Popis předmětu - BE2M37OBFA

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BE2M37OBFA Image Photonics Rozsah výuky:2P+2L
Garanti:  Role:PV,P Jazyk výuky:EN
Vyučující:  Zakončení:Z,ZK
Zodpovědná katedra:13137 Kreditů:6 Semestr:Z

Anotace:

The subject offers a detailed overview of applied imaging photonic elements and systems. The subject deals with fundamentals of optics, Fourier optics and optical computing. Fourier optics. Image sensors - tube, CCD, CMOS. Image displays. Image converters and amplifiers. Photography and holography - sensitometry and densitometry. Photonic (optical) computing. Electron optics. Image processing in biosystems. Image processing for photonics.

Cíle studia:

Students learn principles and methods of image photonics, optics (geometrical, wave and Fourier) and advances in image recording and optical computing.

Osnovy přednášek:

1. Introduction - basic principles of image photonics
2. Geometrical optics
3. Imaging systems - design, construction, types, applications, measurements
4. Photometry, radiometry, colorimetry - basic formulae, applications, illumination
5. Fourier optics - subsystems, matrix optics - description of optical systems
5. Image sensors I. - tubes, switched arrays of photoelements (CMOS etc.), termovision
6. Image sensors II. - CCD image sensors - properties and modifications
7. Image displays - picture tubes, LED and laser diode arrays, LCD, plasma, DMD
8. Image converters and amplifiers - special applications (night vision, X ray systems)
9. Photography, holography, polygraphy - physical principles, sensitometry, densitometry
10. Optical (photonic) processors - 2D FT, 2D correlation, filtration, algebraic processors
11. Electron optics for imaging - elst and mg lenses, types of electron guns
12. Image processing in biological systems - analogy with optical systems
13. Image processing in photonics - compensation of real properties of sensors and displays
14. Conclusion, summary and future trends overview

Osnovy cvičení:

1. Introduction, organization and content of labs, working groups
2. Laboratory experiments - explanation (Camera MTF, Optical 2D FT, Image sensors)
3. MTF of TV camera - transmission function of optical system, impact of objective
4. Optical 2D Fourier transform - 2D spatial analysis and filtering
5. Image sensors - spectral and temporal characteristics, sensing aperture
6. Test
7. Laboratory experiments - explanation (Image displays, Electron optics, Illumination)
8. Image displays - spectral and temporal characteristics, color fidelity
9. Electron optics - electron motion in elst and mg fields, imaging systems
10. Illumination - design of illumination system, color temperature
11. Test
12. Computer simulation - aperture distortion, spectral and spatial representation
13. Colloquium - discussion of theoretical parts, examples
14. Conclusion, evaluation and assessment

Literatura:

[1] Saleh, B.E.A., Teich, M.C.: Základy fotoniky. (4 svazky), Matfyzpress, Praha 1994-1996
[2] B. Jahne, Image Processing for Scientific Applications, CRC, New York, 1997.
[3] J. W. Goodman, Introduction to Fourier Optics, 3rd edition, Roberts&Company Pub., 2005

Požadavky:

Knowledge of physics, mathematical analysis, and analysis of signals and systems.

Webová stránka:

https://moodle.fel.cvut.cz/course/BE2M37OBFA

Předmět je zahrnut do těchto studijních plánů:

Plán Obor Role Dop. semestr
MEEK3_2018 Fotonika P 1
MEEK4_2018 Technologie internetu věcí PV z
MEEK2_2018 Audiovizuální technika a zpracování signálů PV 3


Stránka vytvořena 22.8.2019 17:51:30, semestry: Z,L/2020-1, L/2018-9, Z,L/2019-20, připomínky k informační náplni zasílejte správci studijních plánů Návrh a realizace: I. Halaška (K336), J. Novák (K336)
Za obsah odpovídá: doc. Ing. Ivan Jelínek, CSc.