| | Standard Course Syllabus | Course Supervisor | Date of Approval |
| | Dept. of Electrical and Computer Engineering | Yurkovich | 3/05 |
| | 352 | Systems II |
| | 2. | CATALOG DESCRIPTION |
| | Laplace transform; frequency response and Bode plots; Z-transforms; state variables, state equations; computer-aided |
| | analysis. |
| | Quarters of Offering | Credits | | Level | Class Meeting |
| | Au, Wi, Sp Qtrs. | 3 | U | 3 cl. |
| | Course Prerequisites |
| | Prereq: 351 and 301. |
| | 3. | PREREQUISITES BY TOPIC |
| | Linear Systems and models; computer-aided analysis; convolution and impulse response for discrete and continuous time; |
| | Fourier series and Fourier transforms. |
| | Courses that require this as a direct prerequisite |
| | 501, 551, 600, 650, 700, 716, 750, 804, 870 |
| | 4. | Text(s) and Other Course Materials | Author(s) | Publisher |
| | Fundamentals of Signals and Systems Using MATLAB, 3rd | Kamen and Heck | Prentice-Hall |
| | Ed. (MSH from 351) |
| | ISBN: 0131687379 |
| | References (supplemental reading) |
| | [1] Discrete-Time and Continuous-time Linear Systems, R.J. Mayhan, Addison-Wesley, 1984. |
| | [2] Signals and Systems, A.V. Oppenheim and A.S. Willsky, Prentice-Hall, 1997. |
| | [3] The Student Edition of MATLAB, by The Math Works Inc., Prentice hall, 1992. |
| | 5. | COURSE OBJECTIVES |
| | 1. Teach fundamental concepts of continuous-time and discrete-time system theory. (Criterion 3(a)) |
| | 2. Apply theory to engineering problems (Criterion 3(a)), such as systems modeled with linear differential equations and |
| | linear difference equations (Criterion 3(e)). |
| | 3. Illustrate applications in control systems and digital filter design (Criteria 3(a),(c),(e)). |
| | 4. Teach time domain techniques (state variables for continuous and discrete-time systems) and frequency domain |
| | techniques (Laplace and Z-transforms), emphasizing tools which can be implemented in analysis and design (Criterion 3(c)) |
| | via the computer package Matlab (Criterion (k)). |
| | 6. | TOPICS AND (# OF LECTURES) |
| | Laplace transforms (7) |
| | Transfer functions, stability and step responses (4) |
| | Frequency response (2) |
| | Introduction to control systems (2) |
| | Z-transforms (5) |
| | Transfer functions and stability for discrete-time systems (2) |
| | State variable representations (5) |
| | Digital filters (2) |
| | 7. | CLASS MEETING PATTERN | (For example, "3cl." means 3 48-min classes per week.) |
| | 3 cl. |
| | Thursday, August 14, 2008 09:17 AM |
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