Description:

History of television systems. Overview of television systems. Scene representation (linear transformation in 3D space, lens representation as collineation, projection). Image information (light, photometry, colorimetry, light sources, vision, quantitative description of image information, image spectrum). Television system. Physical limitations of resolution and correlation of image characteristics and system characteristics. TV system resolution. Creating video signal. Non-standard TV shooting. Black and white versus color TV system. Application of TV imaging systems in medicine. Physical quantities describing radiation and light. Physical laws for heat emitter. Principle of the operation of infrared imaging system and its diagnostic importance. Specifics of thermal imaging systems. Block diagram. Description of individual blocks and circuits. History of endoscopes. Types of endoscopes. Fundamentals of theory and practice of optical fibers. Flexible fibroscopes. Flexible video endoscopes. Light sources for flexible endoscopes. Image sensors used for endoscopes. Image processors. Monitors for video endoscopes. Endosonographic systems. Sterilization equipment. Automatic disinfectors for endoscopes. Standard procedures. Possible problems. Capsule imaging. Principle. Block arrangement. Wireless transmission and data processing. Possible complications.

Contents:

Lectures (7 weeks/2 hours):
1. Course introduction and motivation. Assessment conditions. TV history. TV fundamental principles.
2. TV imaging system ? lens, image sensor, signal processing, display, TV cameras, TV signal digitization
3. IR imaging systems principles and functions, IR detectors, detailed arrangement and parameters of IR systems
4. Endoscopy introduction, endoscopic systems classification
5. Principles, description, structure and parameters of fiberoptic systems
6. Principles, description, arrangement and parameters of videoendoscopes
7. Development trends and technology news

Seminar contents:

Laboratory exercises (7 weeks/2 hours):
1. Laboratory exercises introduction, safety rules, assessment conditions, exercises syllabus, laboratory tasks description
2. Test No. 1 (TV systems), analog and digital TV signals (TV norm), color sensing and color image composition/formation
3. Colorimetry and color temperature, monitor calibration
4. Test No. 2 (IR systems), verification of absolutely black body physical laws
5. Verification of the IR camera parameters for medical applications
6. Test No. 3 (endoscopic systems), fibroscopes, videoendoscopes, accessories, preparation and maintenance of flexible endoscopes, cleaning and disinfection of flexible endoscopes (practical tasks within the company MEDINET in Kladno)
7. Fibroscopes, videoendoscopes, accessories, preparation and maintenance of flexible endoscopes, cleaning and disinfection of flexible endoscopes (practical tasks within the company OLYMPUS in Prague)

Recommended literature:

Mandatory:
[1] Digital terrestrial television broadcasting: technology and system. Editor Jian SONG, editor Zhixing YANG, editor Jun WANG. Hoboken: John Wiley, 2015. The ComSoc Guides to Communications Technologies. ISBN 978-1-118-13053-7.
[2] Medical infrared imaging: principles and practices. Editor Mary DIAKIDES, editor Joseph D. BRONZINO, editor Donald R. PETERSON. Boca Raton: CRC Press, 2012. ISBN 978-1-4398-7250-5.
[3] Principles of Flexible Endoscopy for Surgeons. Editor Jeffrey M. MARKS, editor Brian J. DUNKIN. New York: Springer, 2013. ISBN 978-1-4614-6329-0.

Recommended:
[4] RING, Francis, Anna JUNG a Janusz ZUBER. Infrared imaging: a casebook in clinical medicine. Bristol: IOP Publishing, 2015. IOP expanding physics. ISBN 978-0-7503-1144-1.
[5] Medical infrared imaging: principles and practices. Editor Mary DIAKIDES, editor Joseph D. BRONZINO, editor Donald R. PETERSON. Boca Raton: CRC Press, 2012. ISBN 978-1-4398-7250-5.
[6] VOLLMER, Michael a Klaus-Peter MÖLLMANN. Infrared thermal imaging: fundamentals, research and applications. Hoboken: Wiley, 2011. ISBN 9783527630875.
[7] ROGALSKI, Antoni. Infrared detectors. 2nd ed. Boca Raton: Taylor & Francis, c2011. ISBN 978-1-4200-7671-4.
[8] MINKINA, Waldemar a Sebastian DUDZIK. Infrared thermography: errors and uncertainties. Chichester: John Wiley, 2009. ISBN 978-0-470-74718-6.

Other study materials:
Educational video: Principles of BW television http://webzam.fbmi.cvut.cz/hozman/AKK/BW_television_principle.mov
Educational video: Principles of color television http://webzam.fbmi.cvut.cz/hozman/AKK/color_TV_principle.mov
Educational video: Image sensors http://webzam.fbmi.cvut.cz/hozman/AKK/image_sensors.mov
Educational video: Image displays http://webzam.fbmi.cvut.cz/hozman/AKK/image_displays.mov

Abbreviations used:

Semester:

• W ... winter semester (usually October - February)
• S ... spring semester (usually March - June)
• W,S ... both semesters

Mode of completion of the course:

• A ... Assessment (no grade is given to this course but credits are awarded. You will receive only P (Passed) of F (Failed) and number of credits)
• GA ... Graded Assessment (a grade is awarded for this course)
• EX ... Examination (a grade is awarded for this course)
• A, EX ... Examination (the award of Assessment is a precondition for taking the Examination in the given subject, a grade is awarded for this course)

Weekly load (hours per week):

• P ... lecture
• C ... seminar
• L ... laboratory
• R ... proseminar
• S ... seminar