ME 360 - Signal Processing

Spring 2021

TitleRubricSectionCRNTypeHoursTimesDaysLocationInstructor
Signal ProcessingME360ABA37369OLB01500 - 1650 M    Alireza Askarian
Signal ProcessingME360ABB37371OLB00800 - 0950 T    Raj Kiriti Velicheti
Signal ProcessingME360ABC37373OLB01000 - 1150 T    Jaesang Park
Signal ProcessingME360ABD37375OLB01500 - 1650 T    Alireza Askarian
Signal ProcessingME360ABE37377OLB00800 - 0950 W    Abdul Alkurdi
Signal ProcessingME360ABF37379OLB00800 - 0950 R    Raj Kiriti Velicheti
Signal ProcessingME360ABG37380OLB01000 - 1150 R    Jaesang Park
Signal ProcessingME360ABH37383OLB01300 - 1450 R    Jaesang Park
Signal ProcessingME360ABI37386OLB01600 - 1750 R    Alireza Askarian
Signal ProcessingME360ABK49392OLB01500 - 1650 W    Alireza Askarian
Signal ProcessingME360ABM61596OLB01300 - 1450 T    Abdul Alkurdi
Signal ProcessingME360ABO71885OLB0 -    
Signal ProcessingME360AL137366OLC3.51400 - 1450 M W F    Geir E Dullerud
Oyuna Angatkina
Signal ProcessingME360AL369390OLC3.5 -    Joseph Bentsman
Yongseok Lee
Signal ProcessingME360OL137368OLC3.5 -    Geir E Dullerud
Oyuna Angatkina
Signal ProcessingME360OL370865OLC3.5 -    Joseph Bentsman
Yongseok Lee
Signal ProcessingME360ZJ173169LEC3.51000 - 1050 M W F  ARR Zhejiang University Geir E Dullerud

Official Description

Basic electromechanical techniques used in modern instrumentation and control systems. Use of transducers and actuators. Signal conditioning, grounding, and shielding. Analog and digital signal processing and feedback control methods with emphasis on frequency domain techniques. Frequency response of continuous and discrete systems. Course Information: Credit is not given for both ME 360 and ABE 425. Prerequisite: ME 340. Class Schedule Information: Students must register for one lab and one lecture section.

Detailed Course Description

Basic electromechanical techniques used in modern instrumentation and control systems. Use of transducers and actuators. Signal conditioning, grounding, and shielding. Analog and digital signal processing and feedback control methods with emphasis on frequency domain techniques. Frequency response of continuous and discrete systems. Prerequisite: ME 340. 3.5undergraduate hours. Students may not receive credit for both this course and ABE 425.

TOPICS:
1. Review of Harmonic signals, Fourier series, continuous time systems and Laplace transforms
2. Systems frequency response, Fourier transform, analog filters
3. Impulse response and convolution for continuous time systems
4. Sampling theory and introduction to aliasing, anti aliasing filters
5. Signal conversion techniques (A/D, D/A), signal reconstruction
6. Discrete time Fourier transform
7. Discrete Fourier transform, windowing
8. Discrete time systems and Z-transforms, response to periodic signals
9. Introduction to analog filter design
10. Introduction to digital filter design
11. Introduction to feedback control system, loop stability and PID control
12. Introduction to control system implementation
13. Instrumentation amplifiers and transducer signal conditioning, grounding and shielding techniques
14. Transducers (strain gages, accelerometers (piezoelectric and piezoresistive), load cells, pressure sensors, thermocouples, RTD's, etc.)
Actuators [electric motors (DC, AC, stepper), pneumatic, hydraulic]

ME: Required.

EM: Possible secondary field, with approval.

Last updated

9/26/2018