Course Details
Aplied Optics
Academic Year 2023/24
GE02 course is part of 1 study plan
B-P-C-GK / GI Winter Semester 2nd year
Opinion development on fundamentals of light, light as electromagnetic radiation, fundamentals of geometry optics, fundamentals of wave optics, ideal optics projection. Gauss projection equation, fundamental of matrix calculus in basic tasks of geometry optics, real projection, screens, definition depth, defects of projection apparatus, optical glass, optical apparatus and photometry, basic parts of projection apparatus- plane reflection and refracting surface, plane-parallel desk, optical wedge, prism, spherical, spherical, reflecting and refracting surfaces, lenses – eye, visual optical apparatus, microscope, binoculars, mirror telescope, projection apparatus, resolution capacity of optical apparatus, optical parts of geodetic instruments, fundamentals of optics fibres, lasers.
Credits
6 credits
Language of instruction
Czech
Semester
winter
Course Guarantor
Institute
Forms and criteria of assessment
course-unit credit and examination
Entry Knowledge
matrix calculus
Aims
Fundamentals of geometry optics and wawe optics,
Parts of optics instruments,optics in surveying and photogrammetry Lasers.
The student gets fundamentals of geometry optics and wawe optics, information of parts of optics instruments and optics in surveying and photogrammetry.
Parts of optics instruments,optics in surveying and photogrammetry Lasers.
The student gets fundamentals of geometry optics and wawe optics, information of parts of optics instruments and optics in surveying and photogrammetry.
Basic Literature
Schröder, G.: Technická optika. SNTL Praha, 1972. (cs)
Banerjee, P. P., Ting-Chung Poon: Principles of applied optics, Homewood.. Aksen Associates Incorp.Irwin, 1991. (en)
Born, M., Wolf, E: Principles of Optics. Cambridge Univ. Press, Cambridge, 1998. (en)
Paul R. Wolf, Charles D. Ghilani: Elementary Surveying - an introduction to geomatics, Upper Saddle River, NJ. Prentice-Hall 2002. (en)
Štrba, A.: Všeobecná fyzika 3 - Optika, Alfa-SNTL Bratislava, 1979 (cs)
Banerjee, P. P., Ting-Chung Poon: Principles of applied optics, Homewood.. Aksen Associates Incorp.Irwin, 1991. (en)
Born, M., Wolf, E: Principles of Optics. Cambridge Univ. Press, Cambridge, 1998. (en)
Paul R. Wolf, Charles D. Ghilani: Elementary Surveying - an introduction to geomatics, Upper Saddle River, NJ. Prentice-Hall 2002. (en)
Štrba, A.: Všeobecná fyzika 3 - Optika, Alfa-SNTL Bratislava, 1979 (cs)
Recommended Reading
Švec, M.: Aplikovaná optika. AN CERM Brno, 1995. (cs)
Švec, M.: Příklady z aplikované optiky. AN CERM Brno, 1996. (cs)
Švec, M.: Příklady z aplikované optiky. AN CERM Brno, 1996. (cs)
Syllabus
1. Opinion development on fundamentals of light, light as electromagnetic radiation
2. Fundamentals of geometry optics and wave optics
3. Ideal optics projection. Gauss projection equation
4. Fundamental of matrix calculus in basic tasks of geometry optics
5. Transformation matrix of optical projection
6. Real projection, aperture, definition depth
7. Defects of projection apparatus, optical glass, optical apparatus and photometry
8. Simple elements of Imaging Systems
9. Visual optical apparatus, microscope, binoculars, mirror telescope
10. Projection apparatus
11. Resolution capacity of optical apparatus
12. Optical parts of geodetic instruments
13. Fundamentals of fibre optics, lasers, electronics in surveying.
2. Fundamentals of geometry optics and wave optics
3. Ideal optics projection. Gauss projection equation
4. Fundamental of matrix calculus in basic tasks of geometry optics
5. Transformation matrix of optical projection
6. Real projection, aperture, definition depth
7. Defects of projection apparatus, optical glass, optical apparatus and photometry
8. Simple elements of Imaging Systems
9. Visual optical apparatus, microscope, binoculars, mirror telescope
10. Projection apparatus
11. Resolution capacity of optical apparatus
12. Optical parts of geodetic instruments
13. Fundamentals of fibre optics, lasers, electronics in surveying.
Prerequisites
matrix calculus
Specification of controlled instruction, the form of instruction, and the form of compensation of the absences
Extent and forms are specified by guarantor’s regulation updated for every academic year.
Offered to foreign students
Not to offer
Course on BUT site
Lecture
13 weeks, 2 hours/week, elective
Syllabus
1. Opinion development on fundamentals of light, light as electromagnetic radiation
2. Fundamentals of geometry optics and wave optics
3. Ideal optics projection. Gauss projection equation
4. Fundamental of matrix calculus in basic tasks of geometry optics
5. Transformation matrix of optical projection
6. Real projection, aperture, definition depth
7. Defects of projection apparatus, optical glass, optical apparatus and photometry
8. Simple elements of Imaging Systems
9. Visual optical apparatus, microscope, binoculars, mirror telescope
10. Projection apparatus
11. Resolution capacity of optical apparatus
12. Optical parts of geodetic instruments
13. Fundamentals of fibre optics, lasers, electronics in surveying.
2. Fundamentals of geometry optics and wave optics
3. Ideal optics projection. Gauss projection equation
4. Fundamental of matrix calculus in basic tasks of geometry optics
5. Transformation matrix of optical projection
6. Real projection, aperture, definition depth
7. Defects of projection apparatus, optical glass, optical apparatus and photometry
8. Simple elements of Imaging Systems
9. Visual optical apparatus, microscope, binoculars, mirror telescope
10. Projection apparatus
11. Resolution capacity of optical apparatus
12. Optical parts of geodetic instruments
13. Fundamentals of fibre optics, lasers, electronics in surveying.
Exercise
13 weeks, 1 hours/week, compulsory
Syllabus
1. Opinion development on fundamentals of light, light as electromagnetic radiation
2. Fundamentals of geometry optics and wave optics
3. Ideal optics projection. Gauss projection equation
4. Fundamental of matrix calculus in basic tasks of geometry optics
5. Transformation matrix of optical projection
6. Real projection, aperture, definition depth
7. Defects of projection apparatus, optical glass, optical apparatus and photometry
8. Basic parts of projection apparatus- plane reflection and refracting surface, plane-parallel desk, optical wedge, prism, spherical, spherical, reflecting and refracting surfaces, lenses – eye,
9. Visual optical apparatus, microscope, binoculars, mirror telescope
10. Projection apparatus
11. Resolution capacity of optical apparatus
12. Optical parts of geodetic instruments
13. Credit.
2. Fundamentals of geometry optics and wave optics
3. Ideal optics projection. Gauss projection equation
4. Fundamental of matrix calculus in basic tasks of geometry optics
5. Transformation matrix of optical projection
6. Real projection, aperture, definition depth
7. Defects of projection apparatus, optical glass, optical apparatus and photometry
8. Basic parts of projection apparatus- plane reflection and refracting surface, plane-parallel desk, optical wedge, prism, spherical, spherical, reflecting and refracting surfaces, lenses – eye,
9. Visual optical apparatus, microscope, binoculars, mirror telescope
10. Projection apparatus
11. Resolution capacity of optical apparatus
12. Optical parts of geodetic instruments
13. Credit.