5g

Discover how CU/DU split architecture optimizes inter-gNB handover in 5G networks, minimizing signaling, avoiding RRC/PDCP anchor changes, and eliminating traffic forwarding.

Explore how independent scaling of Control Plane (CP) and User Plane (UP) in 5G enables network optimization for diverse services like mMTC and FWA.

Discover how flexible CU-UP deployment enables efficient 5G service delivery by placing user plane functions at central or local sites for eMBB and URLLC needs.

Understand the three key SON architecture types—Centralized, Distributed, and Hybrid—and how they impact automation, latency, and efficiency in telecom networks.

Cloud RAN with virtualization improves resource efficiency by dynamically pooling processing power across rural and urban sites—unlike static conventional DUs.

Learn how Cloud RAN with virtualization enhances resource efficiency through pooling compared to traditional DUs in Centralized RAN deployments.

Explore how SON architecture, integrated with OAM, EMS, and eNodeBs, enables intelligent LTE network optimization, automation, and real-time performance tuning.

Learn how Physical Cell Identity (PCI) collisions affect LTE network performance. Understand causes, consequences, and key strategies for resolving PCI conflicts.

PCI conflicts can severely impact handover performance and degrade user experience in LTE and 5G networks. Learn how to detect, resolve, and prevent PCI collisions.

Explore how LTE enables seamless mobility through X2 and S1 interface-based handovers, ensuring uninterrupted service as users move across cell boundaries.