Popis předmětu - BE2M32OSS
BE2M32OSS | Optical Systems and Networks | ||
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Role: | P | Rozsah výuky: | 2P + 2L |
Katedra: | 13132 | Jazyk výuky: | EN |
Garanti: | Zakončení: | Z,ZK | |
Přednášející: | Lucki M. | Kreditů: | 6 |
Cvičící: | Lucki M. | Semestr: | L |
Webová stránka:
https://moodle.fel.cvut.czAnotace:
The course deals with the use of optical radiation for the transmission of information. The aim is to acquaint students with the functions of important components used in an advanced optical communication systems and networks. Students will learn how to design practical optical fiber link and the network. Students will receive theoretical knowledge for the implementation of a all-optical photonic networks in the future, which will be based on a combination of wavelength multiplex with an all-optical switching.Cíle studia:
Students will learn how to design practical optical fiber link and the network. Students will receive theoretical knowledge for the implementation of a all-optical photonic networksOsnovy přednášek:
1. | Benefits of fiber optic technology. FTTx. Comparison with xDSL. | |
2. | Components of optical communication systems, CWDM and DWDM systems. | |
3. | Technical specification for Passive Optical Networks (PON) by ITU-T and IEEE. | |
4. | ITU-T recommendations for fiber optics (attenuation, modal regimes). | |
5. | Optical Time Domain Reflectometry for optical paths testing. | |
6. | Optical amplifiers: EDFA, Raman amplifiers, SOA. | |
7. | Dispersion in optical fibers (chromatic and modal dispersion, PMD). | |
8. | Nonlinear effects in optical fiber paths - Four Wave Mixing (FWM), Raman crosstalk. | |
9. | Manufacturing of optical fibers and cables, optical splices and connectors, fiber splicing. | |
10. | Sources of optical radiation. FP, DFB laser, LED. Photodetectors. PIN diode. | |
11. | Optical phase and intensity modulations - principle, performance. Optical splitters. | |
12. | Optical sensors. Fiber-optic perimeters. Non-telecommunication applications. | |
13. | Trends in optoelectronics. Specialty optical fibers: Photonic Crystal Fibers. | |
14. | Summary for the examination. |
Osnovy cvičení:
1. | Introduction to opto-electronic communications, safety in the laboratory, splitting into working groups | |
2. | Theoretical preparation for slicing of optical fibers | |
3. | Optical fiber splicing | |
4. | Theory of fibers and the numerical aperture | |
5. | Measuremnt of the numerical aperture of optical fibers | |
6. | Theory and function of OTDR and methods of optical fiber attenuation measurement | |
7. | Measurement of optical fiber attenuation using backscatter (OTDR) | |
8. | Direct measurement method of optical fiber attenuation | |
9. | Theory of optical amplifiers and principles of their measurement | |
10. | Optical signal regeneration using optical amplifier | |
11. | Theory of optical couplers and preparation for their measurements | |
12. | Measurement of fundamental parameters of optical couplers | |
13. | Test, credit |
Literatura:
R. | Freeman:Fiber Optic Systems for Telecommunications, Wiley series in telecommunications and signal procesing, 2002, ISBN 0-471-41477-8 |
Požadavky:
basic knowledge of optics and communication networksKlíčová slova:
high-speed transmission system, wavelength division multiplexing, optical amplifiers, dispersion, lasers and photodiodes, Photonic Crystal FibersPředmět je zahrnut do těchto studijních plánů:
Plán | Obor | Role | Dop. semestr |
MEEK5_2018 | Communication Systems and Networks | P | 2 |
MEEK3_2018 | Photonics | P | 2 |
Stránka vytvořena 17.5.2025 17:52:40, semestry: Z,L/2026-7, Z,L/2025-6, Z,L/2024-5, připomínky k informační náplni zasílejte správci studijních plánů | Návrh a realizace: I. Halaška (K336), J. Novák (K336) |