5G Training by Qualcomm Syllabus

Overview: This 10-week intermediate course provides a comprehensive understanding of 5G wireless technology, developed in collaboration with Qualcomm. Designed for telecom professionals and engineers, it covers the evolution, architecture, key technologies, and real-world applications of 5G networks. With an estimated time commitment of 6–8 hours per week, learners will build a solid technical foundation through structured modules that blend theory with industry relevance. While the course assumes prior familiarity with wireless communication concepts, it delivers clear explanations of advanced topics such as beamforming, network slicing, and mmWave deployment. Ideal for those pursuing careers in 5G network engineering, system integration, or telecom innovation.

Module 1: Introduction to 5G Technology

Estimated time: 12 hours

• History and evolution of wireless networks from 1G to 5G
• Key differences between 4G and 5G technologies
• Core goals of 5G: enhanced speed, reduced latency, and increased capacity
• Overview of 5G use cases: eMBB, mMTC, and URLLC

Module 2: 5G Network Architecture

Estimated time: 18 hours

• Introduction to 5G NR (New Radio) and its role in 5G networks
• Function and deployment of gNB (next-generation NodeB)
• Architecture of the 5G core network and its components
• Cloud-native and virtualized network functions in 5G

Module 3: 5G Technologies and Techniques

Estimated time: 18 hours

• Millimeter wave spectrum and its utilization in 5G
• Beamforming principles and implementation in 5G systems
• Massive MIMO and small cell deployment strategies
• Network slicing and edge computing integration

Module 4: Applications and Future of 5G

Estimated time: 12 hours

• Industrial IoT and the role of private 5G networks
• 5G applications in healthcare, transportation, and manufacturing
• Security challenges in 5G network deployment
• Future advancements and evolving 5G standards

Prerequisites

• Basic understanding of wireless communication principles
• Familiarity with networking fundamentals (e.g., IP, protocols)
• Some exposure to telecom or engineering concepts preferred

What You'll Be Able to Do After

• Explain the technical evolution and core capabilities of 5G networks
• Describe the architecture and components of 5G NR and core networks
• Analyze how beamforming, MIMO, and network slicing enhance performance
• Identify real-world 5G applications across industries like smart cities and autonomous vehicles
• Evaluate the impact of 5G on emerging technologies and future innovations