| Course code |
07 74 4080 19 |
| Number of ECTS points |
3 |
| Course title in the language of instruction |
Telekomunikacja i przetwarzanie sygnałów |
| Course title in Polish |
Telekomunikacja i przetwarzanie sygnałów |
| Course title in English |
Telecommunication and Signal Processing |
| Language of instruction |
Polish |
| Type of classes |
|
Lecture |
Tutorials |
Laboratory |
Project |
Seminar |
Other |
Total of teaching hours during semester |
| Contact hours |
10 |
|
10 |
|
10 |
0 |
30 |
| E-learning |
No |
No |
No |
No |
Yes |
No |
|
| Assessment criteria (weightage) |
0.70 |
|
0.30 |
|
0.00 |
0.00 |
|
|
| Unit running the course |
Instytut Informatyki |
| Course coordinator |
dr hab. inż. Piotr Lipiński, dr hab. inż. Agnieszka Wosiak |
| Course instructors |
prof. dr hab. inż. Liliana Byczkowska-Lipińska, dr inż. Marcin Cegielski, dr hab. inż. Piotr Lipiński |
| Prerequisites |
Physics, mathematical analysis and fundamentals of electronics |
| Course learning outcomes |
- Define the electromagnetic and mathematical aspects of ICT.
- Classify the various components of information processing
- Use switching technology and design elements of digital systems
|
| Programme learning outcomes |
- the graduate is able to demonstrate knowledge and understanding of selected computing concepts and problems, as well as complex relationships between computer science and related disciplines;
- the graduate demonstrates self-directed learning skills and the ability to apply them, among others, to increase his/her professional competences in the field of computer science;
|
| Programme content |
The course covers issues related to information and data transmission rules, electromagnetic and mathematical aspects of data transmission and signal processing. |
| Assessment methods |
wiritten lecture test (learning outcomes 1. and 2.)
laboratory tasks and reports (learning outcomes 2. and 3.)
|
| Grading policies |
Lecture: written test 70%
Laboratory: Performing experiments and preparing report. 30%
|
| Course content |
Lecture
1. Introduction to the fundamental terms of telecommunication, data transmission processes and transmission channels
2. Presentation of deterministic signals parameters and their fundamental mathematical models
3. Simple and inverse Fourier transformation, grafhical representation of the most often used signals in telecommunication in time and spectral domains
4. Introducing a model and its parameters describing the stochastic signals transmission
5. The analog-to-digital conversion processes: sampling, quantization, encoding and modulation of the signals
6. The kinds of transmission channels: wiring, fibre-optic and wireless and their mathematical models of wave propagation
Laboratory
1. An algorithm and implementation of the program of data transmission with self-acting error correction using Hamming theory
2. Implementation of the computer program realizing the serial data transmission using RS-232 standard and Xmodem transmission protocol
3. Implementation of the computer program realizing modem link using Hayes's list of commands |
| Basic reference materials |
- Jajszczyk A.: Wstęp do telekomutacji, WNT 2000.
- Read R.: Telekomunikacja, WKiŁ, 2000.
- Lyons R.G.: Wprowadzenie do cyfrowego przetwarzania sygnałów, WKŁ, 2000.
- Byczkowska-Lipińska: Aspekty elektromagnetyczne i matematyczne teleinformatyki,EXIT, 2009
- Szabatin J.: Podstawy teorii sygnałów, WKŁ,2000
|
| Other reference materials |
- Dag Stranneby: Cyfrowe przetwarzanie sygnałów,BTC,2004
- Smith S.W.: Cyfrowe przetwarzanie sygnałów, BTC, 2007
- Simmonds A.: Wprowadzenie do transmisji danych, WKŁ, 1999
|
| Average student workload outside classroom |
56 |
| Comments |
|
| Updated on |
2021-09-17 09:11:17 |
| Archival course yes/no |
no |