5G Communication System Using Matlab

Overview

5G Communication System Using Matlab

This course is designed for undergraduate and postgraduate students associated with the Department of Electronics and Communication Engineering.

It has eight outlines, each outline discusses the theoretical explanation and the Matlab codes for simulating the figures that obtained through the explanation of the course.

This course saves many months of hard work.

Using the Matlab program, you will learn:

1- How to estimate the channel capacity using Shannon formula?

2- How to estimate the achievable rate offered by the uplink/downlink Non-Orthogonal Multiple Access (NOMA), and Orthogonal Multiple Access (OMA) techniques?

3- How to study the effect of imperfect Successive Interference Cancellation (SIC) on the downlink NOMA rate capacity?

4- How to study the effect of the NOMA Fixed Power Allocation (FPA) on the Bit-Error-Rate (BER) performance?

5- What is the number of users that NOMA can support with respect to OMA technique?

6- What is the meaning of user pairing in NOMA, and how can one perform user pairing?

7- How to perform the fixed and dynamic power allocation in NOMA, and how to validate its performance?

8- How to estimate to the BER performance of NOMA communication system over a Rayleigh fading channel?

9- How to estimate to the achievable capacity of NOMA communication system over a Rayleigh fading channel?

10- How to estimate to the outage Probability of NOMA communication system over a Rayleigh fading channel?

to the course 5G Communication System Using Matlab

for more Why Use MATLAB and Simulink for 5G?

It has eight outlines, each outline discusses the theoretical explanation and the Matlab codes for simulating the figures that obtained through the explanation of the course. This course saves many months of hard work.

Using the Matlab program, you will learn:

1- How to estimate the channel capacity using Shannon formula?

2- How to estimate the achievable rate offered by the uplink/downlink Non-Orthogonal Multiple Access (NOMA), and Orthogonal Multiple Access (OMA) techniques?

3- How to study the effect of imperfect Successive Interference Cancellation (SIC) on the downlink NOMA rate capacity?

4- How to study the effect of the NOMA Fixed Power Allocation (FPA) on the Bit-Error-Rate (BER) performance?

5- What is the number of users that NOMA can support with respect to OMA technique?

7- How to perform the fixed and dynamic power allocation in NOMA, and how to validate its performance?

8- How to estimate to the BER performance of NOMA communication system over a Rayleigh fading channel?

9- How to estimate to the achievable capacity of NOMA communication system over a Rayleigh fading channel?

10- How to estimate to the outage Probability of NOMA communication system over a Rayleigh fading channel?

Curriculum

Instructor

Khaled Ramadan

Khaled Ramadan Mohamed received his B.Sc. from the Higher Institute of Engineering (El-Shorouk Academy) in 2011, and his M.Sc. and Ph.D. from the Faculty of Electronic Engineering, Menoufia University, Menouf, Egypt, in 2018 and 2021, respectively. He joined the teaching staff of the Department of Electronics and Electrical Communications at the Higher Institute of Engineering in Al-Shorouk City, Egypt, in 2021. He uploaded many online courses to the Udemy site, and hundreds of students from several tenths of countries around the world enrolled in the courses, with positive feedback on each course. He has published several scientific papers in national and international conference proceedings and journals. He has received the most read paper from the International Journal of Communication Systems (IJCS) for 2018–2019. His research interests include multicarrier communication systems, Multiple-Input Multiple-Output (MIMO) systems, Digital Signal Processing (DSP), digital communications, channel equalization, Carrier Frequency Offsets (CFOs) estimations and compensations, Underwater Acoustic (UWA) wireless communication systems, and multicarrier Non-Orthogonal Multiple Access (NOMA) for 5G networks.

Reviews

Requirements

Basic knowledge for Matlab programing, besides some basic information for NOMA in 5G communication systems.

5G Communication System Using Matlab

Overview

5G Communication System Using Matlab

This course is designed for undergraduate and postgraduate students associated with the Department of Electronics and Communication Engineering.

This course saves many months of hard work.

Using the Matlab program, you will learn:

1- How to estimate the channel capacity using Shannon formula?

2- How to estimate the achievable rate offered by the uplink/downlink Non-Orthogonal Multiple Access (NOMA), and Orthogonal Multiple Access (OMA) techniques?

3- How to study the effect of imperfect Successive Interference Cancellation (SIC) on the downlink NOMA rate capacity?

4- How to study the effect of the NOMA Fixed Power Allocation (FPA) on the Bit-Error-Rate (BER) performance?

5- What is the number of users that NOMA can support with respect to OMA technique?

6- What is the meaning of user pairing in NOMA, and how can one perform user pairing?

7- How to perform the fixed and dynamic power allocation in NOMA, and how to validate its performance?

8- How to estimate to the BER performance of NOMA communication system over a Rayleigh fading channel?

9- How to estimate to the achievable capacity of NOMA communication system over a Rayleigh fading channel?

10- How to estimate to the outage Probability of NOMA communication system over a Rayleigh fading channel?

It has eight outlines, each outline discusses the theoretical explanation and the Matlab codes for simulating the figures that obtained through the explanation of the course. This course saves many months of hard work.

Using the Matlab program, you will learn:

Curriculum

Instructor

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Requirements

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5G Communication System Using Matlab

Overview

5G Communication System Using Matlab

This course is designed for undergraduate and postgraduate students associated with the Department of Electronics and Communication Engineering.

This course saves many months of hard work.

Using the Matlab program, you will learn:

1- How to estimate the channel capacity using Shannon formula?

2- How to estimate the achievable rate offered by the uplink/downlink Non-Orthogonal Multiple Access (NOMA), and Orthogonal Multiple Access (OMA) techniques?

3- How to study the effect of imperfect Successive Interference Cancellation (SIC) on the downlink NOMA rate capacity?

4- How to study the effect of the NOMA Fixed Power Allocation (FPA) on the Bit-Error-Rate (BER) performance?

5- What is the number of users that NOMA can support with respect to OMA technique?

6- What is the meaning of user pairing in NOMA, and how can one perform user pairing?

7- How to perform the fixed and dynamic power allocation in NOMA, and how to validate its performance?

8- How to estimate to the BER performance of NOMA communication system over a Rayleigh fading channel?

9- How to estimate to the achievable capacity of NOMA communication system over a Rayleigh fading channel?

10- How to estimate to the outage Probability of NOMA communication system over a Rayleigh fading channel?

It has eight outlines, each outline discusses the theoretical explanation and the Matlab codes for simulating the figures that obtained through the explanation of the course. This course saves many months of hard work.

Using the Matlab program, you will learn:

Curriculum

Instructor

Reviews

Requirements

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