5g

Discover how edge computing addresses the latency, bandwidth, autonomy, and privacy challenges of centralized cloud systems, empowering next-generation 5G applications.

Understand how Sounding Reference Signal (SRS) works in 5G NR. Learn its structure, purpose, resource mapping, and configuration parameters for efficient uplink channel estimation.

Learn what SCG Failure means in 5G Dual Connectivity. Explore its causes, detection, and recovery process between gNB and eNB, ensuring seamless 5G service continuity.

Explore the 3GPP 5G NR timeline from Release 15 to Release 16. Understand key milestones, features, and how 5G evolved from Non-Standalone to advanced standalone architecture.

Learn how NGAP (Next Generation Application Protocol) enables communication between the 5G gNB and AMF. Explore its functions, message flows, and role in 5G control plane signaling.

Explore how 5G RAN separates CU and DU functions through various split options. Learn about high-layer, low-layer, and cascade splits and their impact on performance, flexibility, and fronthaul requirements.

Learn how the 5G F1 interface connects the Central Unit (CU) and Distributed Unit (DU) for efficient control and user plane separation. Understand its structure, layers, and 3GPP standards.

Learn how LTE/5G Event A3 triggers when a neighbor cell’s signal becomes better than the serving cell by a defined offset. Understand trigger conditions, hysteresis, and time-to-trigger for optimized mobility management.

Event A2 triggers when the serving cell’s signal quality drops below a predefined threshold, prompting measurement reports for better mobility and handover management in LTE and 5G NR.

Learn how Event A2 in LTE and 5G detects when the serving cell’s RSRP drops below a set threshold, triggering neighbor measurements to maintain mobility and signal quality.