Continuous-Time Signals and Systems
Units: 1.5, Hours: 3-0-1
Continuous-time signals and systems. Functions of a complex variable. Analytic functions. Signal properties and basic signal transformations. Elementary functions including the Dirac delta function. System properties. Linear time-invariant systems and convolution. The Fourier series in the analysis of periodic signals. The Fourier transform and spectral analysis. The Laplace transform and its use in system analysis. The relationship between the Fourier and Laplace transforms. Solving differential equations with the Laplace transform. Partial fraction expansions. Using computer simulation of dynamic systems.
Prerequisites: MATH 101; 110 or 211 (211 may be taken as a corequisite)
Undergraduate course in Electrical Engineering offered by the Department of Electrical and Computer Engineering in the Faculty of Engineering.