Module also offered within study programmes:
General information:
Name:
Fundamentals of Signal Theory
Course of study:
2019/2020
Code:
ZSDA-3-0031-s
Faculty of:
Szkoła Doktorska AGH
Study level:
Third-cycle studies
Specialty:
-
Field of study:
Szkoła Doktorska AGH
Semester:
0
Profile of education:
Academic (A)
Lecture language:
English
Form and type of study:
Full-time studies
Course homepage:
 
Responsible teacher:
dr hab. inż. Duda Krzysztof (kduda@agh.edu.pl)
Dyscypliny:
automatyka, elektronika i elektrotechnika, nauki fizyczne
Module summary

Signal theory is widely used in measurements and communication where the signals are acquired, processed, and analyzed. Most often continuous time signals are firstly sampled and quantized and next processed by digital computers. The lecture presents frequency representation of signals, sampling, and linear discrete time systems.

Description of learning outcomes for module
MLO code Student after module completion has the knowledge/ knows how to/is able to Connections with FLO Method of learning outcomes verification (form of completion)
Social competence: is able to
M_K001 Social competences to cooperate in teams working on signal theory. SDA3A_K01, SDA3A_K03, SDA3A_W02, SDA3A_K02, SDA3A_W01 Activity during classes
Skills: he can
M_U001 Skill to implement and apply signal theory. SDA3A_U07, SDA3A_U06, SDA3A_U03, SDA3A_U02, SDA3A_U01 Activity during classes
M_U002 Skill to self study issues of signal theory. SDA3A_U07, SDA3A_U03, SDA3A_U02, SDA3A_U01 Activity during classes
Knowledge: he knows and understands
M_W001 Knowledge of fundamentals of signal theory. SDA3A_W01 Activity during classes
Number of hours for each form of classes:
Sum (hours)
Lecture
Audit. classes
Lab. classes
Project classes
Conv. seminar
Seminar classes
Pract. classes
Zaj. terenowe
Zaj. warsztatowe
Prace kontr. przejść.
Lektorat
15 15 0 0 0 0 0 0 0 0 0 0
FLO matrix in relation to forms of classes
MLO code Student after module completion has the knowledge/ knows how to/is able to Form of classes
Lecture
Audit. classes
Lab. classes
Project classes
Conv. seminar
Seminar classes
Pract. classes
Zaj. terenowe
Zaj. warsztatowe
Prace kontr. przejść.
Lektorat
Social competence
M_K001 Social competences to cooperate in teams working on signal theory. + - - - - - - - - - -
Skills
M_U001 Skill to implement and apply signal theory. + - - - - - - - - - -
M_U002 Skill to self study issues of signal theory. + - - - - - - - - - -
Knowledge
M_W001 Knowledge of fundamentals of signal theory. + - - - - - - - - - -
Student workload (ECTS credits balance)
Student activity form Student workload
Summary student workload 50 h
Module ECTS credits 2 ECTS
Udział w zajęciach dydaktycznych/praktyka 15 h
Realization of independently performed tasks 35 h
Module content
Lectures (15h):
Subjects:

1. Fourier Transforms:
a) the Fourier Series,
b) the Fourier Transform,
c) the Discrete Time Fourier Transform,
d) the Discrete Fourier Transform.
2. Linear time invariant systems:
a) convolution integral,
b) The Laplace transform,
c) convolution sum,
d) The Z transform.
3. Periodic sampling of signals
a) Sampling theorem,
b) Multirate signal processing
c) Quadrature sampling

Additional information
Teaching methods and techniques:
  • Lectures: Lecture with the projector and blackboard.
Warunki i sposób zaliczenia poszczególnych form zajęć, w tym zasady zaliczeń poprawkowych, a także warunki dopuszczenia do egzaminu:

The final pass is received based on lecture attendance.
In case of lack of the attendance students are asked to prepare the report on the subject they have missed.

Participation rules in classes:
  • Lectures:
    – Attendance is mandatory: Yes
    – Participation rules in classes: Attendance.
Method of calculating the final grade:

The final grade is the pass of lectures.

Sposób i tryb wyrównywania zaległości powstałych wskutek nieobecności studenta na zajęciach:

In case of lack of the attendance students are asked to prepare the report on the subject they have missed.

Prerequisites and additional requirements:

Master degree in electrical engineering.

Recommended literature and teaching resources:

A. V. Oppenheim, A. S. Willsky, I. T. Young, Signals and Systems, Prentice-Hall, 1983.

A.V. Oppenheim, R.W. Schafer, J.R. Buck, Discrete-Time Signal Processing, 2nd Ed., Prentice-Hall, 1999.

Moon T. K., Stirling W. C., Mathematical Methods and Algorithms for Signal Processing, Prentice Hall 1999.

R. G. Lyons, Understanding Digital Signal Processing, Second Edition, Prentice-Hall, 2004.

T.P. Zieliński, Cyfrowe przetwarzanie sygnałów, od teorii do zastosowań, WKŁ, Warszawa, 2005.

Scientific publications of module course instructors related to the topic of the module:

https://bpp.agh.edu.pl/autor/duda-krzysztof-04141

Additional information:

None