Course
PHO2 - Photo Technology 2
PDF Course Catalog Deutsche Version: PHO2
Version: 4 | Last Change: 08.10.2019 22:22 | Draft: 0 | Status: vom verantwortlichen Dozent freigegeben
| Long name | Photo Technology 2 |
|---|---|
| Approving CModule | PHO2_BaMT |
| Responsible |
Prof. Dr. Gregor Fischer
Professor Fakultät IME |
| Level | Bachelor |
| Semester in the year | summer semester |
| Duration | Semester |
| Hours in self-study | 60 |
| ECTS | 5 |
| Professors |
Prof. Dr. Gregor Fischer
Professor Fakultät IME |
| Requirements | none |
| Language | German |
| Separate final exam | Yes |
Literature
Allgemein
Pedrotti/Bausch/Schmitt, Optik für Ingenieure, Springer
Naumann/Schröder, Bauelemente der Optik, Hanser
G. Schröder, Technische Optik, Vogel
G. Schröder, Technische Fotografie, Vogel
H.A.E. Keitz, Lichtberechnungen und Lichtmessungen, Philips TB
E. Helbig, Grundlagen der Lichtmesstechnik, Akademische Verlagsgesselschaft Geest & Portig, 1972
Pedrotti/Bausch/Schmitt, Optik für Ingenieure, Springer
Naumann/Schröder, Bauelemente der Optik, Hanser
G. Schröder, Technische Optik, Vogel
G. Schröder, Technische Fotografie, Vogel
H.A.E. Keitz, Lichtberechnungen und Lichtmessungen, Philips TB
E. Helbig, Grundlagen der Lichtmesstechnik, Akademische Verlagsgesselschaft Geest & Portig, 1972
Final exam
Details
Written exam with arithmetic and comprehension excercisesMinimum standard
50% of maximum pointsExam Type
Written exam with arithmetic and comprehension excercisesLearning goals
Knowledge
Photometry
Radiometric, spectral and photometric measures
Photometric laws
Secondary radiators
Lambert radiator
Mirror surfaces
Photometric calculations
Radiant sources
Emission mechanisms
Spectral distribution
Directional characteristic
Temperature radiant laws
Color temperature and color conversion
Technical light sources
Operating laws for tungsten lamps and LEDs
Radiation detectors
Spectral sensitivity
Directional sensitivity
Radiant propagation through lens optics
Exposure control
Illuminating engineering
Head lamp technology
Light formers
Flash technology
Basics of the illumination
Illumination models
Radiometric, spectral and photometric measures
Photometric laws
Secondary radiators
Lambert radiator
Mirror surfaces
Photometric calculations
Radiant sources
Emission mechanisms
Spectral distribution
Directional characteristic
Temperature radiant laws
Color temperature and color conversion
Technical light sources
Operating laws for tungsten lamps and LEDs
Radiation detectors
Spectral sensitivity
Directional sensitivity
Radiant propagation through lens optics
Exposure control
Illuminating engineering
Head lamp technology
Light formers
Flash technology
Basics of the illumination
Illumination models
Skills
understand the physical definition of the radiometric, spectral and photometric measures
apply photometric laws and calculate simple illuminating set-ups
know the principles and technical embodiments for light generation
know the principles and technical embodiments for light detection
model the light propagation through a photographic lens and apply it to the exposure control in digital cameras
understand and analyse the geometric and spectral radiant flux to apply it to the illumination of a scene and to the spectral adaptation of a camera
apply photometric laws and calculate simple illuminating set-ups
know the principles and technical embodiments for light generation
know the principles and technical embodiments for light detection
model the light propagation through a photographic lens and apply it to the exposure control in digital cameras
understand and analyse the geometric and spectral radiant flux to apply it to the illumination of a scene and to the spectral adaptation of a camera
Expenditure classroom teaching
| Type | Attendance (h/Wk.) |
|---|---|
| Lecture | 3 |
| Exercises (whole course) | 1 |
| Exercises (shared course) | 0 |
| Tutorial (voluntary) | 2 |
Special literature
keine/none
Special requirements
none
Accompanying material
electronic slides as presented during lectures
electronic collection of excercises
electronic collection of excercises
Separate exam
none
Learning goals
Skills
apply photographic and illuminating measurement techniques
measure the directional sensitivity (detector) and the light distribution curve (source)
apply optical and electronic means for the spectral adaptation between light source and detector effectively
apply measurement technique for exposure control and white balance
install the lighting set-up for illumination uniformity and contrast control
document the results
measure the directional sensitivity (detector) and the light distribution curve (source)
apply optical and electronic means for the spectral adaptation between light source and detector effectively
apply measurement technique for exposure control and white balance
install the lighting set-up for illumination uniformity and contrast control
document the results
Expenditure classroom teaching
| Type | Attendance (h/Wk.) |
|---|---|
| Practical training | 1 |
| Tutorial (voluntary) | 0 |
Special literature
keine/none
Special requirements
none
Accompanying material
electronic instructions for the lab-exercises
electronic tools:
access to raw image data
electronic tools:
access to raw image data
Separate exam
Exam Type
working on practical scenarion (e.g. in a lab)Details
Technical discussion / colloquium before lab excerciseProtocol reports about lab excercises
Minimum standard
Reports for all lab excercises must be delivered in correct form with correct results
Bei Fehlern, bitte Mitteilung an die
Webredaktion der Fakultät IME
Webredaktion der Fakultät IME
© 2022 Technische Hochschule Köln