ENEE 325 Signals and Systems (3)
Not a required course. Service course for Computer Science program.
Catalog Description
Time, sequence and frequency domain
analysis of linear continuous-time and discrete-time systems. Direct solution methods for differential and difference
equations, impulse response, convolution. LaPlace,
Fourier and Z transform methods. State variables for discrete
and continuous systems. Fall semester. Lecture 3 hours.
Prerequisites:
ENGR
270, 271 with grades of C or better, MATH 245, 255.
Textbook: Signals, Systems, and Transforms, Phillips and Parr, second edition
Course Objectives:
·
to cover both
continuous and discrete signals, systems, and transform methods,
·
to provide useful tools in continuing study in
engineering or computer science.
Class/laboratory schedule:
Lecture
either three times per week at 50 minutes per class, or two times per week at
75 minutes per class.
Topics Covered:
·
Continuous-Time
Signals and Systems
·
Continuous-Time
Linear Time-Invariant Systems
·
Fourier Series
·
Fourier Transforms
·
·
State Variables
for Continuous-Time Systems
·
Discrete-Time
Signals and Systems
·
Discrete-Time
Linear Time-Invariant Systems
·
Z-Transforms
Contribution to Professional Component:
Course not taken by engineering majors.
Relationship of course to program outcomes
Course not taken by engineering majors.
Prepared by:
Dr.