Ericsson and Taiwanese operator, Far EasTone, have announced that together they have completed the world’s first proof of concept for simultaneously connecting multiple network slices per device running on Android 12 commercial release. The trial, carried out on Far EasTone’s 5G standalone (SA) infrastructure built on Ericsson’s radio access network and cloud-native Core network, successfully demonstrated the 5G user equipment slicing policy feature (User Equipment Route Selection Policy, or URSP) on multiple Android devices. This is an important breakthrough in network slicing capabilities on a 5G standalone network and paves the way for further ecosystem development in this important area.
“FET is pushing forward with 5G deployment to enable more applications with Big Data, AI and IoT. We have collaborated with Ericsson for years and developed various innovative applications across multiple generations of mobile communications technologies. We are pleased to achieve the new milestone with Ericsson on an Android-12 device and successfully completed the first multiple network slicing trial on 5G SA architecture in the world. It not only demonstrated our technical leadership in 5G, but also showcased our continuous effort in driving 5G industry development to provide better 5G application service quality for both enterprises and consumers,” said Chee Ching, President of Far EasTone Telecommunications.
5G user equipment slicing policy features
With more 5G networks worldwide evolving to standalone architecture, end-to-end network slicing plays a key role in enabling new services for end users, with which multiple virtual 5G networks are created on top of one physical network. The 5G trial, in collaboration with Far EasTone, Ericsson and Android, went even further in network slicing capabilities by introducing and demonstrating 5G user equipment slicing policy features that allow devices to simultaneously operate on dynamic policy control and selection between multiple 5G network slices. This enables the steering of applications and services with specific requirements to defined slices without switching devices.
Multiple slices allow devices to have multiple profiles to secure different levels of experience, security, and privacy requirements, based on the needs of the different applications and in correspondence with the user profile. With URSP features, employers can customise the work profile with increased security and enable better use of RAN Slicing with QoS so that enterprise-related apps can work even during network congestion.
Reduced risk of hacking
Some security-sensitive apps can also benefit from different routing mechanisms of the traffic enabled by URSP. For instance, a mobile banking app would not need to send its traffic to the internet and then to the app server as it does today. Instead, it could go straight to the app server and avoid the routing through internet. With the shortest route by connecting to a defined slice, users could reduce the risk of being attacked by hackers.
“This is another thought leadership proof point in our industry, as we proudly collaborate with our long-term partner with FarEasTone and Android to achieve this critical milestone in the network evolution to 5G standalone. The continuous development of 5G standalone, end-to-end network slicing with URSP capability has impacts beyond technology benefits. From a user perspective, it unlocks significant potential of 5G, allowing our partner FarEasTone to deliver tailored services with tailored plans, not only for individual users, but all the way to an application level. Through simplified service creation we can reduce time-to-market, and together make a wide variety of unimaginable applications possible for both consumers and enterprises in Taiwan,” said Chafic Nassif, President of Ericsson Taiwan.