Course syllabus

Fiber Optical Communication (MCC100)

Schedule and contents 2019

Examiner/Lectures:

Peter Andrekson, room C428, tel. 070-3088 606, peter.andrekson@chalmers.se   

Jochen Schröder, C427, jochen.schroeder@chalmers.se   

 

Mondays 10 .00 – 11.45 & Wednesdays 10 .00 – 11.45 in room A810 (Luftbryggan) except on Nov 6 (Kollektorn).

Lecture notes will be handed out.

Date

Number

Topics

Book

chapters

Home assign.

Nov 4

1 JS

Overview, optical fibers, attenuation

1

 

Nov 6

2 JS

Modulation and detection

*

 

Nov 11

3 PA

Modes in optical fibers

2*

 

Nov 13

4 PA

Chromatic dispersion

2*

1 out

Nov 18

5 JS

Nonlinear effects

2*

 

Nov 20

6 PA

Optical transmitters

3

1 in, 2 out

Nov 25

7 JS

Optical receivers

4

 

Nov 27

8 PA

Error probability, power penalties

5

2 in, 3 out

Dec 2

9 JS

Multichannel systems and networks

6

 

Dec 4

10 PA

Optical amplification, gain

7

4 out

Dec 9

11 PA

Optical amplification, noise

7

 

Dec 11

12 PA

Dispersion management, polarization

8

3 in

Dec 16

-

No lecture

 

Dec 18

13 JS

Advanced lightwave systems

10*

4 in

* Indicates contents mainly covered in the lecture notes and to a lesser extent by the book.

Sections of Fiber-Optic Communication Systems (Fourth Edition, Govind P. Agrawal, Wiley Interscience, 2010, ISBN: 9780470505113) that are excluded from the compulsory reading list:

Chapter 1: -

Chapter 2: -

Chapter 3: 3.5

Chapter 4: -

Chapter 5: 5.3

Chapter 6: 6.1, 6.6

Chapter 7: 7.7

Chapter 8: 8.5, 8.6

Chapter 9: Entire chapter

Chapter 10: 10.3, 10.5, 10.6

Chapter 11: Entire chapter

Notes:

  • In general, material that is discussed during lectures should be considered most important.
  • The details of derivations are not necessary for the exam.
  • The course material consists of the non-excluded parts of the book and the lecture notes. Note that sometimes the lecture notes cover topics not included in the book (and vice versa).

 

Tutorials:

Alexander Caut caut@chalmers.se

Wednesdays 13.15-15.00 in room A810 (Luftbryggan, except on Nov. 6 which will be in Kollektorn)

The number of tutorials may change, but the plan is:

November 6

November 13

November 20

November 27

December 4

December 11

December 18

An exercise booklet will be handed out.

Laboratory exercises:

Ravikiran Kakarla kakarla@chalmers.se and Ali Mirani mirani@chalmers.se
The labs are compulsory. The labs are in B420 in the Photonics Laboratory.

  1. Dispersion and optical amplifiers, Study week 3
  2. Optical communication systems: Characteristics and performance, Study week 5

The laboratory exercises are four hours each and are done in groups of four. The booking procedure will be explained in class and in Canvas. The lab PMs will be printed and handed out on or before lecture 5, and can also be downloaded from the course web page.

It is important that you prepare the lab by reading the relevant chapters in the book and solving the exercises specified in each lab PM. Students that have not solved these will not be allowed to do the lab, and instead be given a compulsory, extensive home assignment.  Also note that some of the contents of these exercises may be covered in lectures after the exercises, which means that you will have to prepare accordingly.

Home assignments:

The four voluntary home assignments will be downloadable from the web page and can provide bonus points on the exam. The solved assignments should be handed in or e-mailed to the responsible teacher by the due date. Each assignment is awarded a maximum of 30 points and 18 points or more are required for obtaining 1 bonus point. 24 points or more gives 2 bonus points. Thus, a maximum of 8 bonus points can be obtained.

Examination:

The exam is problem-oriented, comprising 6 problems with a maximum score of 10 points each, in total 60 points. For grade 3, 4, and 5, the requirements are 24, 36, and 48 points, respectively. Any obtained bonus points may be included in the total score. (Bonus points become invalid after the three planned exam dates.)

The (first) exam date is 18 January 2020 (afternoon). Check the time and remember to register online (compulsory). Allowed material on the exam is:

  • Textbook
  • Printed lecture notes
  • Laboratory PM (2)
  • Standard Mathematical Tables
  • Tefyma
  • Physics Handbook
  • Beta Mathematical Handbook
  • Chalmers-approved calculator

Note that solved problems, including the Problem booklet and Lab PM are not allowed on the exam.

Course summary:

Date Details Due