Course Title: Optical Fibre Technology PG

Part A: Course Overview

Course Title: Optical Fibre Technology PG

Credit Points: 12.00


Course Code

Campus

Career

School

Learning Mode

Teaching Period(s)

EEET1133

City Campus

Postgraduate

125H Electrical & Computer Engineering

Face-to-Face

Sem 1 2006,
Sem 1 2011,
Sem 1 2012,
Sem 1 2013,
Sem 1 2014,
Sem 1 2015,
Sem 1 2016

EEET1133

City Campus

Postgraduate

172H School of Engineering

Face-to-Face

Sem 1 2017

Course Coordinator: Thach Nguyen

Course Coordinator Phone: +61 3 9925 2029

Course Coordinator Email: thach.nguyen@rmit.edu.au

Course Coordinator Location: Building: 007 Level: 03 Room: 001-7

Course Coordinator Availability: email for an appointment


Pre-requisite Courses and Assumed Knowledge and Capabilities

To successfully complete this course, you should be familiar with the basic concepts of signals and systems. You should also be familiar with fundamental electromagnetic theory and the basic components of optical fibre systems. You will be benefit from having a good mathematical background in algebra, partial differential equations and vector calculus. You are recommended to have successfully completed the course EEET2114 Wireless and Guide Waves or equivalent studies (not an enforced pre-requisite).


Course Description

In this course you will develop an understanding of more advanced concepts relating to optical fibre technology. You also will engage with specialised optical fibre, passive and active optical devices/components and integrated optics are presented. Treatment of nonlinear optics and dispersion are given and their implications in modern Terabit per second communication systems are explained.


Objectives/Learning Outcomes/Capability Development

This course contributes to the following Program Learning Outcomes:

1. High levels of technical competence in the field

2. Be able to apply problem solving approaches to work challenges and make decisions using sound engineering methodologies

 


On completion of this course you should be able to:

  1. Explain the fundamental operation of basic optical components such as waveguides, couplers, interferometers, modulators, arrayed waveguide gratings and fibre gratings.
  2. Select appropriate technologies for the implementation of optical fibre systems including filters, amplifiers and lasers.
  3. Understand and describe Terabit per second optical communication systems and associated technologies.

 


Overview of Learning Activities

The learning activities included in this course are:

  • Your attendance at lectures where syllabus material will be presented and explained, and the subject will be illustrated with demonstrations and examples;
  • Completion of tutorial questions and laboratory projects designed to give you further practice in the application of theory and procedures, and to give feedback on your progress and understanding;
  • Completion of written laboratory report consisting of numerical and other problems requiring an integrated understanding of the subject matter;
  • Surveying and summarising the current literature so you gain a sense of the current state of the art in this rapidly changing field; and
  • Private study, working through the course as presented in classes and learning materials, and gaining practice at solving conceptual and numerical problems.

 


Overview of Learning Resources

You will be able to access course information and learning materials electronically online and will be provided with copies of additional materials in class. Lists of relevant reference texts, resources in the library and freely accessible Internet sites will be provided. You will also use laboratory equipment and computer software within the School during project and assignment work.


Overview of Assessment

☒This course has no hurdle requirements.

Final Examination – Assessment of theoretical knowledge and application

Assignments 1 – Literature review and summary of specialised topic

Practical (2 experiments) – Learning will be enhanced with experiments that encourage exploration of waveguiding, fibre bragg gratings, erbium doped fibre amplifiers and lasers. Laboratory reports are due two weeks after completion of the scheduled laboratory session.

Assessment tasks:

Early Assessment Task: Assignment 1 – Literature review and summary of specialised topic

Weighting 20%

This assessment task supports CLOs 1, 2 & 3

Assessment Task 2: Laboratory reports

Weighting 30%

This assessment task supports CLOs 1 & 2

Assessment Task 3: Final exam

Weighting 50%

This assessment task supports CLOs 1, 2 & 3