CU/DU Virtualization and Open RAN Interfaces: Enabling Cloud-Native 5G Networks
Explore how CU/DU virtualization and Open RAN interfaces enable cloud-native, flexible, and cost-efficient 5G deployments.
Gaganpreet Singh
Understanding Disaggregated RAN (3GPP) Logical Architecture: Components, Interfaces & Functions
Explore the Disaggregated RAN (3GPP) logical architecture, breaking down CU/DU functions, interfaces, and 5G performance implications.
CU and DU Virtualization in Open RAN: Cloud-Native Infrastructure for Scalable 5G Networks
Discover how CU/DU virtualization, cloudification, and Open RAN interfaces revolutionize 5G network deployment with scalable, agile, and cost-effective architectures.
Disaggregated RAN Architecture in 5G: Understanding 3GPP Logical Split of CU and DU
The disaggregated 5G RAN splits control and user planes across CU and DU with standardized interfaces like F1-U, F1-C, and E1—unlocking flexibility and scalability.
AI and ML in 5G: Enhancing E2E Wireless Networks from Edge to Cloud
Machine Learning (ML) and Artificial Intelligence (AI) are revolutionizing every layer of E2E wireless networks—from radio access to subscriber management—enhancing 5G performance and efficiency.
Understanding Split Option 7-2x in O-RAN Fronthaul: Architecture, Functions, and Benefits
Split Option 7-2x in O-RAN divides the gNB functions between DU and RU for optimal efficiency, enabling scalable and vendor-agnostic 5G network deployment.
OFDMA Downlink Working Mode in Wi-Fi 6 and 5G: Resource Unit Allocation Explained
Explore how OFDMA Downlink mode allocates Resource Units (RUs) to multiple users simultaneously in Wi-Fi 6 and 5G, improving spectral efficiency and latency.
Broadcast Target Wake Time (TWT) Operation in Wi-Fi 6: Efficient Power Saving and Scheduling
Learn how Broadcast Target Wake Time (TWT) enhances Wi-Fi 6 performance by scheduling efficient sleep/wake cycles for multiple client devices, reducing power usage.
How OFDMA Works in Wi-Fi 6 and 5G: Resource Unit Allocation Explained
Explore how OFDMA enhances spectrum efficiency in Wi-Fi 6 and 5G by dividing system bandwidth into time-frequency Resource Units (RUs) for multiple users.
Understanding Primary Scanning Channels (PSC) in the 6 GHz Band for Wi-Fi 6E and Beyond
Learn how Primary Scanning Channels (PSC) in the 6 GHz band streamline device discovery in Wi-Fi 6E networks, enabling faster and more efficient connections.