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CZECH TECHNICAL UNIVERSITY IN PRAGUE
STUDY PLANS
2023/2024
UPOZORNĚNÍ: Jsou dostupné studijní plány pro následující akademický rok.

Analysis and Synthesis of Imaging Systems

The course is not on the list Without time-table
Code Completion Credits Range Language
17DBASZ ZK 5 2P Czech
Garant předmětu:
Lecturer:
Tutor:
Supervisor:
Department of Biomedical Technology
Synopsis:

2D linear systems (general imaging system, linearity definition, superpositional integral, delta function, impulse response, spatial invariance, convolution, zoom). 2D Fourier transform (integral record, 2D DFT, selected properties of the 2D FT ? spectra display, separability, translation, periodicity and associated symmetry, rotation, distributivity, scale, average value, convolution, correlation). Fourier transform in higher dimensions. Frequency domain. Fundamental principles of 2D Discrete Cosine Transform (DCT), Hough transform and Radon transform. System transfer function. Mathematical theory of optical transfer function (OTF, MTF, PSF, LSF, ESF and their relationships). MTF and OTF importance in optical and electro-optical systems particularly from the image quality point of view. OTF measurement methods. Image sensors MTF measurement methods. Electro-optical systems transfer characteristics. Total MTF of the image systems. Linear filters including cascade of linear filters. Deconvolution. Inverse filters. Wiener filter. Blind deconvolution principle. Examples of use (blur correction). OTF and deconvolution context (2D, 3D, 4D). Image sampling process. Image sampling theorem. Aliasing. Aperture effect. Image sensors modeling and simulation. Models of image sensors based on the unequal spatial sampling. Possibilities of experiments including real image sensors. State of the art and trends of the present development of imaging systems. Summary of fundamental knowledge within the course.

Requirements:

processed technical report with respect to the given topics at the beginning of the semester

Syllabus of lectures:

2D linear systems (general imaging system, linearity definition, superpositional integral, delta function, impulse response, spatial invariance, convolution, zoom). 2D Fourier transform (integral record, 2D DFT, selected properties of the 2D FT ? spectra display, separability, translation, periodicity and associated symmetry, rotation, distributivity, scale, average value, convolution, correlation). Fourier transform in higher dimensions. Frequency domain. Fundamental principles of 2D Discrete Cosine Transform (DCT), Hough transform and Radon transform. System transfer function. Mathematical theory of optical transfer function (OTF, MTF, PSF, LSF, ESF and their relationships). MTF and OTF importance in optical and electro-optical systems particularly from the image quality point of view. OTF measurement methods. Image sensors MTF measurement methods. Electro-optical systems transfer characteristics. Total MTF of the image systems. Linear filters including cascade of linear filters. Deconvolution. Inverse filters. Wiener filter. Blind deconvolution principle. Examples of use (blur correction). OTF and deconvolution context (2D, 3D, 4D). Image sampling process. Image sampling theorem. Aliasing. Aperture effect. Image sensors modeling and simulation. Models of image sensors based on the unequal spatial sampling. Possibilities of experiments including real image sensors. State of the art and trends of the present development of imaging systems. Summary of fundamental knowledge within the course.

Syllabus of tutorials:
Study Objective:
Study materials:

Required:

[1] Image sensing, acquisition and processing course in microscopy [online]. Jiří Hozman, c2002-2017. Last change 18. 10. 2013 [cit. 2017-09-27]. URL: http://webzam.fbmi.cvut.cz/hozman/

[2] Webster, J. G. (ed.). Wiley Encyclopedia of Medical Devices and Instrumentation. 2000. Available within EIS of CTU: http://knihovna.cvut.cz/ . [cit. 2017-09-27].

[3] Hozman, J., Roubík, K. Tomografical imaging methods in medicine - CT. Education videoprogram. Prague: AVTC CTU, 2002. Available from http://www.civ.cvut.cz/info/info.php?did=603

Recommended:

[4] DRASTICH, Aleš. Medical Imaging Systems ? X-ray Computed Tomography, Magnetic Resonanse Imaging. Brno: VUT in Brno, 2000. ISBN 80-214-1666-1.

[5] BUSHBERG, Jerrold T., J. Anthony SEIBERT, Edwin M. LEIDHOLDT a John M. BOONE. The essential physics of medical imaging. Third edition. Philadelphia: Wolters Kluwer Health/Lippincott Williams & Wilkins, 2012. ISBN 978-1-4511-1810-0.

Note:
Further information:
No time-table has been prepared for this course
The course is a part of the following study plans:
Data valid to 2024-03-27
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