Course Catalog 2008-2009 Basic
Basic	Pori	International	Postgraduate	Open University
\|Degrees\| \|Study blocks\| \|Courses\|

Course Catalog 2008-2009

FYS-6706 Optical Communication Systems, 4 cr

Course´s person responsible

Charis Reith, Mircea Guina

Implementations

Lecture times and places Target group recommended to

Implementation 1

Per 4 :
Monday 16 - 18, SJ212A
Monday 16 - 18, SJ212A
Jatko-opiskelijat
KV-opiskelijat
Teknis-luonnontieteellinen koulutusohjelma
Tietoliikenne-elektroniikan koulutusohjelma

Requirements

Exercises and exam, 4 cr. Optional project/presentation for extending to 5 cr.

Principles and baselines related to teaching and learning

Objectives

Understanding the basic principles of optical communications systems: active and passive components, propagation optical fibers, fiber amplifiers, receiver principles, wavelength division multiplexing (WDM), time division multipexing, design of analogue and digital point-to-point links.

Study material

Type Name Author ISBN URL Edition, availability, ... Examination material Language

Book Fiber-Optic Communication Systems Govind P. Agraval John Wiley & Sons, Inc. 1997 Suomi

Book Optical Networks: A practical perspective Rajiv Ramaswami, Kumar N. Sivarajan Morgan Kaufmann Publishers, Inc. 1988 Suomi

Prerequisites

Course	O/R
FYS-5500 Epälineaarisen optiikan perusteet	Recommended
FYS-6100 Puolijohdetekniikan perusteet	Recommended
FYS-6606 Photonics	Recommended

Prerequisite relations (Requires logging in to POP)

Correspondence of content

Course	Corresponds course	Description
FYS-6706 Optical Communication Systems, 4-5 cr	7200136 Optical Communication Systems, 3 cu

More precise information per implementation

Description Methods of instruction Implementation

Implementation 1 The course is devoted to learning the main concepts supporting the operation of an optical communications system. It starts with a review of the characteristics of transmitters, optical fibers, passive components, amplifiers, and receivers, used in optical communications. The aim of this part is to provide a good understanding of the interplay between the features of various optical components used and the quality of transmission. Once the components level is clarified the presentations will focus on system design issues. Detailed topics included: review of lightwave propagation in optical fibers, dispersion and nonlinear effects, attenuation characteristics, modulation properties of light emitting diodes and laser diodes, advanced sources of short optical pulses, optical amplifiers, receiver design, noise in PIN photodiodes and avalanche photodiodes, techniques to measure the quality of transmission, design of analogue and digital point-to-point links, modulation formats, wavelength division multiplexing, time division multiplexing. Lectures
Excercises
Practical works
Contact teaching: 0 %
Distance learning: 0 %
Self-directed learning: 0 %

Last modified 12.03.2009

Modifier Mircea Guina

	Lecture times and places	Target group recommended to
Implementation 1	Per 4 : Monday 16 - 18, SJ212A Monday 16 - 18, SJ212A	Jatko-opiskelijat KV-opiskelijat Teknis-luonnontieteellinen koulutusohjelma Tietoliikenne-elektroniikan koulutusohjelma

Type	Name	Author	ISBN	URL	Edition, availability, ...	Examination material	Language
Book	Fiber-Optic Communication Systems	Govind P. Agraval			John Wiley & Sons, Inc. 1997		Suomi
Book	Optical Networks: A practical perspective	Rajiv Ramaswami, Kumar N. Sivarajan			Morgan Kaufmann Publishers, Inc. 1988		Suomi

	Description	Methods of instruction	Implementation
Implementation 1	The course is devoted to learning the main concepts supporting the operation of an optical communications system. It starts with a review of the characteristics of transmitters, optical fibers, passive components, amplifiers, and receivers, used in optical communications. The aim of this part is to provide a good understanding of the interplay between the features of various optical components used and the quality of transmission. Once the components level is clarified the presentations will focus on system design issues. Detailed topics included: review of lightwave propagation in optical fibers, dispersion and nonlinear effects, attenuation characteristics, modulation properties of light emitting diodes and laser diodes, advanced sources of short optical pulses, optical amplifiers, receiver design, noise in PIN photodiodes and avalanche photodiodes, techniques to measure the quality of transmission, design of analogue and digital point-to-point links, modulation formats, wavelength division multiplexing, time division multiplexing.	Lectures Excercises Practical works	Contact teaching: 0 % Distance learning: 0 % Self-directed learning: 0 %

Course Catalog 2008-2009 Basic

Course Catalog 2008-2009