Chunghwa Telecom and Ericsson have unveiled an advanced 5G network slicing solution, enabling enterprises to activate customized network slices on demand. This innovation enhances network performance, flexibility, and efficiency for critical operations.
BT Group’s groundbreaking trial of 5G Standalone network slicing on the EE network in Belfast significantly optimized mobile payment systems during the bustling Christmas Market. This real-world application highlights BT’s 5G SA technology potential.
Verizon introduces free network slicing to consumers through Enhanced Video Calling. This innovative move, targeting iPhone users on 5G Ultra Wideband, promises superior video call quality on popular platforms.
Reliance Jio Infocomm has partnered with OnePlus to validate 5G network slicing at a new 5G lab in India. This innovative technique divides a single physical network into multiple virtual networks, enhancing the 5G experience.
Vodafone recently showcased the transformative potential of 5G network slicing at the Glastonbury Festival in Somerset, U.K. Partnering with EBC, a beverage vendor, Vodafone demonstrated how network slicing enhances payment transactions by providing real-time connectivity and reducing latency.
5G technology is quickly escalating into an exciting, innovative space, largely due to a process called network slicing. This technique enables a vast number of dynamic network slices, each with unique attributes defined by its user. Despite being in the primary stages, an array of business opportunities are on the horizon like gaming, vehicle-to-everything (V2X), IoT, and mobile edge computing, as the technology advances. Critical remote services, such as remote robotic surgeries requiring ultra-reliability over latency, become possible with robust and reliable 5G slices.
Samsung Electronics and KDDI today announced the companies have signed a Memorandum of Understanding (MOU) to form a 5G Global Network Slicing Alliance. Through this new alliance, the companies will work together to introduce an array of commercial 5G network slicing services and assess new business models based on this innovative technology.
As T-Mobile launches its 5G SA network slicing beta, it offers a unique window of opportunity to developers, aiming to improve video calling applications. With the rising demand for such apps in the remote work era, developers leveraging the tailored network slices could unlock applications showcasing faster speeds, decreased latency, and better reliability. As some experts express high hopes for the potential of network slicing, could this move revolutionize telecommunications amidst the surge in hybrid work?
Deutsche Telekom and Ericsson’s recent secure network slice proof of concept simplifies enterprise use with automated configuration and end-to-end orchestration, connecting smartphones seamlessly to private cloud services via 5G. This innovation could revolutionize the telecommunications industry by offering customizable, easy-to-understand connectivity solutions for businesses worldwide.
Network slicing has become a popular topic in telecoms discussions, particularly in relation to the benefits of 5G for industrial or business applications. It is believed to improve the reliability and performance of connectivity in situations where network congestion or mission-critical operations are at stake. With the rollout of 5G Standalone, network slicing is becoming an increasingly important aspect of B2B installations.
