Press Releases
WMG to help Jaguar Land Rover develop self-driving car that can ‘see’ around corners
WMG at the University of Warwick is to work with Jaguar Land Rover in a key part of a £4.7 million project called AutopleX which will develop vehicles that can ‘see’ around corners and through obstacles, enhancing the capability of self-driving cars.
Award-winning WMG research makes Ford cars lighter and more efficient
Ford cars could be more fuel efficient and environmentally friendly, thanks to a new lightweight rear suspension component, designed by the award-winning Innovate UK project Composite Lightweight Automotive Suspension System (CLASS), involving WMG at the University of Warwick.
WMG software powers next generation intelligent JCBs
Intelligent construction machines which are more fuel-efficient and environmentally friendly are set to enter the market, thanks to pioneering software developed by WMG, at the University of Warwick, and JCB.
WMG gives free access to tool for companies preparing for Industry 4 – enabling the next generation of manufacturing
WMG researchers, at the University of Warwick, have worked in conjunction with Crimson & Co and Pinsent Masons, to produce a free to access “Industry 4” readiness assessment tool. It is designed to provide a simple and intuitive way for companies to start to assess their readiness and future ambition to harness the potential of the new cyber-physical age
Research finds that UK companies that consider both direct and indirect reshoring of manufacturing gain best performance boosts
A new report launched today (27th September 2017) by researchers at WMG at the University of Warwick, and Reshoring UK, finds that UK companies that consider both direct and indirect reshoring of manufacturing gain best performance boosts and urges companies to consider both approaches when developing their future strategies.
Lightweight steel production breakthrough: brittle phases controlled
High-strength, lightweight steels can finally be processed on an industrial scale, thanks to a breakthrough in controlling undesired brittle stages from production - by WMG, University of Warwick.