Digital processing of signal WM-MA-CPS
The lecture will present a mathematical description of digital systems, Z transformation, system transfer function, frequency response, impulse response, convolution of two signals, digital filter structures, construction of a digital filter based on the arrangement of zeros and poles of the transfer function. Frequency analysis techniques will be presented: window functions, frequency resolution, amplitude resolution, interpolated DFT value, spectrogram (short time Fourier transform). Digital filter design techniques will be presented.
During laboratory classes, CPS libraries and other programming tools will be used in projects.
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Term 2021/22_Z:
The lecture will present a mathematical description of digital systems, Z transformation, system transfer function, frequency response, impulse response, convolution of two signals, digital filter structures, construction of a digital filter based on the arrangement of zeros and poles of the transfer function. Frequency analysis techniques will be presented: window functions, frequency resolution, amplitude resolution, interpolated DFT value, spectrogram (short time Fourier transform). Digital filter design techniques will be presented. During laboratory classes, CPS libraries and other programming tools will be used in projects. |
Term 2022/23_Z:
The lecture will present a mathematical description of digital systems, Z transformation, system transfer function, frequency response, impulse response, convolution of two signals, digital filter structures, construction of a digital filter based on the arrangement of zeros and poles of the transfer function. Frequency analysis techniques will be presented: window functions, frequency resolution, amplitude resolution, interpolated DFT value, spectrogram (short time Fourier transform). Digital filter design techniques will be presented. During laboratory classes, CPS libraries and other programming tools will be used in projects. |
Term 2023/24_Z:
The lecture will present a mathematical description of digital systems, Z transformation, system transfer function, frequency response, impulse response, convolution of two signals, digital filter structures, construction of a digital filter based on the arrangement of zeros and poles of the transfer function. Frequency analysis techniques will be presented: window functions, frequency resolution, amplitude resolution, interpolated DFT value, spectrogram (short time Fourier transform). Digital filter design techniques will be presented. During laboratory classes, CPS libraries and other programming tools will be used in projects. |
(in Polish) Dyscyplina naukowa, do której odnoszą się efekty uczenia się
(in Polish) E-Learning
Term 2023/24_Z: (in Polish) E-Learning (pełny kurs) z podziałem na grupy | Term 2019/20_Z: (in Polish) E-Learning (pełny kurs) | Term 2021/22_Z: (in Polish) E-Learning (pełny kurs) z podziałem na grupy | Term 2020/21_Z: (in Polish) E-Learning (pełny kurs) z podziałem na grupy | Term 2022/23_Z: (in Polish) E-Learning (pełny kurs) z podziałem na grupy | Term 2024/25_Z: (in Polish) E-Learning |
(in Polish) Grupa przedmiotów ogólnouczenianych
(in Polish) Opis nakładu pracy studenta w ECTS
Subject level
Learning outcome code/codes
Type of subject
Preliminary Requirements
Course coordinators
Learning outcomes
Lecture
The student knows:
W14 - theoretical and technical foundations of the selected IT specialization
Lab
The student is able to:
U18 - use IT tools and methods in the selected field
Assessment criteria
Lab
introduction project
Lecture individual project or written exam on the theory presented in the lecture
The following evaluation criteria are adopted for all effects in all forms of verification:
rating 5: fully achieved (no noticeable shortcomings),
rating 4.5: almost fully achieved and the criteria for awarding a higher rating are not met,
grade 4: achieved to a significant extent and the criteria for awarding a higher grade are not met,
grade 3.5: achieved to a significant extent with a clear predominance of positives and the criteria for awarding a higher grade are not met,
rating 3: achieved for most cases covered by the verification and the criteria for awarding a higher rating are not met,
grade 2: not achieved for most cases under review.
Bibliography
The scientist and engineer’s guide to digital signal processing, S. W. Smith, at http://www.dspguide.com.
Cyfrowe przetwarzanie sygnałów, A. V. Oppeheim, R. W. Schafer, PWN, 1978.
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Term 2021/22_Z:
The scientist and engineer’s guide to digital signal processing, S. W. Smith, at http://www.dspguide.com. |
Term 2022/23_Z:
The scientist and engineer’s guide to digital signal processing, S. W. Smith, at http://www.dspguide.com. |
Term 2023/24_Z:
The scientist and engineer’s guide to digital signal processing, S. W. Smith, at http://www.dspguide.com. |
Additional information
Additional information (registration calendar, class conductors, localization and schedules of classes), might be available in the USOSweb system: