5g

Explore 5G capabilities including eMBB, mIoT, and mission-critical services. Learn how ultra-low latency, high speeds, and IoT connectivity are shaping telecom.

Discover how O-RAN and 3GPP split functions and interfaces in 5G networks. Learn about E1, F1, A1, E2, RIC, SMO, and how O-RAN enhances interoperability.

The gNB logical architecture in 3GPP splits 5G base stations into CU and DU units for scalability, flexibility, and performance. Here’s a deep dive for telecom professionals.

5G redefines mobile networks with three pillars: eMBB, URLLC, and mMTC. Learn how 5G achieves ultra-fast speeds, low latency, and massive IoT connectivity.

Understand how modulation, carrier aggregation, and MIMO impact uplink data rates in mobile networks, and why distance to the cell center is the key factor.

Learn how modulation, bandwidth, and MIMO influence downlink data rates in 5G networks, and why distance from the cell center determines achievable speeds.

Discover how ONAP vCPE architecture transforms customer premises equipment into virtualized, cloud-native solutions, enabling automation, scalability, and cost savings.

Explore ONAP’s microservices-based architecture for 5G automation. Learn how ONAP manages design-time, run-time, and orchestration with cloud-native precision.

Understand ONAP End-to-End 5G service architecture with RAN, Core, and Cloud elements. Explore orchestration, automation, and management for next-gen networks.

Discover how ONAP Closed Loop automation transforms telecom networks with real-time monitoring, policy-driven orchestration, and self-healing intelligence.