Signals and systems

The course is not on the list Without time-table
Code Completion Credits Range
QB-SAS Z,ZK 5 2+2c
Department of Radioelectronics

Course explains basic terms and methods for continuous-time and discrete-time signal and system analysis.

Syllabus of lectures:

1.Types of signals, definition and sense (deterministic and stochastic -- introductory information).

2.Signal characteristics (average, energy, power, mutual energy, correlation).

3.Spectral representation of continuous and discrete signals.

4.Relation between transformations and their implications.

5.Spectral density and its relation to correlation function. Parseval theorem.

6.Systems classification and characteristic, definition of systems in time domain, convolution.

7.Continuous and discrete time systems definition, transfer function and frequency response.

8.Ideal signal sampling and interpolation. Spectral overlap, continuous and discrete time systems relation.

9.Bandpass signals and their definition, complex envelope.

10.Bandpass signals envelope and phase, sampling of baseband signals.

11.Introduction to modulation, AWGN, SNR.

12.Representative types of analog and digital modulation.

13.Signal pass through non-linear systems, intermodulation.

14.Selected applications.

Syllabus of tutorials:

1.Introduction, signal definition, signal analysis methods.

2.Signal characteristic determination - average, energy, correlation function.

3.Spectral analysis of periodical signals via Fourier series.

4.Spectral analyses of non-periodical signals, Fourier transform application.

5.DFT performance and usage, multitone signal analysis.

6.Transit of signal through linear time invariant system, transient states.

7.System stability, continuous and discrete time system relation.

8.System in time and frequency domains, system characteristics.

9.System modelling in discrete time.

10.Signal sampling and resampling, spectral overlay.

11.Baseband and bandpass signal relation, frequency conversion, sampling.

12.Bandpass signal processing, representative modulations.

13.Non-linear bandpass system modelling and analysis (example: mixer, envelope detector).

14.Semestral results summarize, examination of works.

Study Objective:
Study materials:

A. V. Oppenheim, A. S. Wilsky with S.H. Nawab: Signals and Systems. Prentice-Hall, Second Edition, 1997.

J. R. Buck, M. M. Daniel, A. C. Winter: Computer Explorations in Signals and Systems Using MATLAB. Prentice-Hall, 1997.

Taylor, F.J.: Principles of signals and systems. McGraw-Hill, 1994.

Narasimhan, S.V., Veena, S: Signal Processing, principles and implementation. Alpha Science International, Harrow, 2005.

Proakis, J.G.: Digital Communications. McGraw-Hill, 2001.

Further information:
No time-table has been prepared for this course
The course is a part of the following study plans:
Data valid to 2019-05-23
For updated information see http://bilakniha.cvut.cz/en/predmet1352806.html