Ericsson, Far EasTone Telecommunications (FET), and OPPO have jointly announced the successful validation of performance-based 5G network slicing in Taiwan, marking a significant advancement in the deployment of differentiated mobile services. According to the article titled “Ericsson, FET and OPPO validate performance-based 5G slicing” published by Telecoms Tech News, the trial represents a notable step toward realizing the full commercial potential of 5G, particularly in enabling application-level service prioritization.
The validation utilized Ericsson’s Dynamic Network Slicing capabilities combined with OPPO’s 5G devices, centered on a real-world use case involving cloud gaming—a data- and latency-sensitive application. By leveraging 5G standalone (SA) architecture, the testing demonstrated the ability to allocate network resources dynamically according to specific application requirements in real time. This approach plays a pivotal role in delivering consistent and superior user experience, especially amid competing data traffic from other applications running concurrently on the same device.
FET, one of Taiwan’s largest telecom operators, provided the operational 5G SA network for the test. Using a smartphone powered by an OPPO-developed slicing technology and running on a MediaTek Dimensity chip, the trial illustrated how resources could be intelligently and dynamically allocated based on performance metrics rather than static criteria such as device or user class. The companies reported significant enhancements in latency and stability for gaming applications, with the gaming slice showing up to 26 percent lower latency and 30 percent improved jitter performance compared to the best-effort commercial slice.
This trial is particularly relevant as operators worldwide seek new business models and monetization strategies from 5G networks. Network slicing—especially when tied to application-level awareness—opens the door to service differentiation that legacy systems could not support. For end-users, it presents the promise of a more tailored, seamless digital experience. For operators and developers, it introduces a platform for premium services that can adjust quality of service dynamically based on application needs.
The collaboration also highlights the growing role of ecosystem partnerships in 5G evolution. Ericsson provided core and radio access network infrastructure, FET contributed operational expertise and network resources, and OPPO delivered user equipment integrated with slicing management capabilities. The trial’s success underscores the importance of tight integration across devices, networks, and cloud platforms.
Looking ahead, the implications of performance-based slicing are far-reaching, particularly in sectors like gaming, augmented reality, and industrial automation, where network performance is mission-critical. As operators refine their network slicing strategies, further validations such as this one could accelerate the commercial rollout of next-generation services that depend on granular quality of service guarantees.
The joint validation conducted by Ericsson, FET, and OPPO sets a precedent for 5G commercialization and may serve as a blueprint for operators seeking to unlock new revenue streams and strengthen user engagement through differentiated connectivity experiences.
