Bristol to debut world's first 5G end-to-end network at Mobile World Congress
Press release issued: 26 February 2018
The University of Bristol, University of Surrey and King's College London will this week [26 February – 1 March] debut the world's first end-to-end 5G network at Mobile World Congress in Barcelona.
One of the ways the universities will demonstrate their cutting-edge 5G technology at Mobile World Congress is '5G for Sports', a 5G-connected robotic football player. Visitors are invited to remotely control a player, by kicking a football on one of the 5GUK stands, the movement of which will be instantly replicated by a robotic-foot located on a separate stand in a different exhibition hall, as it kicks another football into a net. Visitors will see the results of their 'kick' through monitors located on both stands. This real-time immersive experience is combined with ultra-reliable and low latency communications, thanks to the ultrafast mobile connectivity of the new 5G technology. Visitors will also see a comparison between 4G and 5G in transmission of ultra high definition video using an intelligent mobile edge computing technique.
The technology was made possible thanks to a £16 million funding from Government, the investment of which will ensure that the UK continues to be world-class in 5G innovation and development through commercial exploitation, potentially adding up to £173 billion to the economy by 2030.
As part of the Government's Testbeds and Trials Programme, the University of Surrey's 5G Innovation Centre has been leading on the development of powerful, fast and stable 5G radio technology and mobile networks. King's College London has pioneered technologies to enable ultra-low latency 5G tactile internet developments to underpin the emerging Internet of Skills, which will change how people learn, train and share knowledge and experience. The promise of unprecedented speeds, and ultra-low latency, will deliver the power of touch, or real-time haptic feedback, across the mobile internet. The University of Bristol has been working on Smart City and Smart Campus 5G deployment in the city of Bristol, targeting real-life demonstrations of 5G services in urban environments.
This technology will allow experts - from skilled surgeons to professional musicians - to share in real-time their physical expertise with a global audience. Surgeons will be able to physically guide medical students on other continents. Musicians will be able to transmit their ‘muscle memory’ wirelessly to exoskeletons worn by beginners – demonstrating the movements required to perform the most complex compositions, without needing to be in the same room.
Professor Dimitra Simeonidou, Director of the Smart Internet Lab at University of Bristol and Chief Scientific Officer for Bristol Is Open commented: "The UK is now in a unique position to showcase what 5G can achieve thanks to recent government investment. Our testbed and trials programme has progressed to the stage where we can now provide meaningful demonstrations of full 5G network solutions. Our pioneering joint research programme will pave the way for applications that could transform our lives, ranging across transport, health, education, entertainment. We know that 5G will deliver the ultra-reliable and ultra-fast networks of the future – our job is now to demonstrate benefits, develop skills and support a rapidly developing 5G commercial ecosystem in the UK."
Mischa Dohler, Professor of Wireless Communications and Head of the Centre for Telecommunications Research at King's College London, said: "We are immensely proud to be part of this programme and to have achieved the UK’s first 5G Massive MIMO test and the world’s first fully softwarized end-to-end call. It is the product of years' long engagement with large industries, and testimony to King's incredible research and innovation capabilities. To be the first in the UK to showcase live a technology which will fundamentally change our society for the better, is very humbling. We are very proud that King’s and our ecosystem has become a global go-to-place for industries regarding 5G innovation, design and delivery.
"This demonstration showcases 'synchronised reality' – a term coined by researchers at King's – where the physical environment, virtual reality, and mental stimulation are combined. This synchronisation of the real, virtual, and mental arenas is far beyond virtual reality and augmented reality."
Professor Rahim Tafazolli, Director and Founder of the 5G Innovation Centre at the University of Surrey and the 5GUK project leader, said: "We are excited to be showing what our 5G technology can do at Mobile World Congress. This is a proud moment for my team and the University of Surrey as we will be able to show just a taste of what is possible thanks to the power of 5G.
"Earlier this year 5GIC successfully demonstrated Holoportation and Transport on Demand at the Mobile Broadband Forum between London ExCel and the University of Surrey campus a distance of more than 50km. These demonstrated both high bandwidth and guaranteed low latency aspects of 5G. This was the world’s first end to end 5G tests using fully virtualised core with mobile broadband and ultra-low latency communications.
"5G is not only about mobile communication, broadband communication and increasing the speed by factor of 10, compared to 4G – another important aspect is automation. This means automating future factories, future hospitals, future cities and so much more – 5G will have a truly transformational impact on all of our daily lives."
Mobile World Congress is the largest exhibition for the mobile industry and a conference featuring prominent executives representing mobile operators, device manufacturers, technology providers, vendors and content owners from across the world.
About the Smart Internet Lab
The Smart Internet Lab at the University of Bristol, is a hub for internet research which addresses grand societal and industrial challenges. With more than 200 experts and advanced laboratory infrastructure, we perform cutting edge research on optical and wireless communications. We offer a unique holistic approach to hardware and software co-design solving critical problems in the global internet evolution. Our innovative research on end-to-end, wired-wireless network design and optimization is pushing the boundaries of digital living and communications. Our exceptional track record for performing 5G research with specific focus on fibre and 5G convergence is evidenced by significant funding from the UK Government, EU and industry (e.g. EPSRC TOUCAN, INITIATE, NDFIS, EU: 5G-Xhaul, 5GPICTURE, mmMAGIC, FUTEBOL, FLAME and 5GinFIRE, DCMS UK Government).