Signal Analysis Lecturer: Dr. Peter Tsang Room:G6505 Phone: 27887763 E-mail: eewmtsan@cityu.edu.hk Website: www.ee.cityu.edu.hk/-csl/sigana/ Files: SIG01.ppt, SIG02.ppt, SIG03.ppt, SIG04.ppt Restrict access to students taking this course
Lecturer: Dr. Peter Tsang Room: G6505 Phone: 27887763 E-mail: eewmtsan@cityu.edu.hk Website: www.ee.cityu.edu.hk/~csl/sigana/ Files: SIG01.ppt, SIG02.ppt, SIG03.ppt, SIG04.ppt Restrict access to students taking this course
sigmal AMalysis Suggested reference books 1. M.L. Meade and c.r. Dillon, " Signals and Systems'", van Nostrand Reinhold(UK N Levan, "Systems and Signals,, Optimization Software, Inc 3.FR. Connor,“ Signals”, Edward arnold 4. A. Oppenheim, "Digital Signal Processing ", Prentice Hall. Note: Students are encouraged to select reference books in the library Supporting reference
Suggested reference books 1. M.L. Meade and C.R. Dillon, “Signals and Systems”, Van Nostrand Reinhold (UK). 2. N.Levan, “Systems and Signals”, Optimization Software, Inc. 3. F.R. Connor, “Signals”, Edward Arnold. 4 * . A. Oppenheim, “Digital Signal Processing”, Prentice Hall. Note: Students are encouraged to select reference books in the library. ⚫ * Supporting reference
sigmal AMalysis Course outline Week 2-4: Lecture Week 6: Test Week 7-10: Lecture Week 11 Test Scores Tests 30%(15% for each test) Exam: 70%o
Course outline ⚫ Week 2-4 : Lecture ⚫ Week 6 : Test ⚫ Week 7-10 : Lecture ⚫ Week 11 : Test Scores Tests : 30% (15% for each test) Exam : 70%
sigmal AMalysis Tutorials Group o1 Friday Weeks 23,4,7.8,9 Group 02: Monday Weeks :34,5,7,8,9 Group 03: Thursday Weeks:2,3,4,7,8,9
Tutorials ⚫ Group 01 : Friday Weeks : 2,3,4,7,8,9 ⚫ Group 02 : Monday Weeks : 3,4,5,7,8,9 ⚫ Group 03 : Thursday Weeks : 2,3,4,7,8,9
她 AMalysis Course outline 1. Time Signal representation. 2. Continuous signals 3. Fourier, Laplace and z Transform 4. Interaction of signals and systems 5. Sampling Theorem. 6. Digital Signals. 7. Fundamentals of Digital System. 8. Interaction of digital signals and systems
Course outline 1. Time Signal Representation. 2. Continuous signals. 3. Fourier, Laplace and z Transform. 4. Interaction of signals and systems. 5. Sampling Theorem. 6. Digital Signals. 7. Fundamentals of Digital System. 8. Interaction of digital signals and systems