6G Network Architecture & Interfaces : Key Elements Explained

Introduction : The evolution from 5G to 6G is expected to bring ultra high speed communication, AI driven automation and seamless global connectivity. 6G will integrate terahertz (THz) spectrum, reconfigurable intelligent surfaces (RIS), non terrestrial networks (NTN) and quantum secure communication to enable futuristic applications. This tutorial explores the key architectural components of 6G and the interfaces that connect its network elements, based on early research and 3GPP advancements.

The 6G wireless network architecture is expected to be a highly integrated, AI driven system that builds upon 5G while introducing terahertz (THz) communication, intelligent surfaces, quantum communication and edge AI for ultra reliable, low latency and high capacity services.

6G Architecture Components

The 6G architecture consists of multiple layers and elements that ensure seamless connectivity, ultra low latency and high data rates. It consists of User Equipment, Access Network, Core Network, Edge & Cloud Computing and Non-Terrestrial Networks. Let us understand functions of each of these components.

A. User Equipment (UE) :
Function: Connects to the network via a radio interface and interacts with intelligent edge computing for real time processing.
Examples : Smartphones, AR/VR headsets, IoT devices, autonomous vehicles, and industrial robots. B. Access Network (AN) :
Function: Handles wireless communication with UEs, optimizing signal transmission through reconfigurable intelligent surfaces (RIS) and AI-based beamforming.
Examples : Terahertz (THz) base stations, intelligent reflecting surfaces (IRS) and hybrid satellite terrestrial communication.
C. Core Network (CN) :
Functions:
• Manages user authentication, mobility, and resource allocation.
• Integrates quantum security mechanisms.
• Supports network slicing for diverse applications.
Examples : AI-driven core with software defined networking (SDN) and network function virtualization (NFV).
D. Edge and Cloud Computing :
Function:
• Processes data near the UE, reducing latency.
• Enhances performance with AI based predictive analytics.
• Supports real time processing for autonomous systems.
Examples : AI-driven edge nodes and cloud computing infrastructure.
E. Non Terrestrial Networks (NTN) :
Function: Provides global coverage, especially in remote areas, using hybrid satellite-terrestrial communication. Examples : LEO satellites, drones (UAVs), and high altitude platforms (HAPs).

Interfaces Between 6G Network Elements

To enable seamless communication, 6G employs multiple interfaces between its network elements. The interfaces between 6G elements include Uu, Xn, N2, N3, N4, F1, N6 and NTN. Let us learn functions of each in the table below.

6G interface Location Function
N1 interface Between UE to 6G core Used as signaling interface for authentication and mobility
N2 Interface Between Access Network and Core Network Transfers control signals between Next Generation NodeB (gNB) and the AI driven 6G core network for authentication, mobility management and resource allocation.
N3 Interface Between Access Network and User Plane Function in Core Manages user data traffic efficiently, enabling high speed and ultra low latency communication.
N4 Interface Between User Plane Function and Network Functions in Core Handles routing and data forwarding between edge computing nodes and cloud-based network functions.
N6 interface Between UPF and external networks such as internet, cloud servers etc. Used for data transmission, Connects 6G core to external services, cloud computing and AI based decision making engines.
N9 interface Between multiple UPFs Used for inter node communication.
Uu Interface Between UE and Access Network Wireless connection between UE and base stations using THz communication, AI driven beamforming and RIS assisted reflections.
F1 Interface Between Base Stations & Distributed Units Supports disaggregated radio access networks (RANs), improving scalability and AI driven network optimization.
E1 interface Connects the RAN Control Plane (CP) with User Plane (UP).
Xn Interface Between Base Stations Facilitates coordination between base stations for seamless handovers, spectrum sharing and ultra reliable low latency communication (URLLC).
NG Connects 6G-RAN to 6G Core.
IAB (Integrated Access and Backhaul) Wireless backhaul interface for self sustaining network operation.
NTN Interfaces (Ntn-U, Ntn-C) Between Satellite to Ground Station & between UAVs to Base Stations Provides hybrid satellite to terrestrial connectivity, ensuring uninterrupted coverage for remote and urban areas. Ntn-U : User plane interface between satellites and 6G-RAN. Ntn-C : Control plane interface for satellite and terrestrial network coordination.

➨While 3GPP is still finalizing the official standards, research papers and initial frameworks suggest that 6G will build on 5G Advanced while incorporating new architectural elements.

Key features of 6G architecture

• Terahertz (THz) Communication: Enables ultra high speed data transfer.
• AI and Machine Learning: Used for intelligent resource allocation, predictive maintenance and self optimizing networks.
• Quantum Communication & Security: Provides unbreakable encryption for enhanced security.
• Intelligent Reflecting Surfaces (IRS): Enhances signal coverage and reduces power consumption.
• Edge AI & Computing: Lowers latency by processing data closer to the user.

Conclusion

6G will redefine wireless communication by incorporating AI powered core networks, advanced RAN designs and seamless terrestrial satellite integration. With enhanced speed, reliability and security, it will support next generation applications like holographic telepresence, digital twin networks and autonomous systems. As 3GPP continues to refine 6G standards, the network's intelligent and adaptive nature will drive unprecedented innovation in connectivity.

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