CmpE 362 Intro.to Signal Proc. For Computer.Eng. 2012 Fall

Instructor: 

Course Program: 

Introduction to discrete and continuous time signals and systems with computer engineering applications. Time-domain signal representations, impulse response of linear time-invariant systems; convolution. Fourier series. Spectrum representation of signals. Fourier transform. Digital signals and sampling. Reconstruction. Filtering. Z-transform representation. Discrete Fourier transform. Algorithms for signal processing. Floating point and quantization errors. Exercises with applications in audio and image processing.

 

Prerequisites: MATH 202

 

Course Objectives: As part of this course, students:

1.   will understand mathematical representation of discrete-time and continuous-time signals.

2.   will be introduced to signal processing and characterization techniques, such as filtering, frequency response

3.   Gain laboratory experience in computer-based signal processing.

 

Textbook: McClellan, Shafer, and Yoder, Signal Processing First, Prentice Hall, 2003.

MATLAB: http://www.mathworks.com/help/pdf_doc/matlab/getstart.pdf

Read: A. V. Openheim, A. S. Willsky, Signals and Systems (2ed), Prentice Hall 1996

 

Instructor: Fatih.Alagozatboun.edu.tr; TA: Beyza.Ermisatboun.edu.tr,  VA: Gul.varolatboun.edu.tr 

Tel: 359 6652, ETA Room 42

 

Topics:

•    Introduction

•    Signal processing applications in computer engineering

•    Basics of continuous-time and discrete-time signals and systems.

•    Floating point representation, quantization errors

•    Linear  time-invariant systems; Convolution.

•    Fourier Series representation of continuous-time and discrete-time Periodic signals; properties of Fourier series; filtering concepts.

•    The continuous time Fourier transform and its properties

•    The Fourier transform for periodic signals.

•    Sampling and discretization of continuous-time signals.

•    The z-transform and its properties

•    Analysis of discrete-time systems using z-transform

•    The discrete-time Fourier transform and its properties

•    Algorithms for signal and image processing

•    Applications

 

Grading: 5-6 sets of homework problems, which contain laboratory exercises based on MATLAB, in addition to regular homework exercises. There are two in-class mid-term exams and a final exam.

Tentative Grading Policy: 30% of (Projects, Homeworks, Quiz), 20% of Midterm1, 20% of Midterm2, and 30% of Final exam.

 

IMPORTANT NOTE:

Score 1 = (0.30×(Projects and/or HWs and/or Quiz) + 0.40 × Midterm Exams Result) / 0.70 
Score 1 values will be used to rank students. Students who get reasonably high Score 1 values will earn the right to take the final exam. Students who get low Score 1 values will not earn the right to take the final exam and will automatically receive F from this course. 

Score 1 = (0.30×Projects,HWs,Quiz Average + 0.40×Midterm Exams Result+ 0.30xFinal Exam Result

Score 2 values will be used to rank the students who receive the final exam. Students who get reasonably high Score 2 values will manage to earn a passing letter grade such as AA, BA, BB, CB, CC, DC, or DD. Students who get low Score 2 values will receive F. Students who receive F based on their Score 2 values will have the right to attend to the final make-up exam (bütünleme). The students who earn the right, but do not attend to the final exam will also have the right to take the final make-up exam given that they have a valid reason. 
 

Prepared by:          Prof. Dr. Fatih Alagoz

Date:                        February 2013

 

Contact us

Department of Computer Engineering, Boğaziçi University,
34342 Bebek, Istanbul, Turkey

  • Phone: +90 212 359 45 23/24
  • Fax: +90 212 2872461
 

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