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Module Specifications

Archived Version 2016 - 2017

Module Title Optical Communications System Design
Module Code EE454
School School of Electronic Engineering

Online Module Resources

Module Co-ordinatorProf Liam BarryOffice NumberS333
Module Co-ordinatorProfessor Liam BarryOffice NumberS333
NFQ level 8 Credit Rating 7.5
Pre-requisite None
Co-requisite None
Compatibles None
Incompatibles None

To introduce the student to the main components of an optical communications system and to describe typical communication systems which employ optical techniques.

Learning Outcomes

1. Identify the main parameters of laser diodes, optical fibre, and optical receivers that effect the performance of optical communications systems
2. Analyse the equations that explain the modulation of an optical carrier with electrical data signals and apply these equations to determine the maximum modulation rate that can be attained
3. Derive solutions for how non-linearity and dispersion affect the propagation of data signals in optical fibre, and apply these solutions to analyse the maximum data rate and transmission distance of optical transmission links
4. Determine the various parameters of an optical receiver that affect Bit-Error-Rate and eye diagrams, and identify how an eye-diagram may be used in quantifying system performance
5. Identify the different type of networking configurations that may be used in an optical network and analyse how component selection effects network design
6. Design a basic optical communication systems and analyse how it performance would be effected by the various components used in the system design
7. Implement a wavelength division multiplexed systems and formulate how altering the parameters of the components used would change system capacity
8. Operate all the main components required to develop a basic optical communication systems, and conduct experiments to develop and analyse an optical transmission system

Workload Full-time hours per semester
Type Hours Description
Lecture33Taught lectures
Assignment Completion17Written assignement for submission which counts as the CA part of this module
Laboratory10Time spent understanding lab manual and undertaking experimental work in the lab
Independent Study120Independent learning and studying
Total Workload: 183

All module information is indicative and subject to change. For further information,students are advised to refer to the University's Marks and Standards and Programme Specific Regulations at: http://www.dcu.ie/registry/examinations/index.shtml

Indicative Content and Learning Activities

Optical Communications System Design
Properties of Optical Fibres: fibre types; step-index and graded-index; monomode and multimode;. Lasers and Modulation Techniques: the laser diode; power spectrum; single-mode lasers; direct modulation; intensity modulation; frequency modulation; linearity; pulse modulation; coding an optical carrier. Signal Degradation and Coupling Efficiency: absorption; scattering; radiative losses; core and cladding losses; material dispersion; waveguide dispersion; intermodal dispersion; nonlinear effects; mode coupling; source-to-fibre power launching. Demodulation: photodiodes; construction; temperature effects; response time; direct detection; signal-to-noise ratio with direct detection of intensity modulated waves. Multiplexing: time-division multiplexing; limitations of TDM; wavelength division multiplexing; WDM using optical filters; cross-talk; radio-frequency subcarrier multiplexing. Fibre-Optic Networks: WDM networking, structure. Evolution to All-Optical Networks.

Assessment Breakdown
Continuous Assessment20% Examination Weight80%
Course Work Breakdown
TypeDescription% of totalAssessment Date
Reassessment Requirement
Resit arrangements are explained by the following categories;
1 = A resit is available for all components of the module
2 = No resit is available for 100% continuous assessment module
3 = No resit is available for the continuous assessment component
Indicative Reading List

  • Gerd Keiser: 0, Optical fiber communications, Boston [etc.] McGraw-Hill 2000, 9780072321012
  • Govind P. Agrawal: 0, Fiber-Optic Communication Systems, Wiley, 9780470505113
  • Christopher C. Davis: 0, Lasers and electro-optics, Cambridge [England] ; Cambridge University Press, 1996., 9780521484039
  • Rajiv Ramaswami, Kumar Sivarajan, Galen Sasaki: 0, Optical Networks, Morgan Kaufmann, 9780123740922
Other Resources

Programme or List of Programmes
ECEBEng Electronic & Computer Engineering
ECSAStudy Abroad (Engineering & Computing)
EEBEng in Electronic Engineering
GCESGrad Cert. in Electronic Systems
ICEBEng Info and Communications Engineering
MENMEng in Electronic Systems
MEQMasters Engineering Qualifier Course
MEVMEng in Mechatronic Engineering
MTCMEng in Telecommunications Engineering