DWDM Networks Tutorial

DWDM Networks Tutorial, available at $49.99, has an average rating of 4.41, with 45 lectures, 6 quizzes, based on 336 reviews, and has 1214 subscribers.

You will learn about This course is for students and professional keen in learning DWDM network and it components. This course is useful for basic to advanced level. Basic of optical fiber communication, signal impairments i.e. absorption, scattering, dispersions, Kerr effect. We also cover different subsystems in photonics and their fundamentals. This course is ideal for individuals who are Beginner to advanced learners about Optical transport, DWDM network and basic of photonics It is particularly useful for Beginner to advanced learners about Optical transport, DWDM network and basic of photonics.

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Summary

Title: DWDM Networks Tutorial

Price: $49.99

Average Rating: 4.41

Number of Lectures: 45

Number of Quizzes: 6

Number of Published Lectures: 41

Number of Published Quizzes: 6

Number of Curriculum Items: 51

Number of Published Curriculum Objects: 47

Original Price: ?7,900

Quality Status: approved

Status: Live

What You Will Learn

This course is for students and professional keen in learning DWDM network and it components. This course is useful for basic to advanced level.

Basic of optical fiber communication, signal impairments i.e. absorption, scattering, dispersions, Kerr effect. We also cover different subsystems in photonics and their fundamentals.

Who Should Attend

Beginner to advanced learners about Optical transport, DWDM network and basic of photonics

Target Audiences

Beginner to advanced learners about Optical transport, DWDM network and basic of photonics

This course is devised for professionals and students who wanted to understand DWDM network architecture. We start our journey by understanding our signal carrier that is light. We learn which particular band of light is used for fiber communication and why. We learn about DWDM technology. We also learn about all the different types of impairments in fiber optics communications. We have one complete section devoted to all the components used in DWDM. We talk about ROADM its architecture and types in great detail. We also touch on flex and fix grid technologies.

Course Curriculum

Chapter 1: Introduction

Lecture 1: Introduction

Lecture 2: Internet and Network architecture

Lecture 3: WDM/CWDM/DWDM Technology introuction

Lecture 4: Why do we need WDM system

Lecture 5: XWDM/CWDM/DWDM introduction

Lecture 6: Brief introduction to DWDM components

Chapter 2: Electromagnetic Waves as Career Signal in DWDM Networks

Lecture 1: Learning about properties of light and EM spectrum.

Lecture 2: Introduction to communication bands

Chapter 3: Optical Fiber in DWDM system

Lecture 1: Optical fiber introduction

Chapter 4: Signal Impairments in Optical Fiber communication

Lecture 1: Signal impairments in optical fiber – introduction

Lecture 2: Linear Signal impairments

Lecture 3: Different types of attenuations i.e. Absorption and scatterings

Lecture 4: Linear scattering losses in fiber communication

Lecture 5: Non Linear Scattering losses – SBS and SRS

Lecture 6: Amplified Spontaneous Emission Noise in fiber

Lecture 7: Dispersion – Modal, Chromatic and PMD

Lecture 8: Non Linear Impairments in fiber

Chapter 5: Components of DWDM system

Lecture 1: Recap of section 1 to 4

Lecture 2: Long haul system and Transponders

Lecture 3: Transmitter section of transponder component

Lecture 4: Receiver section of optical transponder

Lecture 5: Optical Mux Demux component of DWDM

Lecture 6: Optical Amplifiers Introduction

Lecture 7: Semiconductor Optical Amplifier SOA

Lecture 8: EDFA Based Amplifier

Lecture 9: RAMAN Amplifier-princple

Lecture 10: RAMAN Amplifier-working

Chapter 6: Reconfigurable Optical Add Drop Multiplexer

Lecture 1: Introduction

Lecture 2: ROADM-What is it?

Lecture 3: A typical ROADM example

Lecture 4: Why ROADM and working principle

Lecture 5: MEMS and LCOS Technology introduction

Lecture 6: ROADM Function, types and architecture

Lecture 7: Colorless Direction less Contentionless ROADM and Flex grid

Lecture 8: Optical Supervisory Channel (OSC)

Lecture 9: Optical Performance Monitor(OPM) and OTDR

Chapter 7: Elastic Optical Network/Flex Grid

Lecture 1: Introduction to Flex Grid or EON

Lecture 2: Fixed Grid Vs Flexible Grid understanding

Lecture 3: Elastic Optical Network Characteristics

Lecture 4: Why do we need Flex Grid

Lecture 5: Challenges in Fix grid and Flex grid networks

Instructors

Arvind Kumar
Engineering Manager with 22 years of experience in DWDM

Rating Distribution

1 stars: 3 votes

2 stars: 16 votes

3 stars: 58 votes

4 stars: 115 votes

5 stars: 144 votes

Frequently Asked Questions

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