations are in place.

“It’s really interesting that this conference looked at these issues holistically because it’s very easy in the world of transport to look at each mode as if it existed in isolation, but there will be cross cutting issues”.

Professor Siddartha Khastgir, Head of Verification and Validation at WMG, University of Warwick, commented: “Safety of automated systems needs to be pre-competitive. At WMG, we are extremely grateful to all the contributors to the report who have come on this journey with us over the past 12 months.

"Capturing the collective intellectual output of the group, we have demonstrated in the report on cross domain safety assurance across land, air and marine, that there are a lot of synergies in the approaches across the transport domains. At the same time, there are certain aspects that will be very specific to the domains that should be tackled individually.”

The full report can be read here.

WMG, at the University of Warwick, and Conigital, have been awarded a share of £81 million in joint UK government and industry support to develop self-driving transport technology.

WMG is part of a consortium, led by Conigital, including the NEC Birmingham, Direct Line Group, Coventry City Council, Solihull Metropolitan Borough Council, Coventry University, dRisk, IPG Automotive and West Midlands Combined Authority.

The project entitled Multi-Area Connected Automated Mobility (MACAM) has been awarded a total of £16.6 million by the Centre for Connected and Autonomous Vehicles (CCAV), to establish a remote driving control hub, to oversee self-driving vehicles operating in Solihull and Coventry.

To make self-driving vehicle operations commercially viable, and offset current technology and driver costs, they must operate as efficiently as possible. This project therefore proposes a multi-area, multi-application self-driving operation, underpinned by Conigital’s 5G-based, central, Remote Monitoring Teleoperation (RMTO) system.

A mixed fleet of 13 self-driving vehicles will be moving passengers and light freight (such as mail and parcels for delivery) between Birmingham International Rail Station and Birmingham Business Park, and between Coventry railway station and Coventry University campus. These routes have a known, current, need for alternative transport and offer an ideal platform from which to develop commercial self-driving solutions.

New mobility technology and services will lead to safer, greener and more efficient transportation for both people and goods. MACAM will build on the foundations set by other projects including the WMG-led Midlands Future Mobility consortium.

Midlands Future Mobility is installing infrastructure on 200+ miles of West Midland’s roads to enable trials of Connected and Automated Mobility (CAM) solutions. This includes CCTV, weather stations, communications units, and highly accurate GPS coverage. The technology developed on the route will make UK roads safer and allow for more predictable goods delivery and journey times.

Transport Secretary Mark Harper said: “Self-driving vehicles including buses will positively transform people’s everyday lives – making it easier to get around, access vital services and improve regional connectivity.

“We’re supporting and investing in the safe rollout of this incredible technology to help maximise its full potential, while also creating skilled jobs and boosting growth in this important sector.”

WMG’s expertise on MACAM focuses specifically on the safety of the self-driving vehicles, as David Evans, Lead Engineer at WMG, University of Warwick explains: “Researchers and engineers at WMG will be providing trial support and undertaking related research in line with industry standards and best practice, required for the operator(s) to conduct the automated vehicle deployments safely and securely.”

Director of Intelligent Vehicles Research at WMG, University of Warwick, Professor Mehrdad Dianati, adds: “We have seen remarkable progress in Connected and Automated/Autonomous Mobility Technologies in recent years. It is paramount to pave the way for commercialising these technologies, particularly in the promising near future application areas such as the ones the MACAM consortium aims for. We are excited to be a part of this journey to transfer the knowledge we have developed through our fundamental research to help this unique consortium of UK companies, universities and local authorities to create new economic development opportunities for the region and the country.”

Don Dhaliwal, CEO of Conigital commented: “We are delighted to strengthen our links with WMG and other partners to accelerate a joint vision of Autonomous, Connected, Electric & Shared (ACES) fleets to address cities and businesses needs to Go Zero, Zero Accidents, Zero Emissions and Zero Congestion whilst creating new jobs via delivery of sustainable, accessible commercial CAM (Connected Autonomous Mobility) services.”

The methodologies and outcomes generated by the MACAM project will directly benefit teaching, research, and further collaboration with industry at WMG, developing future UK expertise and capability.

Read more about WMG’s Intelligent Vehicles research here and Conigital here

Read more about WMG’s MSc Smart, Connected and Autonomous Vehicles (SCAV) here.

Read more about the latest Centre for Connected and Autonomous Vehicles (CCAV) funded self-driving projects here.

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Notes to Editors

The government is awarding almost £42 million to seven projects through the Centre for Connected and Autonomous Vehicles (CCAV) Commercialising Connected and Automated Mobility (CAM) competition. Industry consortia will match the public grant to around £81 million and will be expected to demonstrate a sustainable commercial service by 2025.

The Multi-Area Connected Automated Mobility project is part of CCAV’s Commercialising CAM Deployments Competition (CCAMD).

The Commercialising CAM programme is funded by the Centre for Connected and Automated Vehicles, a joint unit between the Department for Transport and the Department for Business and Trade and delivered in partnership with Innovate UK and Zenzic.

The £40m CCAMD competition was launched in May 2022 to support the delivery of early commercialisable Connected and Automated Mobility Services and is part of the Government’s vision for self-driving vehicles. Connected and automated mobility 2025: realising the benefits of self-driving vehicles.

Multi-Area Connected Automated Mobility– Conigital
£8.3 million awarded by government, matched by industry to a total £15.2 million. This project looks to establish a self-driving vehicle operation around various parts of the West Midlands, underpinned by a centralised, Remote Monitoring Teleoperation (RMTO) centre. The RMTO centre will be where the project’s self-driving vehicles are monitored and (when required) controlled from, using 5G connectivity. The project aims to make self-driving vehicle operations commercially viable, and offset current technology and driver costs.