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The impending introduction of 5G is set to revolutionise the way we interact with and use technology. But how do we prepare for the world of 5G? And how can SMEs and businesses get the most out of it? The research team at 探花直播鈥檚听Intelligent Systems and Networks Group are conducting ground-breaking research that ensures we capitalise on 5G鈥檚 limitless opportunities.
Why we need 5G
With the widespread use of smartphones and emergence of Internet of Things (IoT) devices, 4G鈥檚 limitations have been laid bare. In order to cope with demand, and introduce a whole new way of connecting with networks and devices, 5G will be firmly established in the next two years and will:
- Be approximately 100 times faster than 4G, improving productivity and work rate;
- Offer ultra-reliability, which will prove invaluable for the development and implementation of autonomous cars, digital health and digital construction;
- Provide connectivity to millions of devices in a square kilometre area.
West Midlands will be home of the first large scale testbed for 5G in the UK, and behind the scenes, 探花直播 has been conducting valuable underpinning research.听
Successfully managing network traffic
The team working in the University鈥檚 Intelligent Systems and Networks (ISN) Group, part of the School of Computing and Digital Technology, are conducting research that will prove essential once 5G is introduced, as well as providing a solid foundation for future analysis.
For example, with the applications of IoT set to multiply,听Abida Perveen听is assessing traffic flow management within the 5G architecture. 鈥淚n the future, there will be many devices connected to 5G, which means there will be a traffic load issue. Some applications will have priority over others 鈥 for example, a message relaying critical care issues needs to be fast-tracked above something more administrative. My research will investigate managing traffic in these kinds of scenarios. We also need to ensure that only the necessary amount of radio resources is allocated to users. We will do this through networking slicing.
鈥淭here are benefits of my research to small businesses. Rather than a business purchasing and using a network that doesn鈥檛 need to be fully utilised all of the time, they could hire it for a particular time of day in order to successfully manage demand. By allocating this network to busy periods only, SMEs and businesses are reducing cost.鈥
Keeping everything connected
Fellow postgraduate researcher听Alaaallah Elsabaa听is looking into ensuring 5G devices and sensors remain connected to the network seamlessly, as well as being able to stay powered. 鈥淲ith 4G, if you charge a mobile phone and keep everything connected, you鈥檒l run out of battery by the end of the day. With 5G, there鈥檒l be more data to share and there are some things we won鈥檛 be able to turn off in order to get the service provision. I am looking into how we ensure the base station helps devices to be connected by sending energy wirelessly if the battery power is lower than the expected threshold, but without compromising the data rate the user is getting on their mobile.
鈥淪ome sensors are quite remote, but if they stop communicating back due to the lack of energy, I鈥檓 intending to transmit energy back to them to charge their batteries. There are challenges, but we鈥檙e devising a robust framework and will then assess how far the receiver can be from the base station, without compromising the quality.
鈥淏usinesses that are interested in collecting data, or applications dependent on remotely located sensors, should be very interested in this research, especially due to the听assurance of听sensors or devices being able to operate remotely听without requiring costly maintenance.鈥
Better data efficiency
Once 5G is fully established, a significant amount of devices will be communicating to the base station.听Shantanu Islam听is looking into ensuring there will be better data efficiency. 鈥淥ne of the biggest problems of having so many devices close to one another is interference. When we have such challenges and we are not able to decode them, we put some redundant components into a certain form which is known to the transmitter and receiver, which is called channel coding.
鈥淔or example, if you have two completely different forms of traffic but the same server is serving you, there is no point in having two different channels connected at the same time. If you can facilitate an encoder, we can mould them into one channel, so that will take overload from the network and release resources so that we can have more devices served.
鈥淐urrently, our mobile tariff depends on how much data you鈥檙e accessing, as well as how much you鈥檙e overloading the network. If we can merge multiple channel access into听single channels听for every user, then we can reduce the cost of that link.鈥
Reducing costs for businesses
Oladipupo Adekoya鈥檚 research involves controller placement. 鈥淥ur pocket network has been decoupled into a controlling plane and data plane, and in a wider network it becomes a problem on how to place these within a set of nodes to ensure expected network performance and connectivity cost.
鈥淢ost of the time, whenever we have wireless network access, we have a fixed switch controller. Everything is different in 5G. Instead of being solely dependent on hardware devices, everything is going to be regulated with a software-defined controller. That way, it is possible to flexibly optimise, manage, configure and secure the network. I鈥檓 researching where I can place that controller in order to reduce propagation, latency and more.
鈥淚鈥檓 trying to reduce connectivity cost for 5G user communities, especially for businesses. We currently have thousands of switches and routers, so what we can do is cluster them together and place a controller in a centralised area that can regulate thousands of traffic flows within the network. It will save businesses money as this will reduce expenditure of the network.鈥
These exciting, innovative projects not only showcase the talent of the University鈥檚 research teams, but also how vital research behind 5G is already being carried out, ready to usher in 5G to the wider world.
