EEET3041 Signals and Systems

 

Welcome to Signals and Systems EEET3041 for 2014. My name is Robby McKilliam and I'll be your lecturer. In this course we learn how to analyse linear-time invariant systems that are used to model and design electrical circuits, mechanical machines, and electro-mechanical devices.

I studied Engineering and Mathematics at the University of Queensland and completed my PhD there in 2010. I've since worked at the Institute for Telecommunications Research at the Mawson Lakes Campus. My research interests are primarily statistical signal processing and number theory.

Lecture notes and corresponding software will be added to this website as the course progresses.


Lecture notes  (with solutions) Software
Assignments: practical, theory stats, top 10
Videos:
1 Signals and Systems
1.1 Properties of signals
1.2 Systems (functions of signals)
1.3 Some important systems
1.4 Properties of systems
2 Systems modelled by differential equations
2.1 Passive electrical circuits
2.2 Active electrical circuits
2.4 Direct current motors
3 Linear time invariant systems
3.1 Convolution, regular systems and the delta ''function''
3.2 Properties of convolution
3.3 Linear combining and composition
3.4 Eigenfunctions and the transfer function
3.5 The spectrum
4 The Laplace transform
4.1 The transfer function and the Laplace transform
4.2 Solving differential equations
4.3 First order systems
4.4 Second order systems
4.5 Poles, zeros, and stability
5 The Fourier transform
5.1 The inverse transform and the Plancherel theorem
5.2 Analogue Fiters
5.3 Real and complex valued sequences
5.4 Bandlimited signals
5.5 The discrete time Fourier transform
5.6 The fast Fourier transform
6 Discrete time systems
6.1 The discrete time impulse response
6.2 The z-transform

Exam information

You can view last years website here.