Modelling and analysis of continuous and discrete signals using linear techniques. Laplace transforms; methods for basic modelling of physical systems; discrete and continuous convolution; impulse and step response; transfer functions and filtering; continuous Fourier transform and its relationship to the Laplace transform; frequency response and Bode plots; sampling; Z-transform. Prerequisite: SEE 242, SEE 230. Students with credit for MSE 280 or ENSC 380 may not take this course for further credit.
Modelling and analysis of continuous and discrete signals using linear techniques. Laplace transforms; methods for basic modelling of physical systems; discrete and continuous convolution; impulse and step response; transfer functions and filtering; continuous Fourier transform and its relationship to the Laplace transform; frequency response and Bode plots; sampling; Z-transform. Prerequisite: SEE 242, SEE 230. Students with credit for MSE 280 or ENSC 380 may not take this course for further credit.
