Subject description - AD2M99CZS

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AD2M99CZS Digital Signal processing Extent of teaching:14KP+6KC
Guarantors:  Roles:P,V Language of
teaching:
CS
Teachers:  Completion:Z,ZK
Responsible Department:13131 Credits:5 Semester:Z

Anotation:

The subject gives overview about basic methods of digital signal processing and their applications (examples from speech and biological signal processing): disrete-time signals and systems, signal characteristics in time and frequency domain, Fourier transform, fast algorithms for DFT computation, introduction to digital filter design, digital filtering in time and frequency domain, decimation and interpolation and their usage in filter banks, basics of LPC analysis.

Study targets:

Students should acquire theoretical and practical experiences about basic DSP techniques and the most frequent applications. Simple implementations and simulations of basic DSP methods in MATLAB environment are solved in seminars of the subject. Extended level is possible to be managed within individual projects.

Course outlines:

1. Introduction to DSP. Sampling theorem.
2. Basic characteristics of digital signals.
3. Autocorrelation and crosscorrelation functions
4. Fourier transform of discrete signal.
5. Properties of DFT, fast algorithms for DFT computation.
6. Spectral characteristics of stachastic and non-stationary signals.
7. Signal and system reprezentation in Z-domain
8. Digital Filtering I - FIR filters.
9. Digital filtering II - IIR filters.
10. Digital filtering in the frequency domain.
11. Basics of multi-band signal processing.
12. Basics of parametric methods of signal processing.
13. DSP applications in speech and biological signal processing. Signal compression.
14. Reserve.

Exercises outline:

1. Introduction to MATLAB and other tools
2. Computation of basic time-domain characterstics in MATLAB
3. Autocorrelation analysis and its applications
4. Discrete Fourier Transform (DFT) and its properties, interpolation, zero-padding
5. Spectral analysis of deterministic signals
6. Spectral analysis of stochastic and non-stationary signals
7. Discrete-time systems: basic properties, frequency repsonse
8. Design of digital FIR filters
9. Design of digital IIR filters
10. Digital filtering in frequency domain, implementation of signal segmentation
11. Parametric metods of DSP
12. Basics of multi-band signal processing
13. Consultations on semester works
14. Project presentation, credit

Literature:

[1] Oppenheim, A.V., Shafer, R.W.: Discrete-Time Signal Processing. Prentice-Hall, Inc., New Jersey, 1998
[2] Rabiner, L.R., Schafer, F.W.: Digital Processing of Speech Signals. Prentice-Hall, Inc., New York, 1978
[3] Makhoul, J.: Linear Prediction: A Tutorial Review. In Proceedings of the IEEE, Vol. 63, No. 4, April 1975
[4] The MathWorks: MATLAB User's and Reference Guides.
[5] The MathWorks: Signal Processing Toolbox - User's Guide.
(Any other book devoted to digital signal processing.)

Requirements:

Bases of signal and system theory with necessary mathematical background are supposed as preliminary knowledge.

Webpage:

https://moodle.fel.cvut.cz/courses/AD2M99CZS

Subject is included into these academic programs:

Program Branch Role Recommended semester
MKEEM1 Technological Systems V 1
MKEEM5 Economy and Management of Electrical Engineering V 1
MKEEM4 Economy and Management of Power Engineering V 1
MKEEM3 Electrical Power Engineering V 1
MKEEM2 Electrical Machines, Apparatus and Drives V 1
MKOI1 Artificial Intelligence V 1
MKOI5 Software Engineering V 1
MKOI4 Computer Graphics and Interaction V 1
MKOI3 Computer Vision and Image Processing V 1
MKOI2 Computer Engineering V 1
MKKME1 Wireless Communication P 1
MKKME5 Systems of Communication P 1
MKKME4 Networks of Electronic Communication P 1
MKKME3 Electronics P 1
MKKME2 Multimedia Technology P 1
MKKYR4 Aerospace Systems V 1
MKKYR1 Robotics V 1
MKKYR3 Systems and Control V 1
MKKYR2 Sensors and Instrumentation V 1


Page updated 16.12.2019 12:52:21, semester: Z,L/2020-1, L/2018-9, Z,L/2019-20, Send comments about the content to the Administrators of the Academic Programs Proposal and Realization: I. Halaška (K336), J. Novák (K336)