Czech

6

Not applicable.

Institute of Geodesy (GED)

Knowledge: 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.

matrix calculus

Basic knowledge of construction surveying instruments, knowledge of mathematical principles waves.

Teaching methods depend on the type of course unit as specified in the article 7 of BUT Rules for Studies and Examinations. Students also have a tutorial LMS Moodle "GE01 - Geodesy I" whose content is mainly presentations for lectures, schedule of exercises and examples develop assignments and tests.

Attendance at seminars is compulsory (2 outs can apologize instructor). They write the three written tests - the sum of points of all tests must be at least 50% of the total achievable points from all tests. Not-flown test will be replaced by the agreed date. That exercise must be drawn up and entered all eligible programs. The test is to test, numerical and oral. 30% of the points are generated from the evaluation exercise. The total number of points is 100, for the successful completion of the

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.

Not applicable.

Fundamentals of geometry optics and wawe optics,
Parts of optics instruments,optics in surveying and photogrammetry Lasers.

Extent and forms are specified by guarantor’s regulation updated for every academic year.

Not applicable.

Not applicable.

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)

Švec, M.: Aplikovaná optika. AN CERM Brno, 1995. (CS)
Švec, M.: Příklady z aplikované optiky. AN CERM Brno, 1996. (CS)

13 hours, compulsory

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.