EE 422G SIGNALS &
SYSTEMS II
Fall 2004
Instructor: YuMing Zhang, 210E
Teaching Assistant: Gohar Saeed, Email: gmsaee0@uky.edu Quiz
and HW Grades
Text: Ziemer, Tranter, Fannin, Signals & Systems: Continuous and Discrete Fourth Edition, Prentice Hall, 1998
Office Hour:
Course Website: www.engr.uky.edu/~ymzhang/EE422/EE422.html
Coverage:
1. Unit One (Chapters 5 & 6): Laplace Transform, Applications of the Laplace Transform
Laplace Transform
Applications of the Laplace Transform
Test 1: Wednesday, September 29
Test 1
Grade
1. Unit Two (Chapters 7&8): State-Variable Techniques, Discrete-Time Signals and Systems
State-Variable Techniques
Discrete-Time Signals and Systems
Review Two Review
Two Solutions
Test 2: Monday, Nov. 15 Test 2 Grade
2. Unit Three (Chapters 9&10): Analysis and
Design of Digital Filters, Discrete Fourier Transform and Fast Fourier
Transform Algorithms
Analysis and Design of Digital
Filters
The Discrete Fourier Transform
and Fast Fourier Transform Algorithms
Test 3: 10:30 a.m. on Monday, 12/13/2004 Test 3 Grade
Final Comprehensive: 11:30 a.m. on Monday, 12/13/2004. It can be bypassed with 10 points if a perfect attendance record is maintained.
|
Assignment/Test |
Points |
|
HW/Quiz |
15 |
|
Test 1 |
25 |
|
Test 2 |
25 |
|
Test 3 |
25 |
|
Final Comprehensive |
10 |
|
Total |
100 |
Outcomes:
Upon
completion of this course students should demonstrate the ability to:
1. Analyze discrete-time signals with the (discrete) Fast Fourier transform.
2. Analyze discrete-time systems with the difference equations and Z-transforms.
3. Characterize input-output relationships of linear time-invariant discrete-time systems using impulse responses, transfer functions, and state-variable representations.
4. Analyze linear continuous-time systems with the Laplace transforms and solve their state-equations.
5. Design basic digital filters and feedback control systems.