| Course Name: | SIGNALS AND SYSTEMS |
| Course Code: | EEE 353 |
| Type of Course: | Undefined |
| Level of Course: | Undergraduate (First Cycle) |
| Year of Study: | 3 |
| Semester/Trimester: | Fall |
| ECTS Credits: | 6 |
| FU Credits: | 3 |
| Name(s) of Lecturer(s): | Ali UZER EA-206 ( aliuzer@fatih.edu.tr ) |
| Course Coordinator: | Ali UZER |
| Objectives of the Course: | Continuous-time signals and systems. Continuous-time LTI systems. The Fourier transform and its applications. State variables for continuous-time systems. Discrete-time signals and systems. Discrete-time LTI systems. The z-transform and its applications. State variables for discrete-time systems. Prerequisite: MATH 230, EEE 202. |
| Course Description: | Continuous-time signals and systems. Continuous-time LTI systems. The Fourier transform and its applications. State variables for continuous-time systems. Discrete-time signals and systems. Discrete-time LTI systems. The z-transform and its applications. State variables for discrete-time systems.
|
| Learning Outcomes: | 1. Performing convolution operations between analog signals.
2. Determining the Fourier transforms of analog signals.
3. Determining the inverse Fourier transforms.
4. Ability to write state equations for a given analog system.
5. Performing convolution operations between discrete signals.
6. Determining the z transforms of discrete signals.
7. Determining the inverse z transforms.
8. Ability to write state equations for a given discrete system. |
| Mode of Delivery: | Face-to-Face |
| Prerequisites: | ((EE 202 or EEE 202)MATH 230) or Chairman's Consent |
| Co-requisites: | None |
Course Contents:
( Weekly Lecture Plan ) | | Week | Topics | | 1 | Introduction to signals and systems | | 2 | LTI (Linear-Time-Invariant) systems | | 3 | Continuous-Time LTI systems and the convolution | | 4 | The Fourier transform and its properties | | 5 | The Fourier transform of some signals and the convolution | | 6 | The Fourier transform applications in Continuous-Time LTI systems | | 7 | State-Equations for the Continuous-Time LTI systems | | 8 | Miscallenous problems in Continuous-Time LTI systems | | 9 | Discrete-Time LTI systems | | 10 | Discrete-Time LTI systems and the convolution | | 11 | z-transform and its properties | | 12 | The z-transform and the convolution | | 13 | The z-transform applications in Discrete-Time LTI systems | | 14 | State-Equationsfor the Discrete-Time LTI systems |
|
| Recommended Reading: | Signals, Systems, and Transforms, C. L. Phillips, J. M. Parr, 2007, 4th Edition, Prentice Hall. ISBN 0-13-198923-5 |
| Planned Learning Activities and Teaching Methods: | Lectures, Recitation |
| Assessment Methods: |
| Method | Quantity |
(%) | | Midterm Exam(s) | 2 | 60 | | Final Exam | 1 | 40 | |
| Language of Instruction: | English |
| Work Placement(s): | N/A |
syllabus
