Course Details
Photogrammetry I
Academic Year 2023/24
GE15 course is part of 1 study plan
B-P-C-GK / GI Winter Semester 3rd year
Central projection, plane transformation, spatial similar transformation. Normal case, accuracy analysis. Surveying aerial cameras, resolution. Planning and takeing of aerial photos. Stereoscopy vision and survey. Methods of orientation of one photo, orientation of stereopair. Photogrammetric mapping. Accuracy of stereo-evaluation. Aerotriangulation, block adjustment. Close-range photogrammetry, basic approachs and applications. Acquisition of digital images. Orthophotomaps. Image processing, correlation. Digital photogrammetric workstations. Automatization.
Credits
5 credits
Language of instruction
Czech
Semester
winter
Course Guarantor
Institute
Forms and criteria of assessment
course-unit credit and examination
Entry Knowledge
cental projection, adjustment of measurements
Aims
To obtain knowledge of survey photogrammetric methods, taking images, orientation of images, plotting. Accurraccy of photogrammetric methods.
Ability to evaluate of images on digital photogrammetric workstation.
Manage of computation of elements of exterior orientations, evaluation of single objects.
Ability to evaluate of images on digital photogrammetric workstation.
Manage of computation of elements of exterior orientations, evaluation of single objects.
Basic Literature
Hanzl V.: Fotogrammetrie I. AV CERM, 2001. ISBN 80-214-2049-9. (cs)
Recommended Reading
Kraus, K.: Photogrammetry. Berlin: de Gruyter, 2007. ISBN 978-3-11-019007-6. (en)
Syllabus
1.Introduction, central projection.
2.Transformation, normal case, accuracy analysis.
3.Aerial cameras, sharpness of imaging, resolution ability.
4.Planing survey flight, stereoscopic vision.
5.Single image orientation, orientation of stereopair.
6.Photogrammetric survey, accuracy of stereoplotting.
7.Aerotriangulation, block adjustment.
8.Close range photogrammetry, basic approach.
9.Close range photogrammetry, application.
10. Acquisition of digital images, improvement of images, correlation.
11. Digital photogrammetric workstations, automatic processing.
12. Orthophotomaps.
13. Use GPS/IMU in photogrammetry.
2.Transformation, normal case, accuracy analysis.
3.Aerial cameras, sharpness of imaging, resolution ability.
4.Planing survey flight, stereoscopic vision.
5.Single image orientation, orientation of stereopair.
6.Photogrammetric survey, accuracy of stereoplotting.
7.Aerotriangulation, block adjustment.
8.Close range photogrammetry, basic approach.
9.Close range photogrammetry, application.
10. Acquisition of digital images, improvement of images, correlation.
11. Digital photogrammetric workstations, automatic processing.
12. Orthophotomaps.
13. Use GPS/IMU in photogrammetry.
Prerequisites
cental projection, adjustment of measurements
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.Introduction, central projection.
2.Transformation, normal case, accuracy analysis.
3.Aerial cameras, sharpness of imaging, resolution ability.
4.Planing survey flight, stereoscopic vision.
5.Single image orientation, orientation of stereopair.
6.Photogrammetric survey, accuracy of stereoplotting.
7.Aerotriangulation, block adjustment.
8.Close range photogrammetry, basic approach.
9.Close range photogrammetry, application.
10. Acquisition of digital images, improvement of images, correlation.
11. Digital photogrammetric workstations, automatic processing.
12. Orthophotomaps.
13. Use GPS/IMU in photogrammetry.
2.Transformation, normal case, accuracy analysis.
3.Aerial cameras, sharpness of imaging, resolution ability.
4.Planing survey flight, stereoscopic vision.
5.Single image orientation, orientation of stereopair.
6.Photogrammetric survey, accuracy of stereoplotting.
7.Aerotriangulation, block adjustment.
8.Close range photogrammetry, basic approach.
9.Close range photogrammetry, application.
10. Acquisition of digital images, improvement of images, correlation.
11. Digital photogrammetric workstations, automatic processing.
12. Orthophotomaps.
13. Use GPS/IMU in photogrammetry.
Exercise
13 weeks, 2 hours/week, compulsory
Syllabus
Aerotriangulation - input data and measurements of tie points - 2 weeks.
Aerotriangulation - measurements of control points, adjustment, accuracy analysis - 2 weeks.
Evaluation of vector map, data collection for digital terrain model - 2 weeks.
Orthophoto, mosaiking - 2 weeks.
Creation of simple 3D model by close range photogrammetry - 2 weeks.
Advaced tools for creation of 3D model - 2 weeks.
Aerotriangulation - measurements of control points, adjustment, accuracy analysis - 2 weeks.
Evaluation of vector map, data collection for digital terrain model - 2 weeks.
Orthophoto, mosaiking - 2 weeks.
Creation of simple 3D model by close range photogrammetry - 2 weeks.
Advaced tools for creation of 3D model - 2 weeks.