5g

SD-407 defines key 5G-FMC models—Convergence and Interworking—enabling seamless integration of wireline and wireless access. Here’s how they shape future networks.

Discover how 5G-FMC standardization integrates fixed and mobile networks, enabling seamless connectivity, network slicing, and QoS for the 5G era.

Discover how Wireline Access in 5G, powered by the 5G Residential Gateway (5G RG), enables seamless connectivity for IoT, TV, and broadband devices through a converged 5G core.

Fixed-Mobile Convergence (FMC) in 5G unifies wireless and wireline access into a single architecture. Learn how FMC enables seamless connectivity, integration, and coexistence.

Radio network planning ensures optimized deployment, capacity, and coverage for 5G networks. Learn how dense deployments, system constraints, and optimum dimensioning shape next-generation connectivity.

Explore how the CU-DU split transforms 4G RAN into 5G RAN, enabling flexibility, scalability, and cloud-native deployments for next-gen telecom networks.

Explore the evolution of 5G network architecture from NSA to NSA/SA convergence and finally to SA, enabling seamless multi-service deployment and future-ready telecom networks.

Explore the 5G PCF (Policy Control Function) architecture, including external endpoints, processing layer, storage layer, and configuration components.

Learn how 5G dual connectivity topology enables devices to connect to multiple gNBs simultaneously, improving throughput, reliability, and seamless mobility.

Discover the 5G high-level architecture, including data centers, CESC clusters, RAN slicing, and VNFs. Learn how 5G infrastructure ensures scalability, flexibility, and ultra-low latency.