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5G, 6G, OFDM Numerologies, Waveforms, NOMA, OTFS, Open RAN, Massive MIMO, Polar Codes, Inband Full-duplex, LiFi, mmWave.

What you will learn

OFDM Numerologies, 5G/6G waveforms, NOMA, OTFS, In-band Full-duplex, LiFi, mmWave, massive MIMO

The 5G New Radio Air Interface characteristics

The 5G Services, and applications in 5G

The features of the 5G network architecture

The licensed Spectrum for 5G

The 5G use cases and Performance Goals

The key building blocks of 5G Networks

The differences between 5G and the other Wireless Cellular Mobile Generations

Description

Advanced 5G and Beyond Potential Technologies – From Beginner to Expert

The course cover topics such as mMTC, URLLC, IoT, OFDM Numerologies, 5G/6G waveforms, NOMA, OTFS, In-band Full-duplex, LiFi, mmWave, massive MIMO, etc.

If you want to prepare yourself to work in Telecom companies, such as NOKIA, HUAWEI, SAMSUNG, APPLE, GOOGLE, FACEBOOK, MICROSOFT, ERICSSON, QUALCOMM, INTEL, ZTE, etc., or want to find new interesting research topics related to 5G, 6G, ad beyond wireless generations, then this course is just for you. In this course, you will learn in detail most technical aspects of 5G and beyond technologies along with learning wireless communication design using MATLAB starting from simulations to real hardware implementation, 5G Waveform, OFDM, OTFS, Multiple Access Technique, NOMA, mm-Wave, massive MIMO, VLC, LIFI, and many other currents and industry-relevant topics to guarantee a complete and full advanced understanding of 5G and beyond networks.

As a bonus, after you complete watching all the lecture videos of the course, you will be able to get a professional certificate of course completion from both Udemy and Researcherstore.

More specifically, the covered topics in the course are listed as follows:

Introduction to 5G and beyond technology

  • Course overview and the main covered topics in this training43:13
  • 5G: Introduction to 5G and beyond technology1:06:19
  • 5G: Massive IoT (mMTC) and Critical IoT (URLLC): Applications, Requirements, and Technologies38:36
  • 5G: Wireless communication design using MATLAB: From simulations to real hardware implementation40:11

What is OFDM and How it works?

  • OFDM: the kernel building waveform for many wireless technologies including 5G – V421:33
  • OFDM in Details. What is it? and What are its merits/advantages & demerits/disadvantages? V4- Part 238:52
  • Simulation of OFDM: OFDM Simulation Using Matlab Software1:44:36

5G Waveforms and Multiple Access Techniques

  • Overview of single-carrier and multi-carrier candidate 5G waveforms along with their Pros. & Cons. (Part-1)37:18
  • Overview of single-carrier and multi-carrier candidate 5G waveforms along with their Pros. & Cons. (Part-2)18:50

Physical Layer of 5G NR

  • The Physical Layer of 5G New Radio (5G-NR): OFDM waveform Numerologies and Service Multiplexing1:22:07

Non-Orthogonal Multiple Access (NOMA)

  • Non-orthogonal multiple access (NOMA) for 5G Systems: Motivation, Concept, Pros & Cons43:35

Introduction to Massive MIMO


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  • Massive MIMO for 5G Systems: Motivation, Concept, Pros & Cons59:07

OTFS Waveform

  • OTFS waveform: A two-dimensional waveform using 2-D Fourier Transform: (Part 1)51:20
  • OTFS waveform: A two-dimensional waveform using 2-D Fourier Transform: (Part 2)40:30

MIMO at Millimeter Wave

  • mm-Wave technology for 5G and beyond systems (Part-1)1:06:57
  • mm-Wave technology for 5G and beyond systems (Part-2)40:20

LiFi/ VLC- Visible light Communication

  • LiFi technology (visible light communication – VLC) for 5G and beyond systems2:17:14

In-Band Full-Duplex Communications

  • In-Band Full-Duplex Communications34:10

Polar Codes for Error Control and Correction in 5G

  • Error Control Coding (Polar codes Introduction)=====================

So, in summary in this course, you will learn topics such as OFDM Numerologies, 5G/6G waveforms, NOMA, OTFS, In-band Full-duplex, LiFi, mmWave, massive MIMO, etc.

======== About the Insturctor ===========

Jehad M. HAMAMREH is the Founder and Director of WISLABi/com, Editor at Researcherstore/com & RS-OJICT journal, as well as A. Professor with Electrical and Computer Engineering Department, Antalya International (Bilim) University. He earned his Ph.D. degree in Telecommunication Engineering and Cyber-Systems from Medipol University. Previously, he worked as a Researcher at the Department of Electrical and Computer Engineering at Texas A&M University. He is the inventor of more than 20 Patents and has authored more than 90 peer-reviewed scientific papers along with several book chapters. His innovative patented works won the gold, silver, and bronze medals in numerous international invention contests and fairs.

His current research interests include Wireless Communication, Wireless Security, Wireless Sensing, O-RAN, 5G/6G, IoT, AI/ML, wireless physical and MAC layers security, orthogonal frequency-division multiplexing (OFDM), multiple-input multiple-output systems (MIMO), advanced waveforms design, multidimensional modulation techniques, and orthogonal/non-orthogonal multiple access schemes for future wireless systems. He is a regular investigator and a referee for various scientific journals as well as a TPC member for several international conferences. He is an Editor at RS-OJICT and Frontiers in Communications and Networks.

Key Research Topics: Wireless Communication, Wireless Security, Wireless Sensing, Open RAN, 5G/6G, IoT-AI

English
language

Content

5G related Content and Covered Topics

Course Introduction and Covered Topics
Introduction to 5G and beyond technology
Massive IoT (mMTC) and Critical IoT (URLLC): Applications, Requirements, & Tech
Wireless communication design: From simulations to real hardware implementation
Overview of single-carrier and multi-carrier candidate 5G waveforms – Part 1
Overview of single-carrier and multi-carrier candidate 5G waveforms – Part 2
The Physical Layer of 5G New Radio (5G-NR): OFDM waveform Numerologies
Non-orthogonal multiple access (NOMA) for 5G Systems: Motivation, Concept, & Pro
Massive MIMO for 5G Systems: Motivation, Concept, Pros & Cons
OTFS waveform: A two-dimensional waveform using 2-D Fourier Transform: (Part 1)
OTFS waveform: A two-dimensional waveform using 2-D Fourier Transform: (Part 2)
Inband Full Duplex Communication Technology
mm-Wave technology for 5G and beyond systems and hybrid MIMO precoding – part 1
mm-Wave technology for 5G and beyond systems and hybrid beamforming precoding- 2
Polar codes and how they work and funtion
LiFi technology (visible light communication – VLS) for 5G and beyond systems
Open RAN: The main concept, meaning, motivation, ecosystem and challenges – P1
Open RAN: The architecture, structure, components, interfaces, and usecases – P2
RF Antenna and Microwave design for future wireless communication systems

6G related Content: 6G Vision and Future Technologies

6G vision, expected applications, services, use cases, and technologies
6G should focus not just on improving spectral efficiency but more on efficacy
6G should focus on having lower resolution mmWave Massive MIMO systems
Tera hertz (THz) communications in 6G and system on chip design
How to design a low cost & power efficient Tera hertz (THz) communication in 6G