5G Wireless Networks Certified Course

COURSE DESCRIPTION:

The 5G Wireless Networks Certified Course is a comprehensive training program designed to equip learners with in-depth knowledge and hands-on skills in next-generation mobile communication technologies. This course explores the architecture, key technologies, and real-world applications of 5G, focusing on how it transforms wireless communication, IoT, smart cities, and beyond.

Participants will learn about the evolution from 4G to 5G, including massive MIMO, network slicing, edge computing, mauve technology, and ultra-low-latency communication. Through a mix of theory and practical labs, this course prepares students, engineers, and IT professionals to build, deploy, and optimize 5G networks.

Key Features of Course Divine:

• Collaboration with E‑Cell IIT Tirupati
• 1:1 Online Mentorship Platform
• Credit-Based Certification
• Live Classes Led by Industry Experts
• Live, Real-World Projects
• 100% Placement Support
• Potential Interview Training
• Resume-Building Activities

Career Opportunities After 5G Wireless Networks Certified Course:

• 5G Network Engineer
• Wireless Communication Specialist
• RF (Radio Frequency) Engineer
• Telecom Research Analyst
• Iota Solutions Architect
• Network Planning and Optimization Engineer
• Edge Computing Engineer
• Cloud & Network Virtualization Specialist

Essential Skills you will Develop 5G Wireless Networks Certified Course:

• In-depth Understanding of 5G Architecture
• Expertise in Radio Access Technologies (RAT)
• Hands-on Experience with Network Slicing
• Proficiency in 5G Protocol Stack
• Simulation and Testing Skills
• Knowledge of Edge Computing and MEC
• Iota Integration and 5G Applications

Tools Covered:

• Simulation & Testing Tools:
• NS-3 (Network Simulator 3): For simulating 5G protocols and network behavior
• MATLAB/Semolina: Wireless communication modeling, channel simulation, and 5G waveform generation
• Software-Defined Radio (SDR) Tools:
• GNU Radio + USRP (Universal Software Radio Peripheral): For real-time RF experimentation
• OpenAirInterface (OAI): Open-source platform for building LTE/5G test beds
• Network Virtualization & Cloud Platforms:
• Open Stack: For NFV-based cloud infrastructure deployment
• Dicker & Kubernetes: Containerization and orchestration in 5G environments

SYALLBUS:

Module 1: Introduction to Wireless Communication & 5G Evolution Evolution from 1G to 5G Limitations of 4G LTE Key features and objectives of 5G Use cases and global 5G trends.

Module 2: 5G Network Architecture 5G System Overview (NR + Core) gong, NG Interface, and User Equipment (UE) Control and User Plane Separation (CUPS) Functional split and network elements.

Module 3: Radio Access Technologies in 5G 5G NR (New Radio) fundamentals Spectrum allocation (Sub-6 GHz and mauve) Massive MIMO, Beamforming, Carrier Aggregation Dynamic Spectrum Sharing (DSS).

Module 4: 5G Core Network (5GC) Service-Based Architecture (SBA) AMF, SMF, UPF, PCF, UDM, and other network functions Protocol stack and interfaces (NGAP, NAS, GTP-U).

Module 5: Network Slicing and Virtualization Network Function Virtualization (NFV)

Software Defined Networking (SDN)Implementation of network slices Resource allocation and slice management.

Module 6: Multi-access Edge Computing (MEC) MEC architecture and components Low latency services and real-time processing Use cases: AR/VR, autonomous vehicles, smart cities.

Module 7: 5G and the Internet of Things (IoT) met, URLLC, and ebb 5G-enabled IoT architecture Smart agriculture, smart healthcare, smart industry Integration challenges and solutions.

Module 8: 5G Security and Privacy Security architecture of 5G Authentication and encryption mechanisms Threats: Man-in-the-middle, Do’s, fake base stations Data privacy and user protection.

Module 9: Simulation and Testing Tools for 5G Network simulation using NS-3, Monnet++ Protocol analysis with Wireshark MATLAB-based waveform and channel simulation SDR platforms (GNU Radio + USRP).

Module 10: Capstone Project & Industry Use Cases Design and simulation of a 5G network Hands-on with Open5GS and SDR-based mini-lab Real-world 5G case studies in telecom, IoT, and automotive Final project presentation and assessment.

Industry Projects:

• 5G NR Simulation using MATLAB/Semolina
• End-to-End 5G Network Setup using Open5GS
• RF Planning and Beam forming Design
• Edge Computing Use Case for Real-Time Video Analytics

Who is this program for?

• Telecom Professionals
• IoT Developers & Architects
• Startups and Entrepreneurs

How To Apply:

Mobile: 9100348679

Email: coursedivine@gmail.com