RF
5G Interfaces: Uu, NG-1U, and NG-1C Explained
Learn about the Uu, NG-1U, and NG-1C interfaces in 5G networks, their functions within the 5G RAN architecture, and their roles in data and control planes.
Terminology
Showing 20 posts (Page 4 of 163)
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5G KPIs: Key Performance Indicators Explained
Explore 5G Key Performance Indicators (KPIs) categorized under eMBB, URLLC, and mMTC, and understand the 5G performance requirements set by ITU.
5G MEC: Multi-Access Edge Computing Advantages
Explore the advantages of 5G MEC (Multi-Access Edge Computing) architecture and its benefits within 5G NR networks, including reduced latency and enhanced security.
5G MIB and SIB: Master and System Information Blocks Explained
Explore the contents and functions of 5G MIBs and SIBs as per Verizon and 3GPP standards. Learn how UEs acquire essential system information in 5G networks.
5G Network Reference Point Architecture: NG1 to NG15 Interfaces
Explore the 5G network architecture and its reference points (NG1-NG15), defining the interfaces between functional blocks in a 5G NR network.
5G Network Slicing: Advantages and Disadvantages
Explore the benefits and drawbacks of 5G network slicing, a key technology enabling customized network performance for diverse applications and services.
5G Network Slicing: Definition, Types, and Functions
Explore 5G network slicing: definition, types (vertical, horizontal, static, dynamic), functions, and its role in enabling diverse services and applications.
5G NR (New Radio) Wireless Technology: Features and Benefits
Explore 5G NR (New Radio) wireless technology, the global standard for 5G, offering high-speed, low-latency, and enhanced connectivity for diverse applications.
5G NR 3GPP Specification Matrix and Document References
A comprehensive matrix of 5G NR 3GPP specifications, listing key documents used in developing 5G New Radio User Equipment (UE) and Base Stations.
5G NR Deployment Scenarios: NSA, SA, Homogeneous, Heterogeneous
Explore 5G NR deployment scenarios: Non-Standalone (NSA), Standalone (SA), Homogeneous, and Heterogeneous modes. Understand their characteristics and differences.
5G NR Frequency Bands: FR1 and FR2 Explained
Explore the 5G NR frequency bands, focusing on FR1 (450-6000 MHz) and FR2 (24250-52600 MHz). Includes tables detailing band specifications and duplex modes like FDD and TDD.
5G NR Handover Types: Inter gNB and Intra-RAN
Explore 5G NR handover types, including inter gNB and intra RAN handover (C-Plane Handling) as defined in 3GPP TS 38.300.
5G NR Identifiers: UE and Network IDs Explained
Learn about the different identifiers used in 5G New Radio (NR) for user equipment (UE) and network infrastructure, crucial for connection management and mobility.
5G NR Network Nodes: AMF, UPF, SMF, PCF, UDM, DN, AUSF, AF functions
Explore the functions of 5G NR network nodes, including AMF, UPF, SMF, PCF, UDM, DN, AUSF, and AF, as defined in 3GPP specifications.
5G NR PRB Utilization and Resource Allocation
Explore PRB utilization and resource allocation efficiency in 5G NR, key metrics for managing radio resources and optimizing network performance. Learn how to achieve high data rates and low latency.
5G NR Security: Key Derivation and Termination Points
Explore 5G NR security basics including key derivation algorithms and security termination points for user data and signaling.
5G NR Spectral Efficiency vs. Energy Efficiency
Explore the key differences between 5G NR spectral and energy efficiency, including formulas and explanations based on the 3GPP standard.
5G NR UE RRC States: IDLE, INACTIVE, CONNECTED Explained
Learn about the three RRC states in 5G NR: RRC_IDLE, RRC_INACTIVE, and RRC_CONNECTED. Understand the functions of the RRC layer and the actions performed by the UE in each state.
5G NTN : Benefits, Challenges and Use cases
Understand 5G NTN and explore its benefits, challenges and use cases.
5G OpenRAN: Advantages and Disadvantages
Explore the benefits and drawbacks of 5G OpenRAN, including reduced costs, increased flexibility, and potential performance limitations.
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