5G Introduction

Duration  3 days – 21 hrs

 

Overview

 

The 5G Introduction Training Course is designed to provide participants with a comprehensive overview of 5G technology, its key features, and its potential impact on the telecommunications landscape. This training course offers a solid foundation in 5G concepts, enabling participants to make informed decisions and explore opportunities in the 5G era.

 

This course provides a comprehensive understanding of 5G New Radio as defined by 3GPP standards and specifications. The content and flow are structured to introduce participants to 5G New Radio, including its basic system architecture, requirements, and targets. The course covers essential topics such as the New Radio Frame structure, Multiple Access, Physical Resources, and Dual Connectivity Options.

 

Objectives

 

• Understand the fundamental concepts and principles of 5G technology.
• Identify the key drivers and motivations behind the development of 5G.
• Comprehend the architecture and network components of a 5G system.
• Recognize the key features and capabilities of 5G networks.
• Evaluate the potential applications and use cases of 5G technology.
• Grasp the challenges and considerations in deploying 5G networks.
• Explore the implications of 5G on industries and society.
• Stay up-to-date with the latest trends and developments in the 5G landscape.

Audience

 

• Professionals, engineers, and decision-makers in the telecommunications industry who seek to understand the fundamentals of 5G technology and its implications.
• Network Engineers, Technical Consultants, Planning and Optimization specialist engineers and others.

Pre- requisites 

• Basic Knowledge of 4G

• No prior knowledge of 5G technology is required. Familiarity with basic telecommunications concepts will be beneficial.

Course Content

 

Introduction to 5G

 

• Evolution from previous generations of mobile networks
• Key drivers and motivations for 5G development
• 5G use cases and potential applications

 

5G Architecture and Components

 

• Network architecture of a 5G system
• Core network and radio access network components
• Virtualization and network slicing in 5G

 

5G Requirements and Standardization

 

• Need for 5G
• 5G Potential Use Cases
• 5G System Requirements
• Timeline for 5G Standards
• 5G Spectrum/Bandwidths and Bands
• 5G System QoS

 

5G RAN and Core Architecture

 

• 5GC/RAN Overview
• 5G NG-RAN Functionality overview
• 5G Core Network Functionality overview

5G/4G Dual Connectivity Deployment Options

 

• NR-LTE Co-deployment & Coexistence 
• NR-NR and NR-LTE Dual Connectivity 
• DL and UL sharing
• Supplemental Uplink
• 5G/NR Spectrum Bands and Carrier Bandwidths 

5G Air Interface Protocol Layers

 

• Overview of Control and User Plane Protocols
• SDAP and QoS Handling
• PDCP and Packet Duplication
• RLC and MAC Functions
• RRC Functions
• NAS Signaling
• Review Discussion and Comparison with LTE

 

 5G Frame Structure

 

• Slot Structure
• Resource Structure
• UL-DL Frame Timing

 

  5G Channels Overview: DL and UL

 

• Overview Logical, Transport and Physical Channels
• BCH and Synchronization Signal Block (SSB)
• PDCCH Structure and DCI Signaling 
• PDSCH and PUSCH Structure and PHY Processing
• PUCCH 
• PRACH 

 

5G/4G Throughput Comparisons

 

• 4G Throughput Calculation
• 5G Throughput Calculation

5G and Industry Transformation

• Implications of 5G on various industries (e.g., healthcare, transportation, manufacturing)
• Potential business models and revenue opportunities in the 5G era

Future Trends in 5G

• Emerging technologies and advancements in 5G
• Standardization and ongoing developments in the 5G landscape
• Closing and Remarks