syllabus - drawals 8 Attendance Required Students who know in advance that class will be missed are ex-pected to make arrangements with me for homework

ECE 108 Signals and Systems Spring 2007, Instructor: Tiffany Li Course Syllabus 1. Time and Room: Lecture MWF 9:10-10:00am, Maginnes Hall 102 Recitation R 8:20-9:10am, 9:20-10:10am, 10:45-11:35am, Rauch 050 2. Instructor: Tiffany Li, ext. 83305, office PL406B, [email protected] 3. Office Hours: 10:10-11:00am (MWF) or by appointment 4. Text: Signal Processing Linear Systems , by B. P. Lathi, Berkeley-Cambridge Press (1998) 5. Objectives: Upon successful completion of the course, students will be able to • model continuous and discrete time signals • represent periodic signals using Fourier Series • represent aperiodic signals using Fourier transforms • analyze linear systems using Fourier and Laplace transforms • analyze digital systems using Z-transforms 6. Honesty Policy: Students are expected to adhere to the academic honesty guidelines out- lined in the Student Handbook. Violators will be referred to the appropriate Dean’s office. 7. Withdrawl: Please refer to the Student Handbook for college policy regarding with-

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Unformatted text preview: drawals. 8. Attendance: Required. Students who know in advance that class will be missed are ex-pected to make arrangements with me for homework assignments, class notes, etc. 9. Grading: Lecture grade is determined by 7-9 homeworks (25%), 5 short quizzes (25%), one midterm (15%) and a final exam (35%). 10. Homework: Weekly homework assigned every Monday, collected the next Monday be-fore class, and graded and returned on Thursday during the recitation session. No late homework accepted. 11. Topics: • Chapter 1: Introduction to Signals and Systems • Chapter 2: Time Domain Analysis of Continuous-Time and Discrete-Time Systems • Chapter 3: Fourier Series and Periodic Signals • Chapter 4: Fourier Transforms and Aperiodic Signals • Chapter 5: Sampling and Discrete Fourier Transforms • Chapter 6: Laplace Transforms • Chpater 8-11: Discrete Time Signals and Z Transforms 1...
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