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Copyright (C) 2005 Güner Arslan 351M Digital Signal Processing (Spring 2005) 1 EE 351M Digital Signal Processing Instructor: Güner Arslan Dept. of Electrical.

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Presentation on theme: "Copyright (C) 2005 Güner Arslan 351M Digital Signal Processing (Spring 2005) 1 EE 351M Digital Signal Processing Instructor: Güner Arslan Dept. of Electrical."— Presentation transcript:

1 Copyright (C) 2005 Güner Arslan 351M Digital Signal Processing (Spring 2005) 1 EE 351M Digital Signal Processing Instructor: Güner Arslan Dept. of Electrical and Computer Engineering The University of Texas at Austin www.ece.utexas.edu/~arslan/351m.html

2 Copyright (C) 2005 Güner Arslan 351M Digital Signal Processing (Spring 2005) 2 Course Details Objective –Establish a background in Digital Signal Processing Theory Required Text –Discrete-Time Signal Processing, –Prentice Hall, 2 nd Edition –Alan Oppenheim, Ronald Schafer, John Buck Grading –Midterm #1:20% –Midterm #2:20% –Homework:20% –Final:40% Homework: Due to beginning of Wednesday Classes –Problems –MATLAB assignments

3 Copyright (C) 2005 Güner Arslan 351M Digital Signal Processing (Spring 2005) 3 Useful References Text Books –DSP First A Multimedia Approach James McClellan, Ronald Schafer, Mark Yoder –Digital Signal Processing, A Computer Science Perspective Jonathan Stein –A Course in Digital Signal Processing Boaz Porat Web Sites –Matlab Tutorial http://www.utexas.edu/cc/math/tutorials/matlab6/matlab6.html

4 Copyright (C) 2005 Güner Arslan 351M Digital Signal Processing (Spring 2005) 4 DSP is Everywhere Sound applications –Compression, enhancement, special effects, synthesis, recognition, echo cancellation,…enhancement –Cell Phones, MP3 Players, Movies, Dictation, Text-to-speech,… Communication –Modulation, coding, detection, equalization, echo cancellation,… –Cell Phones, dial-up modem, DSL modem, Satellite Receiver,… Automotive –ABS, GPS, Active Noise Cancellation, Cruise Control, Parking,… Medical –Magnetic Resonance, Tomography, Electrocardiogram,… Military –Radar, Sonar, Space photographs, remote sensing,… Image and Video Applications –DVD, JPEG, Movie special effects, video conferencing,… Mechanical –Motor control, process control, oil and mineral prospecting,…

5 Copyright (C) 2005 Güner Arslan 351M Digital Signal Processing (Spring 2005) 5 Course Outline Introduction to Digital Signal Processing Sampling of Continuous-Time Signals –Periodic (Uniform) Sampling (4.1) –Frequency-Domain Representation of Sampling (4.2) Discrete-Time Signals and System –Discrete-Time Signals: Sequences (2.1) –Discrete-Time Systems (2.2) –Linear Time-Invariant Systems (2.3) –Properties of Linear Time-Invariant Systems (2.4) –Linear Constant-Coefficient Difference Equations (2.5) –Freq. Domain Representation of Discrete-Time Signals (2.6) –Representation of Sequences by Fourier Transforms (2.7) –Symmetry Properties of the Fourier Transform (2.8) –Fourier Transform Theorems (2.9) –Reconstruction of a Bandlimited Signal from Its Samples (4.3)

6 Copyright (C) 2005 Güner Arslan 351M Digital Signal Processing (Spring 2005) 6 Course Outline The Z-Transform –Z-Transform (3.1) –Properties of the Region of Convergence of the z-Transform (3.2) –The Inverse Z-Transform (3.3) –Z-Transform Properties (3.4) Transform Analysis of Linear Time-Invariant Systems –The Frequency Response of LTI Systems (5.1) –Constant-Coefficient Difference Equations (5.2) –Frequency Response for Rational System Functions (5.3) –Relationship between Magnitude and Phase (5.4) –All-Pass Systems (5.5) –Minimum-Phase Systems (5.6) Filter Design Techniques –Design of Discrete-Time IIR Filters from Continuous-Time Filters (7.1) –Design of FIR Filters by Windowing (7.2) –Optimum Approximation of FIR Filters (7.4)

7 Copyright (C) 2005 Güner Arslan 351M Digital Signal Processing (Spring 2005) 7 Course Outline Structures for Discrete-Time Systems –Block Diagram Representation (6.1) –Signal Flow Graph Representation (6.2) –Basic Structures for IIR Systems (6.3) –Transposed Forms (6.4) –Basic Structures for FIR Systems (6.5) –Finite Precision Numerical Effects (6.6) –Effects of Coefficient Quantization (6.7) –Effects of Round-Off Noise in Digital Filters (6.8) The Discrete-Fourier Transform –Discrete Fourier Series (8.1) –Properties of the Discrete Fourier Series (8.2) –The Fourier Transform of Periodic Signals (8.3) –Sampling the Fourier Transform (8.4) –The Discrete Fourier Transform (8.5) –Properties of the DFT (8.6) Computation of the Discrete-Fourier Transform

8 Copyright (C) 2005 Güner Arslan 351M Digital Signal Processing (Spring 2005) 8 Signal Processing Humans are the most advanced signal processors –speech and pattern recognition, speech synthesis,… We encounter many types of signals in various applications –Electrical signals: voltage, current, magnetic and electric fields,… –Mechanical signals: velocity, force, displacement,… –Acoustic signals: sound, vibration,… –Other signals: pressure, temperature,… Most real-world signals are analog –They are continuous in time and amplitude –Convert to voltage or currents using sensors and transducers Analog circuits process these signals using –Resistors, Capacitors, Inductors, Amplifiers,… Analog signal processing examples –Audio processing in FM radios –Video processing in traditional TV sets

9 Copyright (C) 2005 Güner Arslan 351M Digital Signal Processing (Spring 2005) 9 Limitations of Analog Signal Processing Accuracy limitations due to –Component tolerances –Undesired nonlinearities Limited repeatability due to –Tolerances –Changes in environmental conditions Temperature Vibration Sensitivity to electrical noise Limited dynamic range for voltage and currents Inflexibility to changes Difficulty of implementing certain operations –Nonlinear operations –Time-varying operations Difficulty of storing information

10 Copyright (C) 2005 Güner Arslan 351M Digital Signal Processing (Spring 2005) 10 Digital Signal Processing Represent signals by a sequence of numbers –Sampling or analog-to-digital conversions Perform processing on these numbers with a digital processor –Digital signal processing Reconstruct analog signal from processed numbers –Reconstruction or digital-to-analog conversion A/DDSPD/A analog signal analog signal digital signal Analog input – analog output –Digital recording of music Analog input – digital output –Touch tone phone dialing Digital input – analog output –Text to speech Digital input – digital output –Compression of a file on computer

11 Copyright (C) 2005 Güner Arslan 351M Digital Signal Processing (Spring 2005) 11 Pros and Cons of Digital Signal Processing Pros –Accuracy can be controlled by choosing word length –Repeatable –Sensitivity to electrical noise is minimal –Dynamic range can be controlled using floating point numbers –Flexibility can be achieved with software implementations –Non-linear and time-varying operations are easier to implement –Digital storage is cheap –Digital information can be encrypted for security –Price/performance and reduced time-to-market Cons –Sampling causes loss of information –A/D and D/A requires mixed-signal hardware –Limited speed of processors –Quantization and round-off errors

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