Course

PHO1 - Photo Technology 1


PDF Course Catalog Deutsche Version: PHO1

Version: 3 | Last Change: 08.10.2019 22:19 | Draft: 0 | Status: vom verantwortlichen Dozent freigegeben

Long name Photo Technology 1
Approving CModule PHO1_BaMT
Responsible
Prof. Dr. Gregor Fischer
Professor Fakultät IME
Level Bachelor
Semester in the year winter semester
Duration Semester
Hours in self-study 78
ECTS 5
Professors
Prof. Dr. Gregor Fischer
Professor Fakultät IME
Requirements none
Language German, English if necessary
Separate final exam Yes
Literature
E. Hecht, Optik, Oldenbourg
Pedrotti/Bausch/Schmitt, Optik für Ingenieure, Springer
Naumann/Schröder, Bauelemente der Optik, Hanser
G. Schröder, Technische Optik, Vogel
G. Schröder, Technische Fotografie, Vogel
W. Baier, Optik,Perspektive und Rechnungen in der Fotografie, FBV Leipzig
J. Flügge, Studienbuch zur technischen Optik, UTB Vandenhoeck
J. Flügge, Leitfaden der geometrischen Optik und des Optikrechnens, UTB Vandenhoeck
Final exam
Details
Written exam with arithmetic and comprehension excercises, can also be held as multiple choice test
Minimum standard
50% of maximum points
Exam Type
Written exam with arithmetic and comprehension excercises, can also be held as multiple choice test

Learning goals

Knowledge
Physical basics of light
wave-particle-dualism
Harmonic oscillation
Polarization
Interference
Phenomenons of light propagarion
reflection law
Dispersion
Absorption
Scattering

Geometrical optics
Imaging equations, graphical ray tracing
Concept of the principal planes
Imaging by spheric surface
Ray computation
Stops, pupils and ports
optical aberrations, critical aperture
Unsharpness by diffraction, optical resolution
Photographic lenses

Optical image design
Perspective
Depth of Field
Scheimpflug
In-motion Unsharpness

Skills
understand the nature of light and the phenomenons of light propagation

ray tracing graphically or by calculation

analyse and model the function of optical systems by equivalent optical variables

classify and distinguish optical abberations

understand the limitation of the optical resolution due to different causes and define the requirements by the human eye

model and calculate the 3D effects for the optical image design
Expenditure classroom teaching
Type Attendance (h/Wk.)
Lecture 2
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
Separate exam
none

Learning goals

Skills
use and control polarization effects at dielectric surfaces

measure and assess the optical parameters of photographic lenses

apply means for the optical image design (perspective, depth of field, in-motion unsharpness)

apply optical settings effectively

realize optical measurements by means of a digital camera

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
MTF analysis software
Separate exam
Exam Type
working on practical scenarion (e.g. in a lab)
Details
Technical discussion / colloquium before lab excercise
Protocol reports about lab excercises
Minimum standard
Reports for all lab excercises must be delivered in correct form with correct results

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