Academic Year:
2023/24
297 - Degree in Optics and Optometry
26834 - Radiometry, Photometry, Colour and Photography
Teaching Plan Information
Academic year:
2023/24
Subject:
26834 - Radiometry, Photometry, Colour and Photography
Faculty / School:
100 - Facultad de Ciencias
Degree:
297 - Degree in Optics and Optometry
ECTS:
6.0
Year:
3 and 4
Semester:
First semester
Subject type:
Optional
Module:
---
1. General information
The objectives of this subject are to understand and assimilate the most important and general concepts, theories and models of the three thematic and conceptual blocks that compose it: Radiometry and Photometry, Colorimetry and Photography. The purpose is that the student has a global vision of these concepts for their application in Optics and Optometry.
All observations made through the eye have radiation, light, as a basic component. Knowing the parameters that define good lighting is essential for an optician-optometrist because of its impact on the hygiene of visual work.
These approaches and objectives are aligned with the following Sustainable Development Goals (SDGs) of the United Nations Agenda 2030 ( https://www.un.org/sustainabledevelopment/es/), in such a way that the acquisition of the learning results of the subject provides training and competence to contribute to some extent to their achievement:
Goal 4: Quality Education.
Goal 9: Industry, Innovation and Infrastructure
2. Learning results
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To be able to understand the behaviour of radiation and its interaction with the human visual system.
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To be able to operate devices in the laboratory and understand absolute and relative radiation measurements (with the eye as a reference).
3. Syllabus
THEORY
Radiometry and Photometry
Topic 1. Electromagnetic energy and spectrum
Topic 2. Radiometric quantities
Topic 3. The eye and the reference observer
Topic 4. Photometric quantities
Topic 5. Key relationships
Topic 6. Light sources, natural and artificial
Topic 7. Lanterns. Lighting applications
Colorimetry
Topic 8. Physiology of vision: colour vision. Basic theory
Topic 9. Colour- Colour spaces: Linear (RGB, CMYK), Standard (CIE-XYZ), Perceptual (L*u*v*, L*a*b*), Artistic (Munsell, NCS)
Topic 10. Colour measurement. Colour differences
Photography
Topic 11. The camera and the image
Topic 12. Cameras and their operation
Topic 13. Lighting in photography
Topic 14. The language of photography
Topic 15. Post-camera techniques
PRACTICAL SESSIONS
Practice 1. Operation of luxmeters, luminance meters and photometers
Practice 2. Spectral measurement of lamps
Practice 3. Physical and optical effects
Practice 4. Colour measurement by reflection and transmission
Practice 5. Interior photography
Practice 6. Outdoor photography
4. Academic activities
Lectures: 40 hours
Theoretical sessions in which the contents of the subject are explained.
Problems and cases: 10 hours
Problem solving and case studies of each topic.
Laboratory Practices: 10 hours
Simulation tools and laboratory instrumentation will be used to address the issues raised in theory
Teaching assignments: 10 hours
Both the evaluable teaching assignments and the preparation of laboratory practice reports are included.
Personal study. 74 hours
Assessment tests. 6 hours
5. Assessment system
Continuous assessment. Regular attendance to practical classes is a prerequisite for this modality of evaluation.
Practice scripts (1/6)
Photographic project (1/6)
Written exam (1/2)
Exercises and problems (1/6)
Final exam. This evaluation modality will be applied when regular attendance to the practices of laboratory is not possible.