Published by Monash University, Australia
Maintained by wwwdev@monash.edu.au
Approved by R Chaffey, Faculty of Engineering
Copyright © Monash University 1997 - All Rights Reserved - Caution
L N Binh
3 points
* 16 lectures and 9 laboratory hours
*
Second semester
* Clayton
* Prerequisites: Level 3 substantially
complete
Objectives The student is expected to develop a fundamental understanding of photonic circuits and their electrical interpretation, the effects of optical resonance, interference, differential interference, optical delay, tapping and gain, the analysis and synthesis of optical circuits and processors using electrical equivalents, graphical representation and Mason's rule, and develop the ability to design optical lowpass filters and equalisers using resonators and transversal filters.
Synopsis Photonic circuits and their electrical equivalents; signal processing algorithms for optical processors; z-domain analysis and synthesis of optical filters, equalisers, transversal filters, resonators and interferometers; photonic signal processors including integrators, differentiators and algebraic processors; optical systolic processors.
Assessment Project work and laboratory work: 100%
Prescribed texts
Le Nguyen Binh Lecture notes on photonic signal processing Dept Electrical and Computer Systems Engineering, Mi-tec, 1998
Recommended texts
Mitra S K and Kaiser J F Handbook for digital signal processing Wiley, 1993
Back to the Engineering Handbook, 1998
Published by Monash University, Australia
Maintained by wwwdev@monash.edu.au
Approved by R Chaffey, Faculty of Engineering
Copyright © Monash University 1997 - All Rights Reserved -
Caution