Moodle FEL ČVUT
Telecommunication Systems and Networks
B242 - Letní 2024/2025
Toto je tzv. shluknutý kurz. Skládá se z několika samostatných předmětů, které sdílejí výukové materiály, úkoly, testy apod. Níže si můžete zobrazit informace o jednotlivých předmětech tvořících tento shluk.
Telecommunication Systems and Networks - BE2B32TSI
Hlavní kurz
| Kredity | 4 |
| Semestry | oba |
| Zakončení | Klasifikovaný zápočet |
| Jazyk výuky | angličtina |
| Rozsah výuky | 2P + 2L |
Anotace
The course discusses principles of telecommunication systems - mainly digital transmission systems and digital switching systems - that form the basis of communication networks. It provides students an overview of the entire telecommunication domain, so that they can solve particular problems related to network design and traffic. They will also obtain basic knowledge of selected technologies that are used in modern wired and wireless networks.
Results of the survey (students' opinions) concerning the subject can be found here: https://www.fel.cvut.cz/cz/anketa/aktualni/courses/BE2B32TSI
Results of the survey (students' opinions) concerning the subject can be found here: https://www.fel.cvut.cz/cz/anketa/aktualni/courses/BE2B32TSI
Cíle studia
Students will understand the principles and function of selected communication technologies. They will be able to apply them in specific tasks related to telecommunication network design.
Osnovy přednášek
1. Telecommunication services and networks, general principles, standardization.
2. Telephone channel, voice signal processing, PCM 30/32.
3. Multiplexing methods, PDH and SDH transmission systems.
4. Optical transmission systems, WDM.
5. Transmission media - parameters of metallic lines, crosstalk.
6. Layered communication models, OSI-RM, architecture and protocols.
7. Backbone and access networks, data links, data interfaces.
8. Wireless systems and mobile networks.
9. Power line communication (PLC) systems.
10. Telephone sets, modems and modulation methods.
11. xDSL systems and their applications.
12. Digital switching systems - configuration and implementation of DSN.
13. Circuit and cell switching, different access types.
14. VoIP systems and SIP signaling.
2. Telephone channel, voice signal processing, PCM 30/32.
3. Multiplexing methods, PDH and SDH transmission systems.
4. Optical transmission systems, WDM.
5. Transmission media - parameters of metallic lines, crosstalk.
6. Layered communication models, OSI-RM, architecture and protocols.
7. Backbone and access networks, data links, data interfaces.
8. Wireless systems and mobile networks.
9. Power line communication (PLC) systems.
10. Telephone sets, modems and modulation methods.
11. xDSL systems and their applications.
12. Digital switching systems - configuration and implementation of DSN.
13. Circuit and cell switching, different access types.
14. VoIP systems and SIP signaling.
Osnovy cvičení
1. Introductory lesson (plan of semester, safety training for students' work in the laboratory, content and framework of exercises, requirements for obtaining the credits and other administration).
2. Logarithmic description of transmission network parameters.
3. Explanation and assignment of semester projects.
4. Lab A (Optical transmission - direct/indirect measurement of attenuation).
5. Lab B (Optical transmission - direct/indirect measurement of attenuation).
6. Lab A (SDH analyzer and its utilization for measurement in real networks).
7. Lab B (SDH analyzer and its utilization for measurement in real networks).
8. Consultation of the semester project.
9. Lab A (Power line and mobile data communications).
10. Lab B (Power line and mobile data communications).
11. Lab A (xDSL subscriber lines - configuration and bit allocation).
12. Lab B (xDSL subscriber lines - configuration and bit allocation).
13. Presentation of semester project results.
14. Compensation of missed lessons. Assignment of credits.
2. Logarithmic description of transmission network parameters.
3. Explanation and assignment of semester projects.
4. Lab A (Optical transmission - direct/indirect measurement of attenuation).
5. Lab B (Optical transmission - direct/indirect measurement of attenuation).
6. Lab A (SDH analyzer and its utilization for measurement in real networks).
7. Lab B (SDH analyzer and its utilization for measurement in real networks).
8. Consultation of the semester project.
9. Lab A (Power line and mobile data communications).
10. Lab B (Power line and mobile data communications).
11. Lab A (xDSL subscriber lines - configuration and bit allocation).
12. Lab B (xDSL subscriber lines - configuration and bit allocation).
13. Presentation of semester project results.
14. Compensation of missed lessons. Assignment of credits.
Literatura
1. Bešťák, R. - Vodrážka, J. - Pravda. I.: Principle of Telecommunication Systems and Networks. Vydavatelství ČVUT, Praha. 2007.
2. Halonen, T. - Romero, J. - Melero, J.: GSM, GPRS and EDGE Performance - 2nd edition. John Wiley & Sons, Ltd. England 2003.
2. Halonen, T. - Romero, J. - Melero, J.: GSM, GPRS and EDGE Performance - 2nd edition. John Wiley & Sons, Ltd. England 2003.
Požadavky
* 100% presence at the lessons. (Proper excuse will be required in the case of absence.)
* Elaboration and approval of the assigned laboratory tasks and/or projects.
* Elaboration and approval of the assigned laboratory tasks and/or projects.
Telecommunication Systems - AE1M32TSY
| Kredity | 4 |
| Semestry | zimní |
| Zakončení | Zápočet a zkouška |
| Jazyk výuky | angličtina |
| Rozsah výuky | 2P + 2L |
Anotace
The subject discusses principles of telecommunication systems - mainly digital transmission systems and digital switching systems. The subject will provide students with the overview of the entire telecommunication domain, so that they can solve particular problems related to network traffic. They will also obtain basic knowledge of technologies that are used in modern wired and wireless networks.
Results of the survey (students' opinions) concerning the subject can be found here: https://www.fel.cvut.cz/cz/anketa/aktualni/courses/AE1M32TSY
Results of the survey (students' opinions) concerning the subject can be found here: https://www.fel.cvut.cz/cz/anketa/aktualni/courses/AE1M32TSY
Cíle studia
Students will get familiar with the basic principles of communication and its technical principles at all levels, from signal transmission in specific physical environments to the services provided in electronic communication networks, including standardization, legislation and organizational measures.
Osnovy přednášek
1. Telecommunication services and networks, requirements, standardization.
2. Telephone channel, voice signal processing, PCM 30/32.
3. Multiplexing methods, PDH and SDH transmission systems.
4. Optical transmission systems, WDM.
5. Transmission media - parameters of metallic pairs, crosstalk.
6. Layered communication models, OSI-RM, protocols and architecture.
7. Backbone and access networks, data links, data interfaces.
8. Wireless systems and mobile networks.
9. Power line communication (PLC) systems.
10. Telephone sets, modems and modulation methods.
11. xDSL systems and their applications.
12. Digital switching systems - configuration and implementation of DSN.
13. ISDN and ATM networks - circuit and cell switching, access types.
14. Optical access networks, hybrid and CATV networks.
2. Telephone channel, voice signal processing, PCM 30/32.
3. Multiplexing methods, PDH and SDH transmission systems.
4. Optical transmission systems, WDM.
5. Transmission media - parameters of metallic pairs, crosstalk.
6. Layered communication models, OSI-RM, protocols and architecture.
7. Backbone and access networks, data links, data interfaces.
8. Wireless systems and mobile networks.
9. Power line communication (PLC) systems.
10. Telephone sets, modems and modulation methods.
11. xDSL systems and their applications.
12. Digital switching systems - configuration and implementation of DSN.
13. ISDN and ATM networks - circuit and cell switching, access types.
14. Optical access networks, hybrid and CATV networks.
Osnovy cvičení
1. Introductory lesson (plan of semester, safety training for students? work in the lab, content and framework of exercises, requirements for obtaining the credits and other administration).
2. Logarithmic description of transmission network parameters.
3. Explanation and assignment of semester projects.
4. Lab A (Optical transmission - direct/indirect measurement of attenuation).
5. Lab B (Optical transmission - direct/indirect measurement of attenuation).
6. Lab A (SDH analyzer and its utilization for measurement in real networks).
7. Lab B (SDH analyzer and its utilization for measurement in real networks).
8. Consultation of semester project.
Lab A (Power line and mobile data communications).
9. Lab B (Power line and mobile data communications).
10. Lab A (xDSL subscriber lines - configuration and bit allocation).
11. Lab B (xDSL subscriber lines - configuration and bit allocation).
12. Presentation of semester project results.
13. Compensation of missed lessons.
14. Assignment of credits.
2. Logarithmic description of transmission network parameters.
3. Explanation and assignment of semester projects.
4. Lab A (Optical transmission - direct/indirect measurement of attenuation).
5. Lab B (Optical transmission - direct/indirect measurement of attenuation).
6. Lab A (SDH analyzer and its utilization for measurement in real networks).
7. Lab B (SDH analyzer and its utilization for measurement in real networks).
8. Consultation of semester project.
Lab A (Power line and mobile data communications).
9. Lab B (Power line and mobile data communications).
10. Lab A (xDSL subscriber lines - configuration and bit allocation).
11. Lab B (xDSL subscriber lines - configuration and bit allocation).
12. Presentation of semester project results.
13. Compensation of missed lessons.
14. Assignment of credits.
Literatura
1. Bešťák, R. - Vodrážka, J. - Pravda. I.: Principle of Telecommunication Systems and Networks. Vydavatelství ČVUT, Praha. 2007.
2. Halonen, T. - Romero, J. - Melero, J.: GSM, GPRS and EDGE Performance - 2nd edition. John Wiley & Sons, Ltd. England 2003. Keywords
Transmission systems, switch, synchronization, VoIP, NGN.
2. Halonen, T. - Romero, J. - Melero, J.: GSM, GPRS and EDGE Performance - 2nd edition. John Wiley & Sons, Ltd. England 2003. Keywords
Transmission systems, switch, synchronization, VoIP, NGN.
Požadavky
* 100% presence at the lessons. (Proper excuse will be required in the case of absence.)
* Elaboration and approval of the assigned laboratory tasks.
* Elaboration and approval of the assigned laboratory tasks.