1. Introduction to Signal and Systems

1. wind Bridge movement Term 111 CISE315: Signals and Systems 1. Introduction to Signal and Systems Dr. MujahedAl-Dhaifallah Al-Dhaifallah_Term111

2. Dr. Mujahed Al-Dhaifallahد. مجاهد آل ضيف الله • Office Hours • Sat, Mon, Wed 11:00 -12:00 • by appointment • Office 22-(142) • Tel 860-4943 • Email: • mujahed@kfupm.edu.sa • use the WebCT email Al-Dhaifallah_Term111

3. Reading List/Resources • Essential • AV Oppenheim, AS Willsky: Signals and Systems, 2nd Edition, Prentice Hall, 1997 • Recommended • S. Haykin and V. Veen, Signals and Systems, 2005. Al-Dhaifallah_Term111

4. Rules and Regulations • No make up quizzes • DN grade == 8 unexcused absences • Homework Assignments are due to the beginning of the lectures. • Absence is not an excuse for not submitting the Homework. Al-Dhaifallah_Term111

5. The Course Goal To introduce the mathematical tools for analysing signals and systems in the time and frequency domain and to provide a basis for applying these techniques in Electrical Engineering. Al-Dhaifallah_Term111

6. Course Objectives • Identify the types of signals and their characterization. • Use the Fourier series representation. • Differentiate between the continuous and discrete-time Fourier transforms. • Grasp the fundamental concepts of the Laplace and Z transforms. • Characterize signals and systems in the frequency domain. Al-Dhaifallah_Term111

7. Course Syllabus • Signal and Systems : Introduction, Continuous and discrete-time signals, Basic system properties. • Linear Time-Invariant (LTI) Systems: Convolution, LTI systems properties, Continuous and discrete-time LTI causal systems. • Fourier series Representation of Periodic Systems: LTI system response to complex exponentials, Properties of Fourier series, Applications to filtering, Examples of filters. Al-Dhaifallah_Term111

8. Course Outlines • Continuous-Time Fourier Transform: Fourier transform of aperiodic and periodic signals, Properties, Convolution and multiplication properties, Frequency response of LTI systems. • Discrete-Time Fourier Transform: Overview of Discrete-time equivalents of topics covered in chapter 4. Al-Dhaifallah_Term111

9. Course Outlines • Laplace transform(Laplace transform as Fourier transform with convergence factor. Properties of the Laplace transform • z transform. Properties of the z transform. Examples. Difference equations and differential equations. Digital filters. Al-Dhaifallah_Term111

10. Course Project Students are required to work in groups and are encouraged to submit a proposal for their own project which must be related to the course matter and which involves some practical application. Students may always discuss their proposals with the instructor and seek his approval before starting work on their project. Students may use either Matlab or LabView to carry out their projects. Al-Dhaifallah_Term111

11. Grading Policy • Exam 1 (10%), • Exam 2 (10%) • Final Exam (60%), • Quizzes (10%) • HWs (5%) • Attendance & class participation (5%), penalty for late attendance • Note: No absence, late homework submission allowed without genuine excuse. Al-Dhaifallah_Term111