Course Photo Technology 1


Responsible: Prof. Dr.-Ing. Gregor Fischer

Course

Meets requirements of following modules(MID)

Course Organization

Version
created 2011-12_09
VID 1
valid from WS 2012/13
valid to
Course identifiers
Long name Photo Technology 1
CID F07_PHO1
CEID (exam identifier)

Contact hours per week (SWS)
Lecture 2
Exercise (unsplit) 1
Exercise (split)
Lab 0.5
Project
Seminar
Tutorial(voluntary) 2
Total contact hours
Lecture 30
Exercise (unsplit) 15
Exercise (split)
Lab 7.5
Project
Seminar
Tutorial (voluntary) 30
Max. capacity
Exercise (unsplit)
Exercise (split)
Lab 18
Project 18
Seminar 40

Total effort (hours): 150

Instruction language

  • 70% German
  • 30% English

Study Level

  • Undergraduate

Prerequisites

  • none

Textbooks, Recommended Reading

  • Grundlagen
    • E. Hecht, Optik, Oldenbourg
  • Allgemein
    • Pedrotti/Bausch/Schmitt, Optik für Ingenieure, Springer
    • Naumann/Schröder, Bauelemente der Optik, Hanser
    • G. Schröder, Technische Optik, Vogel
    • G. Schröder, Technische Fotografie, Vogel
  • Optische Abbildung, Photographische Objektive
    • 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

Instructors

  • Prof. Dr.-Ing. Gregor Fischer
  • Prof. Dr.-Ing. Dirk Poggemann

Supporting Scientific Staff

  • tba

Transcipt Entry

Photo Technology 1

Assessment

Type
wE

Total effort [hours]
wE

Frequency: 2-3/year


Course components

Lecture/Exercise

Objectives

Contents
  • 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

Acquired 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

Additional Component Assessment

Type
fPS excercise (on course and self study)

Contribution to course grade
fPS not rated

Frequency: 1/year

Lab

Objectives

Acquired 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)

Operational Competences
  • apply optical settings effectively
  • realize optical measurements by means of a digital camera
  • document the results

Additional Component Assessment

Type
fSC lab experiment (4h)
fTP 4 lab experiments (each 4h) per project team
oR presentation on fTP (20min per project team)

Contribution to course grade
fSC Attestation
fTP Attestation
oR prerequisite to course exam

Frequency: 1/year

Topic-Revision: r4 - 11 Jan 2016, GeneratedContent
 
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