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The subject includes general methods of analysis and processing of sequences of observed signals and images (http://uprt.vscht.cz/prochazka/pedag/ATHENSe.htm). Fundamental mathematical methods include discrete Fourier transform for analysis of multidimensional signals, z-transform for system description, selected statistical and numerical methods including the use of difference equations for the time-domain system description and design of digital filters. Algoritmic methods are implemented in the MATLAB and Simulink environment using both numerical methods and symbolic mathematics. Projects include the application of selected methods for biomedical signal and image analysis, environmental signal processing and energy data prediction.
Last update: Procházka Aleš (25.07.2013)
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Students will know how
(i) to analyze time series and images by discrete Fourier and wavelet transforms, (ii) to use z-transform for discrete systems description, (iii) to apply digital filters in time and frequency domains, (iv) to use digital signal processing methods for real data analysis Last update: Procházka Aleš (25.07.2013)
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R:T. Bose: Digital Signal and Image Processing, Wiley, 2004 R:J. Uhlíř, P. Sovka, Číslicové zpracování signálů, Vydavatelství ČVUT, 2002 A:J. Jan, Číslicová filtrace, analýza a restaurace signálů, BEN 2004 A:http://uprt.vscht.cz/prochazka/pedag/DSPc.htm Last update: TAJ445 (30.09.2013)
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In the frame of computational laboratories it is necessary to evaluate 3 projects including mathematical analysis of methods used and their verification in the MATLAB/Simulink environment. During exam the knowledge of mathematical metods of signal and image analysis and processing is verified together with their algorithmic implementation (http://uprt.vscht.cz/prochazka/pedag/ATHENSe.htm). Last update: Procházka Aleš (13.09.2009)
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1. Algorithmic tools of digital signal processing, fundamentals of MATLAB environment 2. Numerical, symbolic and visualization tools of MATLAB, data files processing 3. Time-domain signal representation, difference equations, selected statistical methods 4. Frequency-domain signal analysis, sampling, discrete Fourier transform, decomposition 5. Spectrum estimation, aliasing, short-time Fourier transform, window functions 6. Z-transform and system description, discrete transfer function, frequency transfer function 7. Digital filters, basic methods in the time domain, convolution, FIR filters, filter banks 8. IIR filters, basic properties, signal decimation 9. Filtering methods in frequency domain, signal reconstruction, window functions 10. Linear methods of time series modelling and prediction, SVD a QR algorthm, model selection 11. Nonlinear methods of signal processing, median filters, principles of neural networks 12. Basic methods of image analysis, 2D Fourier transform, image processing 13. Signal processing in engineering, signal prediction, Simulink environment, basic blocks 14. Biomedical signal and image processing Last update: Procházka Aleš (31.01.2008)
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http://uprt.vscht.cz/prochazka/pedag/lectures/ATHENS_DSP.pdf
http://uprt.vscht.cz/prochazka/pedag/lectures/SP0_MATLAB_2006EN.pdf Last update: Procházka Aleš (25.07.2013)
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Fundamentals of MATLAB programming Last update: Procházka Aleš (07.08.2013)
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Mathematical Methods in Engineering Last update: Procházka Aleš (25.07.2013)
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Teaching methods | ||||
Activity | Credits | Hours | ||
Konzultace s vyučujícími | 0.5 | 14 | ||
Účast na přednáškách | 1 | 28 | ||
Příprava na přednášky, semináře, laboratoře, exkurzi nebo praxi | 0.5 | 14 | ||
Práce na individuálním projektu | 1 | 28 | ||
Příprava na zkoušku a její absolvování | 1 | 28 | ||
Účast na seminářích | 1 | 28 | ||
5 / 5 | 140 / 140 |
Coursework assessment | |
Form | Significance |
Regular attendance | 30 |
Report from individual projects | 30 |
Oral examination | 40 |