Introduction to Telecommunication Networks Engineering

Become an expert in the field of electrical engineering communication . A communication course RAHEE414 from Rahsoft

Language: english

Note: 0/5 (0 notes) 793 students New course

Instructor(s): Rahsoft Electrical Engineering Courses

Last update: 2022-05-14

What you’ll learn

Analyze performance of basic communication networks
Understand telecommunication network design techniques
Develop problem solving in telecommunications networking areas
Understand the basic properties of internet and telecommunications traffic properties

Requirements

Probability Theory and Statistics

Description

Description

In RAHEE 414 we’ll Focus on applying formulas to Telecommunications Networks then we Analyze their characteristics and behaviors. It includes Design and analysis of Telecommunications Networks. Number of examples have been solved to make you understand them better.

This course provides an introduction to the principles & techniques of design, implementation, and analysis of communication networks which is the key technology for the modern ICT systems. Each topic will have many examples which goes over them briefly with different parts. By end of each chapter there will be a quiz for you to test your understanding of that specific chapter.

Topics include basis of voice, video, data and internet communications. network topologies, architecture. By end of the course, you should be able to :

1. Understand basic and some advanced concepts and techniques of telecommunications networks.

2. Develop problem solving approaches as applied in telecommunications networking areas.

3. Able to analyze performance of basic communication networks using both analytical and simulation techniques.

4. Understand telecommunication network design techniques and practical implementation issues.

5.Understand the basic properties of internet and telecommunications traffic properties.

This course is mostly for academic level Engineering students in different universities around the world.

Instructor

The instructor of this course is Mehrad Nahouri. He has an Associates in Electrical Engineering concentration on digital field and is a lecturer at Rahsoft.

Pre-Requisite:

Probability Theory and Statistics

What is the target audience?

This course is for students working in Telecommunications field.
Undergraduate students
Electrical Engineer
Graduate students taking Telecommunications Networks course
Researchers in Telecommunications field

Course content

Introduction

Signals and Systems
Domain Modulation
Angle Modulation
Random Processes

Who this course is for:

Electrical Engineers
Electrical Engineering Students

The 4 main things the student will learn by the end of the course:

Analyze performance of basic communication networks
Understand telecommunication network design techniques
Develop problem solving in telecommunications networking areas
Understand the basic properties of internet and telecommunications traffic properties

Who this course is for

This course is for students working in Telecommunications field.
Undergraduate students in EE
Electrical Engineers
Graduate students taking Telecommunications Networks course
Researchers in Telecommunications field

Course content

Signals and Systems
- Introduction
- Implementing a telecommunication network
- Receiver Antenna
- different types of signals
- sinusoidal signal
- mixed and real signals
- random and definite signals
- sender and receiver
- alternating and non alternating signals
- discrete signal
- casual and non casual signals
- Odd and even signals
- Fourier series
- Dirichlet condition
- Fourier series presentation form
- Fourier series for odd and even real signals
- Fourier transform uses
- duality
- LTI system
- movement in the time field
- alternating signal Fourier transform
- Fourier transform in LTI systems
- Designing of FIR filters
- Whole zero filters
- Whole zero filters
- H(n) for lowpass filter
- Desired number of filters
- H(n) in overall form
- distance between omegas
- using Fourier transform for FIR filters
- Unlimited pulse response filters
- 2 line transform
- Coefficient of IIR filters
- Conversion function
- power signals
- Power Signals
Domain Modulation
- Limited domain
- Modulation goals
- AM modulation
- transferring message
- Common domain modulation
- Conversion amplitude modulation
- Conversion amplitude modulation
- message signal example
- Modulators and demodulators implementation
- Using non linear function
- Implement DSP
Angle Modulation
- Introduction
- Carry on signal
- Variable in time phase
- Importing empty message into frequency modulator
- Sinusoidal message signal
- FM frequency
- Spectrum properties of angle moduled signal
- Limitation of frequency
- harmonics in bandwidth
- Harmonics example
- Increasing speed in MATLAB
- Carson rule
- Carson rule in an example
- Implementing angle modulators and demodulators
- Demodulators
- Import U(t) into a filter
- RLC circuit
- Using push for demodulation
Random Processes
- Introduction
- Random Signal
- Random Variable
- Random variable incident
- Statical averages
- statical averages in MATLAB
- White processes
- properties of tempered noises
- Filtered noise processes
- Districuting the colorful noise
- properties of tempered noises
- bandwidth equivalent to noise
- Lowpass filter example