Department of Electrical and Computer Engineering - Oregon State University ECE 351: Signals and Systems I Winter Quarter 2009, MWF 10:00-10:50 pm, STAG 329

Instructor

Larry Marple, 3011 Kelley Engineering Center (KEC), Phone: 737-3274, Email: marple@eecs.oregonstate.edu

Office Hours: Tu 1-2pm, We 1130am-1230pm, or by email appointment (48 hours minimum notice)

Teaching Assistant

Sang Jun Kim, 3048 Kelley Engineering Center, Phone: 737-2349, Email: kim@eecs.oregonstate.edu

Office Hours in KEC3087: Tuesday 4-5pm, Thursday 4-5pm, or by email appointment

Homework help sessions every Monday evening 600-800pm in KEC 1003, effective 19 January 2009

Course Description

This is an introductory course that develops time domain and frequency domain characterizations of and operations on signals and systems. Time domain characterizations and operations for continuous-time and discrete-time signals and systems are periodicity, linearity, time-invariance, causality, impulse response, and convolution operations. Frequency domain characterizations and operations are developed using the Fourier Transform and the Discrete-Time Fourier Transform (DTFT).

Prerequisites

ENGR 203, MTH 256

Textbook and Recommended Text

S. Haykin and B. Van Veen, Signals and Systems, Second Edition, John Wiley & Sons, 2003. ISBN 0471-16474-7

Recommended: W. Palm, Introduction to Matlab 7 for Engineers, McGraw-Hill, 2006. ISBN 0-07-2548185

Course Program

• MATLAB Tutorial (~1 week)

• Chapter 1 - Introduction (~1.5 weeks)

  • Basic concepts of continuous-time (CT) and discrete-time (DT) signals and systems
  • CT and DT periodicities
  • Signal mathematical representations (including complex exponentials)

• Chapter 2 - Time-Domain Representation of Linear Time-Invariant (LTI) Systems [2.1-2.11](~3 weeks)

  • Convolution sum and integral
  • Interconnection of LTI systems
  • LTI system properties
  • Impulse response
  • Step response
  • Differential and difference equations (DE)
  • Characteristics of systems described by DE
  • Using Matlab for time-domain analysis

• Chapter 3 - Frequency-Domain Representation of Signals and LTI Systems (~3 weeks)

  • Frequency response of LTI systems
  • Fourier series
  • Fourier transform (FT)
  • Discrete-time Fourier series, Discrete-time Fourier transform (DTFT)
  • Properties of Fourier representations
  • Parseval relationships and time-bandwidth product
  • Using MATLAB for frequency domain analysis

• Chapter 4 - Applications of Fourier Representations to Mixed Signal Classes [4.1-4.5](~1.5 weeks)

  • Fourier transform of impulse train and its applications
  • Fourier transform representations of periodic and discrete-time signals
  • Convolution and multiplication with mixtures of periodic and non-periodic signals
  • Sampling and aliasing

Lecture Notes

PDF files of chapter lecture notes will be e-mailed periodically to students enrolled in the class.

MATLAB Demos and Support Functions

• matlab_demo_script.m
• extract.m
• CTvsDT_periodicity.m
• DT_convolution_demos.m
• DT_convolve_plot.m
• CT_convolution_demos.m
• CT_convolve_plot.m
• CT_conv_approx_by_DT_conv_demo.m
• recur.m
• example2_16.m
• first_order_DE_demo.m
• first_order_DE_case.m
• second_order_DE_demo.m
• second_order_DE_case.m
• Fourier_series_demo.m
• lim_FS_into_FT.m
• DTFS_harmonics.m
• pulse_demo.m
• window_DTFT_demo.m
• aliasing_demo_audible.m
• aliasing_demo_visual.m
• aliasing_movie_cases.m
• aliasing_movie_generation.m

Grading Policy

• Homework (1 Matlab assignment [1%] and 8 textbook assignments [3% each] ): 25%
• Two midterm exams [20% each]: 40%
• Final exam: 35%
• Target grading scale: A range (85-100), B range (67-84), C range (50-66), <50 (don't go there)

Exam Schedule

• Midterm Exam 1: January 30 ( W09 mid-term 1 solutions )
• Midterm Exam 2: February 20 ( W09 mid-term 2 solutions )
• Final Exam: March 18, 9:30-11:30 am, Owen 103 ( w09 final exam solutions )

Exams are open book. No electronics or calculators may be used.

Useful Links

• Mathwork's Matlab Tutorial Website
• Using Matlab on an Engineering PC
• Interactive Signal and Systems Demos

Homework Assignments

See TA first for assistance.
Verbatim or plaguarized solutions from posted sources will receive a grade of 0.
Assignments are to be submitted only at beginning of class on the due date. Late homework will not be graded.

Announcements

• Final exam solutions are posted; use link above.