|
Lecturer(s)
|
-
Pidanič Jan, doc. Ing. Ph.D.
-
Juryca Karel, Ing. Ph.D.
|
|
Course content
|
1. Mathematical apparatus for continuous signal processing 2. Representation and classification of signals, characteristics of signals 3.Operations with continuous signals and basic types of continuous signals (harmonic signals, Dirac pulse, unit jump, pulse signal, triangular signal) 4. Tools for analysis of continuous periodic signals in the frequency domain (FS) 5. Tools for analysis of continuous non-periodic signals in the frequency domain (FT) 6. Continuous systems in the time domain 7.Description and solution of continuous systems using differential equations 8. Laplace transform I. (relations, convergence region, properties) 9. Laplace transform II. (Laplace transform of significant signals, inverse Laplace transform) 10.Determination of frequency characteristics in continuous systems 11. Continuous LTI systems (ideal filters and their characteristics, lossless transmission lines) 12. Design of analogue filters I. (Butterworth filters) 13. Design of analogue filters II. (Chebyshev filters) The content of the course exercises is consistent with the lectures.
|
|
Learning activities and teaching methods
|
Monologic (reading, lecture, briefing), Dialogic (discussion, interview, brainstorming)
- Preparation for an exam
- 35 hours per semester
- Contact teaching
- 52 hours per semester
- Participation in classes
- 52 hours per semester
- Home preparation for classes
- 11 hours per semester
|
|
Learning outcomes
|
The aim of the course is to acquaint students with the representation, processing and analysis of continuous signals and systems (filters) used in the communication system and control technology. The course includes representation, modelling of continuous signals and systems, tools for the analysis of continuous periodic and non-periodic signals in the time and frequency domain. Part of the course is the design of continuous systems with the required characteristics, both by solving differential equations and by Laplace transform. The final part of the course is devoted to the description and design of continuous (analogue) filters and state description of continuous systems.
The students acquire theoretically and practise knowledge from the area of continuous signals processing and analysis in time and frequency domain. The student is also familiar with the design of continuous systems according to specific requirements, determining the output of the system (filter design).
|
|
Prerequisites
|
Mathematical calculus at the technical university graduates level
|
|
Assessment methods and criteria
|
Oral examination, Written examination
During the semester and in the final exam, the student must demonstrate an understanding of the solved problems. The teacher will communicate the specific requirements to the students in the first week of the semester. 1) Active participation in the exercises and non-knowledge of the issues discussed (basic relationships and laws will lead to an unexcused class. Excerpts or lectures are allowed during the exercises. 2) Attendance of at least 80% (excused and unexcused absences count) 3) Late arrival to class by a maximum of 10 minutes, then unexcused practice. 4) Completion of all homework assignments (approximately 10 homework assignments) Prerequisites: Oral exam, student will be given 3 questions from the topics covered. The student can get a maximum of 1 point from each question, i.e. 3 points maximum. A minimum of 0.5 points is required for each question. Evaluation: Maximum points / Minimum points for credit Homework 30 / 20 Exam 3 / 1.5 Assessment table according to points: A 3-2,7 B 2,69 - 2,4 C 2,39 - 2,1 D 2,09 - 1,8 E 1,79 - 1,5 F <1,5
|
|
Recommended literature
|
-
Čmejla, Roman. Úvod do číslicového zpracování signálů : cvičení. Praha: Vydavatelství ČVUT, 2005. ISBN 80-01-03158-6.
-
CHAPARRO, Luis. Signals and systems using matlab. Waltham: MA, 2019. ISBN 9780128142042.
-
OpenCourse Ware. License: Creative Commons BY-NC-SA.
-
Uhlíř, Jan. Číslicové zpracování signálů. Praha: Vydavatelství ČVUT, 2002. ISBN 80-01-02613-2.
-
Uhlíř, Jan. Úvod do číslicového zpracování signálů. Praha: Vydavatelství ČVUT, 2003. ISBN 80-01-02799-6.
|