Course Information

Z8101 Photogrammetry

Extent and Intensity

1/1. 4 credit(s). Type of Completion: zk (examination).
In-person direct teaching

Teacher(s)

Ing. Kateřina Tajovská, Ph.D. (lecturer)
Ing. Jonáš Hruška, Ph.D. (seminar tutor)

Guaranteed by

Ing. Kateřina Tajovská, Ph.D.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: Ing. Kateřina Tajovská, Ph.D.
Supplier department: Department of Geography – Earth Sciences Section – Faculty of Science

Timetable

Mon 10:00–10:50 Z7,02017a

• Timetable of Seminar Groups:

Z8101/01: Mon 11:00–11:50 Z7,02017a, J. Hruška, K. Tajovská

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

The capacity limit for the course is 12 student(s).
Current registration and enrolment status: enrolled: 9/12, only registered: 0/12

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)
• Cartography and geoinformatics (programme PřF, N-GKG)

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Learning outcomes

Student will be able to:
- to focus on the basic principles of aerial and terrestrial photogrammety
- Ability to use specialized software for photogrammetry
- to design and implement an airborn project in the selected area
- Process and create orthophotomap, digital terrain model
- Have a basic overview of the available technologies in terrestrial, aerial and mobile laser scanning
- find available data sources for photogrammetry

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry
• 2. Optical and photographic basis, interpretation of photographs
• 3. Aerial imaging (airplanes, cameras, films, digital photography, GPS support)Main kinds of photographs and their elements.
• 4. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry.
• 5. Single image methods, relief displacement, stereophotogrammetry, principle of stereo plotting device, relative and absolute orientation.
• 6. Aerotriangulation, bundle adjustment, ground control points
• 7. Digital photogrammetry, attributes of digital image,Image transformation, geometric correction
• 8. Orthophoto and digital terrain model (DTM), generation, DEM and DTM.
• 9. UAV photogrammetry, software, close-range photogrammetry
• 10. Terrestrial and airborne laser scanning (LIDAR)
• 11. Mobile laser scanning
• 12. Satellite photogrammetry, new data sources for digital photogrammetry.
• 13. Digital photogrammetry workstation, HW and SW tools.

Literature

• LINDER, Wilfried. Digital photogrammetry : a practical course. 2nd ed. Berlin: Springer, 2006, xiii, 214. ISBN 3540291520. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 6th ed. New York: John Wiley & Sons, 2008, xii, 756. ISBN 9780470052457. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• ABER, James S., Irene MARZOLFF and Johannes B. RIES. Small-format aerial photography : principles, techniques and geoscience applications. First edition 2010. Oxford, UK: Elsevier, 2010, xi, 266. ISBN 9780444532602. info
• Airborne and terrestrial laser scanning. Edited by George Vosselman - Hans-Gerd Maas. Boca Raton, Fla.: CRC Press, 2010, xvii, 318. ISBN 9781849950138. info
• Close-range photogrammetry and 3D imaging. Edited by Thomas Luhmann - Stuart Robson - Stephen Kyle - Jan Böhm. 2nd edition. Boston: De Gruyter, 2014, xviii, 684. ISBN 9783110302691. info
• Close range photogrammetry :principles, techniques and applications. Edited by T. Luhmann. 1 online r. ISBN 9781904445999. info
• HODAČ, Jindřich. Pozemní fotogrammetrie. Vyd. 1. Ústí nad Labem: Centrum pro dokumentaci a digitalizaci kulturního dědictví, Filozofická fakulta Univerzity J.E. Purkyně v Ústí nad Labem, 2011, 85 s. ISBN 9788074143434. info
• PAVELKA, Karel. Fotogrammetrie 1: digitální metody. CERM, 2009, 200 pp. ISBN 978-80-01-04249-6. info

Teaching methods

Lectures explaining basic terms of analogue, analytical and digital photogrammetry. In practical exercises basic examples of analysis are presented step by step. Practical training is based on 2-3 exercises that are solved using special software tools for aerial and satellite imagery (PCI ORTHOENGINE). Correctness and quality of practical exercises are evaluated and info is provided to students as a feedback. Lecture and exercises in person

Assessment methods

The exam has the form of a written test on theory of analogue, analytical and digital photogrammetry. Elaboration of all practical excercises and successul practical test at the end of the term are two necessary conditions for passing the exam. Practical test with the use of computer.

Language of instruction

Czech

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.

Teacher's information

The course ends with an exam, the student will gain an overview of the methods of analog, analytical and digital photogrammetry. The mathematical apparatus is used to understand the essence of the methods, for their clarity are used procedures of analog and analytical photogrammetry. The student will gain practical experience in creating a digital terrain model and creating orthophoto in the ORTHOENGINE environment and basic knowledge of laser data processing.

Z8101 Photogrammetry

Extent and Intensity

1/1. 4 credit(s). Type of Completion: zk (examination).

Teacher(s)

Ing. Kateřina Tajovská, Ph.D. (lecturer)
Ing. Jonáš Hruška, Ph.D. (seminar tutor)
Bc. Matěj Slivka (assistant)

Guaranteed by

Ing. Kateřina Tajovská, Ph.D.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: Ing. Kateřina Tajovská, Ph.D.
Supplier department: Department of Geography – Earth Sciences Section – Faculty of Science

Timetable

Wed 10:00–10:50 Z7,02017a

• Timetable of Seminar Groups:

Z8101/01: Wed 11:00–11:50 Z7,02017a, J. Hruška, K. Tajovská

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

The capacity limit for the course is 12 student(s).
Current registration and enrolment status: enrolled: 9/12, only registered: 0/12

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)
• Cartography and geoinformatics (programme PřF, N-GKG)

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Learning outcomes

Student will be able to:
- to focus on the basic principles of aerial and terrestrial photogrammety
- Ability to use specialized software for photogrammetry
- to design and implement an airborn project in the selected area
- Process and create orthophotomap, digital terrain model
- Have a basic overview of the available technologies in terrestrial, aerial and mobile laser scanning
- find available data sources for photogrammetry

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry
• 2. Optical and photographic basis, interpretation of photographs
• 3. Aerial imaging (airplanes, cameras, films, digital photography, GPS support)Main kinds of photographs and their elements.
• 4. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry.
• 5. Single image methods, relief displacement, stereophotogrammetry, principle of stereo plotting device, relative and absolute orientation.
• 6. Aerotriangulation, bundle adjustment, ground control points
• 7. Digital photogrammetry, attributes of digital image,Image transformation, geometric correction
• 8. Orthophoto and digital terrain model (DTM), generation, DEM and DTM.
• 9. UAV photogrammetry, software, close-range photogrammetry
• 10. Terrestrial and airborne laser scanning (LIDAR)
• 11. Mobile laser scanning
• 12. Satellite photogrammetry, new data sources for digital photogrammetry.
• 13. Digital photogrammetry workstation, HW and SW tools.

Literature

• LINDER, Wilfried. Digital photogrammetry : a practical course. 2nd ed. Berlin: Springer, 2006, xiii, 214. ISBN 3540291520. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 6th ed. New York: John Wiley & Sons, 2008, xii, 756. ISBN 9780470052457. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• ABER, James S., Irene MARZOLFF and Johannes B. RIES. Small-format aerial photography : principles, techniques and geoscience applications. First edition 2010. Oxford, UK: Elsevier, 2010, xi, 266. ISBN 9780444532602. info
• Airborne and terrestrial laser scanning. Edited by George Vosselman - Hans-Gerd Maas. Boca Raton, Fla.: CRC Press, 2010, xvii, 318. ISBN 9781849950138. info
• Close-range photogrammetry and 3D imaging. Edited by Thomas Luhmann - Stuart Robson - Stephen Kyle - Jan Böhm. 2nd edition. Boston: De Gruyter, 2014, xviii, 684. ISBN 9783110302691. info
• Close range photogrammetry :principles, techniques and applications. Edited by T. Luhmann. 1 online r. ISBN 9781904445999. info
• HODAČ, Jindřich. Pozemní fotogrammetrie. Vyd. 1. Ústí nad Labem: Centrum pro dokumentaci a digitalizaci kulturního dědictví, Filozofická fakulta Univerzity J.E. Purkyně v Ústí nad Labem, 2011, 85 s. ISBN 9788074143434. info
• PAVELKA, Karel. Fotogrammetrie 1: digitální metody. CERM, 2009, 200 pp. ISBN 978-80-01-04249-6. info

Teaching methods

Lectures explaining basic terms of analogue, analytical and digital photogrammetry. In practical exercises basic examples of analysis are presented step by step. Practical training is based on 2-3 exercises that are solved using special software tools for aerial and satellite imagery (PCI ORTHOENGINE). Correctness and quality of practical exercises are evaluated and info is provided to students as a feedback. Lecture and exercises in person

Assessment methods

The exam has the form of a written test on theory of analogue, analytical and digital photogrammetry. Elaboration of all practical excercises and successul practical test at the end of the term are two necessary conditions for passing the exam. Practical test with the use of computer.

Language of instruction

Czech

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.

Teacher's information

The course ends with an exam, the student will gain an overview of the methods of analog, analytical and digital photogrammetry. The mathematical apparatus is used to understand the essence of the methods, for their clarity are used procedures of analog and analytical photogrammetry. The student will gain practical experience in creating a digital terrain model and creating orthophoto in the ORTHOENGINE environment and basic knowledge of laser data processing.

Z8101 Photogrammetry

Extent and Intensity

1/1. 4 credit(s). Type of Completion: zk (examination).

Teacher(s)

Ing. Kateřina Tajovská, Ph.D. (lecturer)
Ing. Kateřina Tajovská, Ph.D. (seminar tutor)

Guaranteed by

Ing. Kateřina Tajovská, Ph.D.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: Ing. Kateřina Tajovská, Ph.D.
Supplier department: Department of Geography – Earth Sciences Section – Faculty of Science

Timetable

Thu 13:00–13:50 Z7,02017a

• Timetable of Seminar Groups:

Z8101/01: Thu 14:00–14:50 Z7,02017a, K. Tajovská

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

The capacity limit for the course is 12 student(s).
Current registration and enrolment status: enrolled: 4/12, only registered: 0/12

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)
• Cartography and geoinformatics (programme PřF, N-GKG)

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Learning outcomes

Student will be able to:
- to focus on the basic principles of aerial and terrestrial photogrammety
- Ability to use specialized software for photogrammetry
- to design and implement an airborn project in the selected area
- Process and create orthophotomap, digital terrain model
- Have a basic overview of the available technologies in terrestrial, aerial and mobile laser scanning
- find available data sources for photogrammetry

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry
• 2. Optical and photographic basis, interpretation of photographs
• 3. Aerial imaging (airplanes, cameras, films, digital photography, GPS support)Main kinds of photographs and their elements.
• 4. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry.
• 5. Single image methods, relief displacement, stereophotogrammetry, principle of stereo plotting device, relative and absolute orientation.
• 6. Aerotriangulation, bundle adjustment, ground control points
• 7. Digital photogrammetry, attributes of digital image,Image transformation, geometric correction
• 8. Orthophoto and digital terrain model (DTM), generation, DEM and DTM.
• 9. UAV photogrammetry, software, close-range photogrammetry
• 10. Terrestrial and airborne laser scanning (LIDAR)
• 11. Mobile laser scanning
• 12. Satellite photogrammetry, new data sources for digital photogrammetry.
• 13. Digital photogrammetry workstation, HW and SW tools.

Literature

• LINDER, Wilfried. Digital photogrammetry : a practical course. 2nd ed. Berlin: Springer, 2006, xiii, 214. ISBN 3540291520. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 6th ed. New York: John Wiley & Sons, 2008, xii, 756. ISBN 9780470052457. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• ABER, James S., Irene MARZOLFF and Johannes B. RIES. Small-format aerial photography : principles, techniques and geoscience applications. First edition 2010. Oxford, UK: Elsevier, 2010, xi, 266. ISBN 9780444532602. info
• Airborne and terrestrial laser scanning. Edited by George Vosselman - Hans-Gerd Maas. Boca Raton, Fla.: CRC Press, 2010, xvii, 318. ISBN 9781849950138. info
• Close-range photogrammetry and 3D imaging. Edited by Thomas Luhmann - Stuart Robson - Stephen Kyle - Jan Böhm. 2nd edition. Boston: De Gruyter, 2014, xviii, 684. ISBN 9783110302691. info
• Close range photogrammetry :principles, techniques and applications. Edited by T. Luhmann. 1 online r. ISBN 9781904445999. info
• HODAČ, Jindřich. Pozemní fotogrammetrie. Vyd. 1. Ústí nad Labem: Centrum pro dokumentaci a digitalizaci kulturního dědictví, Filozofická fakulta Univerzity J.E. Purkyně v Ústí nad Labem, 2011, 85 s. ISBN 9788074143434. info
• PAVELKA, Karel. Fotogrammetrie 1: digitální metody. CERM, 2009, 200 pp. ISBN 978-80-01-04249-6. info

Teaching methods

Lectures explaining basic terms of analogue, analytical and digital photogrammetry. In practical exercises basic examples of analysis are presented step by step. Practical training is based on 2-3 exercises that are solved using special software tools for aerial and satellite imagery (PCI ORTHOENGINE). Correctness and quality of practical exercises are evaluated and info is provided to students as a feedback. Lecture and exercises in person

Assessment methods

The exam has the form of a written test on theory of analogue, analytical and digital photogrammetry. Elaboration of all practical excercises and successul practical test at the end of the term are two necessary conditions for passing the exam. Practical test with the use of computer.

Language of instruction

Czech

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.

Teacher's information

The course ends with an exam, the student will gain an overview of the methods of analog, analytical and digital photogrammetry. The mathematical apparatus is used to understand the essence of the methods, for their clarity are used procedures of analog and analytical photogrammetry. The student will gain practical experience in creating a digital terrain model and creating orthophoto in the ORTHOENGINE environment and basic knowledge of laser data processing.

Z8101 Photogrammetry

Extent and Intensity

1/1. 4 credit(s). Type of Completion: zk (examination).

Teacher(s)

Ing. Kateřina Tajovská, Ph.D. (lecturer)
Ing. Kateřina Tajovská, Ph.D. (seminar tutor)

Guaranteed by

Ing. Kateřina Tajovská, Ph.D.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: Ing. Kateřina Tajovská, Ph.D.
Supplier department: Department of Geography – Earth Sciences Section – Faculty of Science

Timetable

Mon 10:00–10:50 Z2,01032

• Timetable of Seminar Groups:

Z8101/01: Tue 14:00–14:50 Z1,01001b, K. Tajovská

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

The capacity limit for the course is 12 student(s).
Current registration and enrolment status: enrolled: 0/12, only registered: 0/12

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)
• Cartography and geoinformatics (programme PřF, N-GKG)

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Learning outcomes

Student will be able to:
- to focus on the basic principles of aerial and terrestrial photogrammety
- Ability to use specialized software for photogrammetry
- to design and implement an airborn project in the selected area
- Process and create orthophotomap, digital terrain model
- Have a basic overview of the available technologies in terrestrial, aerial and mobile laser scanning
- find available data sources for photogrammetry

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry
• 2. Optical and photographic basis, interpretation of photographs
• 3. Aerial imaging (airplanes, cameras, films, digital photography, GPS support)Main kinds of photographs and their elements.
• 4. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry.
• 5. Single image methods, relief displacement, stereophotogrammetry, principle of stereo plotting device, relative and absolute orientation.
• 6. Aerotriangulation, bundle adjustment, ground control points
• 7. Digital photogrammetry, attributes of digital image,Image transformation, geometric correction
• 8. Orthophoto and digital terrain model (DTM), generation, DEM and DTM.
• 9. UAV photogrammetry, software, close-range photogrammetry
• 10. Terrestrial and airborne laser scanning (LIDAR)
• 11. Mobile laser scanning
• 12. Satellite photogrammetry, new data sources for digital photogrammetry.
• 13. Digital photogrammetry workstation, HW and SW tools.

Literature

• LINDER, Wilfried. Digital photogrammetry : a practical course. 2nd ed. Berlin: Springer, 2006, xiii, 214. ISBN 3540291520. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 6th ed. New York: John Wiley & Sons, 2008, xii, 756. ISBN 9780470052457. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• ABER, James S., Irene MARZOLFF and Johannes B. RIES. Small-format aerial photography : principles, techniques and geoscience applications. First edition 2010. Oxford, UK: Elsevier, 2010, xi, 266. ISBN 9780444532602. info
• Airborne and terrestrial laser scanning. Edited by George Vosselman - Hans-Gerd Maas. Boca Raton, Fla.: CRC Press, 2010, xvii, 318. ISBN 9781849950138. info
• Close-range photogrammetry and 3D imaging. Edited by Thomas Luhmann - Stuart Robson - Stephen Kyle - Jan Böhm. 2nd edition. Boston: De Gruyter, 2014, xviii, 684. ISBN 9783110302691. info
• Close range photogrammetry :principles, techniques and applications. Edited by T. Luhmann. 1 online r. ISBN 9781904445999. info
• HODAČ, Jindřich. Pozemní fotogrammetrie. Vyd. 1. Ústí nad Labem: Centrum pro dokumentaci a digitalizaci kulturního dědictví, Filozofická fakulta Univerzity J.E. Purkyně v Ústí nad Labem, 2011, 85 s. ISBN 9788074143434. info
• PAVELKA, Karel. Fotogrammetrie 1: digitální metody. CERM, 2009, 200 pp. ISBN 978-80-01-04249-6. info

Teaching methods

Lectures explaining basic terms of analogue, analytical and digital photogrammetry. In practical exercises basic examples of analysis are presented step by step. Practical training is based on 2-3 exercises that are solved using special software tools for aerial and satellite imagery (PCI ORTHOENGINE). Correctness and quality of practical exercises are evaluated and info is provided to students as a feedback. Lecture and exercises in person

Assessment methods

The exam has the form of a written test on theory of analogue, analytical and digital photogrammetry. Elaboration of all practical excercises and successul practical test at the end of the term are two necessary conditions for passing the exam. Practical test with the use of computer.

Language of instruction

Czech

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.

Teacher's information

The course ends with an exam, the student will gain an overview of the methods of analog, analytical and digital photogrammetry. The mathematical apparatus is used to understand the essence of the methods, for their clarity are used procedures of analog and analytical photogrammetry. The student will gain practical experience in creating a digital terrain model and creating orthophoto in the ORTHOENGINE environment and basic knowledge of laser data processing.

Z8101 Photogrammetry

Extent and Intensity

1/1. 4 credit(s). Type of Completion: zk (examination).

Teacher(s)

Ing. Kateřina Tajovská, Ph.D. (lecturer)
Ing. Kateřina Tajovská, Ph.D. (seminar tutor)
Mgr. Jan Holub (assistant)

Guaranteed by

Ing. Kateřina Tajovská, Ph.D.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: Ing. Kateřina Tajovská, Ph.D.
Supplier department: Department of Geography – Earth Sciences Section – Faculty of Science

Timetable

Wed 11:00–11:50 Z3,02045

• Timetable of Seminar Groups:

Z8101/01: Wed 12:00–12:50 Z1,01001b, K. Tajovská

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

The capacity limit for the course is 12 student(s).
Current registration and enrolment status: enrolled: 0/12, only registered: 0/12

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)
• Cartography and geoinformatics (programme PřF, N-GKG)

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Learning outcomes

Student will be able to:
- to focus on the basic principles of aerial and terrestrial photogrammety
- Ability to use specialized software for photogrammetry
- to design and implement an airborn project in the selected area
- Process and create orthophotomap, digital terrain model
- Have a basic overview of the available technologies in terrestrial, aerial and mobile laser scanning
- find available data sources for photogrammetry

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry
• 2. Optical and photographic basis, interpretation of photographs
• 3. Aerial imaging (airplanes, cameras, films, digital photography, GPS support)Main kinds of photographs and their elements.
• 4. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry.
• 5. Single image methods, relief displacement, stereophotogrammetry, principle of stereo plotting device, relative and absolute orientation.
• 6. Aerotriangulation, bundle adjustment, ground control points
• 7. Digital photogrammetry, attributes of digital image,Image transformation, geometric correction
• 8. Orthophoto and digital terrain model (DTM), generation, DEM and DTM.
• 9. UAV photogrammetry, software, close-range photogrammetry
• 10. Terrestrial and airborne laser scanning (LIDAR)
• 11. Mobile laser scanning
• 12. Satellite photogrammetry, new data sources for digital photogrammetry.
• 13. Digital photogrammetry workstation, HW and SW tools.

Literature

• LINDER, Wilfried. Digital photogrammetry : a practical course. 2nd ed. Berlin: Springer, 2006, xiii, 214. ISBN 3540291520. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 6th ed. New York: John Wiley & Sons, 2008, xii, 756. ISBN 9780470052457. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• ABER, James S., Irene MARZOLFF and Johannes B. RIES. Small-format aerial photography : principles, techniques and geoscience applications. First edition 2010. Oxford, UK: Elsevier, 2010, xi, 266. ISBN 9780444532602. info
• Airborne and terrestrial laser scanning. Edited by George Vosselman - Hans-Gerd Maas. Boca Raton, Fla.: CRC Press, 2010, xvii, 318. ISBN 9781849950138. info
• Close-range photogrammetry and 3D imaging. Edited by Thomas Luhmann - Stuart Robson - Stephen Kyle - Jan Böhm. 2nd edition. Boston: De Gruyter, 2014, xviii, 684. ISBN 9783110302691. info
• Close range photogrammetry :principles, techniques and applications. Edited by T. Luhmann. 1 online r. ISBN 9781904445999. info
• HODAČ, Jindřich. Pozemní fotogrammetrie. Vyd. 1. Ústí nad Labem: Centrum pro dokumentaci a digitalizaci kulturního dědictví, Filozofická fakulta Univerzity J.E. Purkyně v Ústí nad Labem, 2011, 85 s. ISBN 9788074143434. info
• PAVELKA, Karel. Fotogrammetrie 1: digitální metody. CERM, 2009, 200 pp. ISBN 978-80-01-04249-6. info

Teaching methods

Lectures explaining basic terms of analogue, analytical and digital photogrammetry. In practical excercises basic examples of analysis are presented step by step. Practical training is based on 2-3 exercises that are solved using special software tools for aerial and satellite imagery (PCI ORTHOENGINE). Correctness and quality of practical excercises is evaluated and info is provided to students as a feedback. Autumn 2020 online lecture https://meet.google.com/kzj-rmkm-vza Exercises in person

Assessment methods

The exam has the form of a written test on theory of analogue, analytical and digital photogrammetry. Elaboration of all practical excercises and successul practical test at the end of the term are two necessary conditions for passing the exam. Practical test with the use of computer.

Language of instruction

Czech

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.

Teacher's information

The course ends with an exam, the student will gain an overview of the methods of analog, analytical and digital photogrammetry. The mathematical apparatus is used to understand the essence of the methods, for their clarity are used procedures of analog and analytical photogrammetry. The student will gain practical experience in creating a digital terrain model and creating orthophoto in the ORTHOENGINE environment and basic knowledge of laser data processing.

Z8101 Photogrammetry

Extent and Intensity

1/1. 4 credit(s). Type of Completion: zk (examination).

Teacher(s)

Ing. Kateřina Tajovská, Ph.D. (lecturer)

Guaranteed by

Ing. Kateřina Tajovská, Ph.D.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: Ing. Kateřina Tajovská, Ph.D.
Supplier department: Department of Geography – Earth Sciences Section – Faculty of Science

Timetable

Wed 9:00–9:50 Z2,01032

• Timetable of Seminar Groups:

Z8101/01: Wed 10:00–10:50 Z7,02017a, K. Tajovská

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

The capacity limit for the course is 12 student(s).
Current registration and enrolment status: enrolled: 0/12, only registered: 0/12

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)
• Cartography and geoinformatics (programme PřF, N-GKG)

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Learning outcomes

Student will be able to:
- to focus on the basic principles of aerial and terrestrial photogrammety
- Ability to use specialized software for photogrammetry
- to design and implement an airborn project in the selected area
- Process and create orthophotomap, digital terrain model
- Have a basic overview of the available technologies in terrestrial, aerial and mobile laser scanning
- find available data sources for photogrammetry

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry
• 2. Optical and photographic basis, interpretation of photographs
• 3. Aerial imaging (airplanes, cameras, films, digital photography, GPS support)Main kinds of photographs and their elements.
• 4. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry.
• 5. Single image methods, relief displacement, stereophotogrammetry, principle of stereo plotting device, relative and absolute orientation.
• 6. Aerotriangulation, bundle adjustment, ground control points
• 7. Digital photogrammetry, attributes of digital image,Image transformation, geometric correction
• 8. Orthophoto and digital terrain model (DTM), generation, DEM and DTM.
• 9. UAV photogrammetry, software, close-range photogrammetry
• 10. Terrestrial and airborne laser scanning (LIDAR)
• 11. Mobile laser scanning
• 12. Satellite photogrammetry, new data sources for digital photogrammetry.
• 13. Digital photogrammetry workstation, HW and SW tools.

Literature

• LINDER, Wilfried. Digital photogrammetry : a practical course. 2nd ed. Berlin: Springer, 2006, xiii, 214. ISBN 3540291520. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 6th ed. New York: John Wiley & Sons, 2008, xii, 756. ISBN 9780470052457. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• ABER, James S., Irene MARZOLFF and Johannes B. RIES. Small-format aerial photography : principles, techniques and geoscience applications. First edition 2010. Oxford, UK: Elsevier, 2010, xi, 266. ISBN 9780444532602. info
• Airborne and terrestrial laser scanning. Edited by George Vosselman - Hans-Gerd Maas. Boca Raton, Fla.: CRC Press, 2010, xvii, 318. ISBN 9781849950138. info
• Close-range photogrammetry and 3D imaging. Edited by Thomas Luhmann - Stuart Robson - Stephen Kyle - Jan Böhm. 2nd edition. Boston: De Gruyter, 2014, xviii, 684. ISBN 9783110302691. info
• Close range photogrammetry :principles, techniques and applications. Edited by T. Luhmann. 1 online r. ISBN 9781904445999. info
• HODAČ, Jindřich. Pozemní fotogrammetrie. Vyd. 1. Ústí nad Labem: Centrum pro dokumentaci a digitalizaci kulturního dědictví, Filozofická fakulta Univerzity J.E. Purkyně v Ústí nad Labem, 2011, 85 s. ISBN 9788074143434. info
• PAVELKA, Karel. Fotogrammetrie 1: digitální metody. CERM, 2009, 200 pp. ISBN 978-80-01-04249-6. info

Teaching methods

Lectures explaining basic terms of analogue, analytical and digital photogrammetry. In practical excercises basic examples of analysis are presented step by step. Practical training is based on 2-3 exercises that are solved using special software tools for aerial and satellite imagery (PCI ORTHOENGINE). Correctness and quality of practical excercises is evaluated and info is provided to students as a feedback.

Assessment methods

The exam has the form of a written test on theory of analogue, analytical and digital photogrammetry. Elaboration of all practical excercises and successul practical test at the end of the term are two necessary conditions for passing the exam. Practical test with the use of computer.

Language of instruction

Czech

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.

Z8101 Photogrammetry

Extent and Intensity

1/1. 4 credit(s). Type of Completion: zk (examination).

Teacher(s)

Ing. Kateřina Tajovská, Ph.D. (lecturer)

Guaranteed by

prof. RNDr. Rudolf Brázdil, DrSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: Ing. Kateřina Tajovská, Ph.D.
Supplier department: Department of Geography – Earth Sciences Section – Faculty of Science

Timetable

Mon 17. 9. to Fri 14. 12. Tue 10:00–10:50 Z3,02045

• Timetable of Seminar Groups:

Z8101/01: Mon 17. 9. to Fri 14. 12. Tue 11:00–11:50 Z7,02017a, K. Tajovská

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

The capacity limit for the course is 15 student(s).
Current registration and enrolment status: enrolled: 0/15, only registered: 0/15

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Learning outcomes

Student will be able to:
- to focus on the basic principles of aerial and terrestrial photogrammety
- Ability to use specialized software for photogrammetry
- to design and implement an airborn project in the selected area
- Process and create orthophotomap, digital terrain model
- Have a basic overview of the available technologies in terrestrial, aerial and mobile laser scanning
- find available data sources for photogrammetry

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry
• 2. Optical and photographic basis, interpretation of photographs
• 3. Aerial imaging (airplanes, cameras, films, digital photography, GPS support)Main kinds of photographs and their elements.
• 4. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry.
• 5. Single image methods, relief displacement, stereophotogrammetry, principle of stereo plotting device, relative and absolute orientation.
• 6. Aerotriangulation, bundle adjustment, ground control points
• 7. Digital photogrammetry, attributes of digital image,Image transformation, geometric correction
• 8. Orthophoto and digital terrain model (DTM), generation, DEM and DTM.
• 9. UAV photogrammetry, software, close-range photogrammetry
• 10. Terrestrial and airborne laser scanning (LIDAR)
• 11. Mobile laser scanning
• 12. Satellite photogrammetry, new data sources for digital photogrammetry.
• 13. Digital photogrammetry workstation, HW and SW tools.

Literature

• LINDER, Wilfried. Digital photogrammetry : a practical course. 2nd ed. Berlin: Springer, 2006, xiii, 214. ISBN 3540291520. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 6th ed. New York: John Wiley & Sons, 2008, xii, 756. ISBN 9780470052457. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• ABER, James S., Irene MARZOLFF and Johannes B. RIES. Small-format aerial photography : principles, techniques and geoscience applications. First edition 2010. Oxford, UK: Elsevier, 2010, xi, 266. ISBN 9780444532602. info
• Airborne and terrestrial laser scanning. Edited by George Vosselman - Hans-Gerd Maas. Boca Raton, Fla.: CRC Press, 2010, xvii, 318. ISBN 9781849950138. info
• Close-range photogrammetry and 3D imaging. Edited by Thomas Luhmann - Stuart Robson - Stephen Kyle - Jan Böhm. 2nd edition. Boston: De Gruyter, 2014, xviii, 684. ISBN 9783110302691. info
• Close range photogrammetry :principles, techniques and applications. Edited by T. Luhmann. 1 online r. ISBN 9781904445999. info
• HODAČ, Jindřich. Pozemní fotogrammetrie. Vyd. 1. Ústí nad Labem: Centrum pro dokumentaci a digitalizaci kulturního dědictví, Filozofická fakulta Univerzity J.E. Purkyně v Ústí nad Labem, 2011, 85 s. ISBN 9788074143434. info

Teaching methods

Lectures explaining basic terms of analogue, analytical and digital photogrammetry. In practical excercises basic examples of analysis are presented step by step. Practical training is based on 2-3 exercises that are solved using special software tools for aerial and satellite imagery (PCI ORTHOENGINE). Correctness and quality of practical excercises is evaluated and info is provided to students as a feedback.

Assessment methods

The exam has the form of a written test on theory of analogue, analytical and digital photogrammetry. Elaboration of all practical excercises and successul practical test at the end of the term are two necessary conditions for passing the exam. Practical test with the use of computer.

Language of instruction

Czech

Further comments (probably available only in Czech)

The course is taught annually.

Z8101 Photogrammetry

Extent and Intensity

1/1. 4 credit(s). Type of Completion: zk (examination).

Teacher(s)

Ing. Kateřina Tajovská, Ph.D. (lecturer)

Guaranteed by

prof. RNDr. Rudolf Brázdil, DrSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: Ing. Kateřina Tajovská, Ph.D.
Supplier department: Department of Geography – Earth Sciences Section – Faculty of Science

Timetable

Mon 18. 9. to Fri 15. 12. Tue 13:00–13:50 Z7,02017a

• Timetable of Seminar Groups:

Z8101/01: Mon 18. 9. to Fri 15. 12. Tue 14:00–14:50 Z7,02017a, K. Tajovská

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

The capacity limit for the course is 20 student(s).
Current registration and enrolment status: enrolled: 0/20, only registered: 0/20

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Learning outcomes

Student will be able to:
- to focus on the basic principles of aerial and terrestrial photogrammety
- Ability to use specialized software for photogrammetry
- to design and implement an airborn project in the selected area
- Process and create orthophotomap, digital terrain model
- Have a basic overview of the available technologies in terrestrial, aerial and mobile laser scanning
- find available data sources for photogrammetry

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry
• 2. Optical and photographic basis, interpretation of photographs
• 3. Aerial imaging (airplanes, cameras, films, digital photography, GPS support)Main kinds of photographs and their elements.
• 4. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry.
• 5. Single image methods, relief displacement, stereophotogrammetry, principle of stereo plotting device, relative and absolute orientation.
• 6. Aerotriangulation, bundle adjustment, ground control points
• 7. Digital photogrammetry, attributes of digital image,Image transformation, geometric correction
• 8. Orthophoto and digital terrain model (DTM), generation, DEM and DTM.
• 9. UAV photogrammetry, software, close-range photogrammetry
• 10. Terrestrial and airborne laser scanning (LIDAR)
• 11. Mobile laser scanning
• 12. Satellite photogrammetry, new data sources for digital photogrammetry.
• 13. Digital photogrammetry workstation, HW and SW tools.

Literature

• LINDER, Wilfried. Digital photogrammetry : a practical course. 2nd ed. Berlin: Springer, 2006, xiii, 214. ISBN 3540291520. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 6th ed. New York: John Wiley & Sons, 2008, xii, 756. ISBN 9780470052457. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• ABER, James S., Irene MARZOLFF and Johannes B. RIES. Small-format aerial photography : principles, techniques and geoscience applications. First edition 2010. Oxford, UK: Elsevier, 2010, xi, 266. ISBN 9780444532602. info
• Airborne and terrestrial laser scanning. Edited by George Vosselman - Hans-Gerd Maas. Boca Raton, Fla.: CRC Press, 2010, xvii, 318. ISBN 9781849950138. info
• Close-range photogrammetry and 3D imaging. Edited by Thomas Luhmann - Stuart Robson - Stephen Kyle - Jan Böhm. 2nd edition. Boston: De Gruyter, 2014, xviii, 684. ISBN 9783110302691. info
• Close range photogrammetry :principles, techniques and applications. Edited by T. Luhmann. 1 online r. ISBN 9781904445999. info
• HODAČ, Jindřich. Pozemní fotogrammetrie. Vyd. 1. Ústí nad Labem: Centrum pro dokumentaci a digitalizaci kulturního dědictví, Filozofická fakulta Univerzity J.E. Purkyně v Ústí nad Labem, 2011, 85 s. ISBN 9788074143434. info

Teaching methods

Lectures explaining basic terms of analogue, analytical and digital photogrammetry. In practical excercises basic examples of analysis are presented step by step. Practical training is based on 2-3 exercises that are solved using special software tools for aerial and satellite imagery (PCI ORTHOENGINE). Correctness and quality of practical excercises is evaluated and info is provided to students as a feedback.

Assessment methods

The exam has the form of a written test on theory of analogue, analytical and digital photogrammetry. Elaboration of all practical excercises and successul practical test at the end of the term are two necessary conditions for passing the exam. Practical test with the use of computer.

Language of instruction

Czech

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.

Z8101 Photogrammetry

Extent and Intensity

1/1. 4 credit(s). Type of Completion: zk (examination).

Teacher(s)

Ing. Kateřina Tajovská, Ph.D. (lecturer)

Guaranteed by

prof. RNDr. Rudolf Brázdil, DrSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.
Supplier department: Department of Geography – Earth Sciences Section – Faculty of Science

Timetable

Mon 19. 9. to Sun 18. 12. Tue 11:00–11:50 Z7,02017a

• Timetable of Seminar Groups:

Z8101/01: Mon 19. 9. to Sun 18. 12. Tue 12:00–12:50 Z7,02017a, K. Tajovská

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

The capacity limit for the course is 20 student(s).
Current registration and enrolment status: enrolled: 0/20, only registered: 0/20

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry
• 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support)
• 3. Main kinds of photographs and their elements.
• 4. Optical and photographic basis, interpretation of photographs
• 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry.
• 6. Single image methods, relief displacement.
• 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain.
• 8. Principle of stereo plotting device, relative and absolute orientation
• 9. Digital photogrammetry, attributes of digital image
• 10. Image transformation, geometric correction
• 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM.
• 12. Digital photogrammetry workstation, HW and SW tools.
• 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 5th ed. Hoboken, N.J.: John Wiley & Sons, 2004, xiv, 763. ISBN 0471152277. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Teaching methods

Lectures explaining basic terms of analogue, analytical and digital photogrammetry. In practical excercises basic examples of analysis are presented step by step. Practical training is based on 2-3 exercises that are solved using special software tools for aerial and satellite imagery (PCI ORTHOENGINE). Correctness and quality of practical excercises is evaluated and info is provided to students as a feedback.

Assessment methods

The exam has the form of a written test on theory of analogue, analytical and digital photogrammetry. Elaboration of all practical excercises and successul practical test at the end of the term are two necessary conditions for passing the exam. Practical test with the use of computer.

Language of instruction

Czech

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.

Z8101 Photogrammetry

Extent and Intensity

1/1. 2 credit(s) (plus extra credits for completion). Type of Completion: zk (examination).

Teacher(s)

Ing. Kateřina Tajovská, Ph.D. (lecturer)

Guaranteed by

prof. RNDr. Rudolf Brázdil, DrSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.
Supplier department: Department of Geography – Earth Sciences Section – Faculty of Science

Timetable

Wed 11:00–11:50 Z2,01032

• Timetable of Seminar Groups:

Z8101/01: Wed 12:00–12:50 Z1,01001b, K. Tajovská

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

The capacity limit for the course is 20 student(s).
Current registration and enrolment status: enrolled: 0/20, only registered: 0/20

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry
• 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support)
• 3. Main kinds of photographs and their elements.
• 4. Optical and photographic basis, interpretation of photographs
• 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry.
• 6. Single image methods, relief displacement.
• 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain.
• 8. Principle of stereo plotting device, relative and absolute orientation
• 9. Digital photogrammetry, attributes of digital image
• 10. Image transformation, geometric correction
• 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM.
• 12. Digital photogrammetry workstation, HW and SW tools.
• 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 5th ed. Hoboken, N.J.: John Wiley & Sons, 2004, xiv, 763. ISBN 0471152277. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Teaching methods

Lectures explaining basic terms of analogue, analytical and digital photogrammetry. In practical excercises basic examples of analysis are presented step by step. Practical training is based on 2-3 exercises that are solved using special software tools for aerial and satellite imagery (PCI ORTHOENGINE). Correctness and quality of practical excercises is evaluated and info is provided to students as a feedback.

Assessment methods

The exam has the form of a written test on theory of analogue, analytical and digital photogrammetry. Elaboration of all practical excercises and successul practical test at the end of the term are two necessary conditions for passing the exam. Practical test with the use of computer.

Language of instruction

Czech

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.

Z8101 Photogrammetry

Extent and Intensity

1/1. 2 credit(s) (plus extra credits for completion). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)
Ing. Kateřina Tajovská, Ph.D. (lecturer)

Guaranteed by

prof. RNDr. Rudolf Brázdil, DrSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.
Supplier department: Department of Geography – Earth Sciences Section – Faculty of Science

Timetable

Tue 9:00–9:50 Z4,02028

• Timetable of Seminar Groups:

Z8101/01: Tue 14:00–14:50 Z1,01001b, K. Tajovská

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

The capacity limit for the course is 20 student(s).
Current registration and enrolment status: enrolled: 0/20, only registered: 0/20

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry
• 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support)
• 3. Main kinds of photographs and their elements.
• 4. Optical and photographic basis, interpretation of photographs
• 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry.
• 6. Single image methods, relief displacement.
• 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain.
• 8. Principle of stereo plotting device, relative and absolute orientation
• 9. Digital photogrammetry, attributes of digital image
• 10. Image transformation, geometric correction
• 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM.
• 12. Digital photogrammetry workstation, HW and SW tools.
• 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 5th ed. Hoboken, N.J.: John Wiley & Sons, 2004, xiv, 763. ISBN 0471152277. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Teaching methods

Lectures explaining basic terms of analogue, analytical and digital photogrammetry. In practical excercises basic examples of analysis are presented step by step. Practical training is based on 11 exercises that are solved using special software tools for aerial and satellite imagery (PCI ORTHOENGINE). Correctness and quality of practical excercises is evaluated and info is provided to students as a feedback.

Assessment methods

The exam has the form of a written test on theory of analogue, analytical and digital photogrammetry. Elaboration of all practical excercises and successul practical test at the end of the term are two necessary conditions for passing the exam. Practical test with the use of computer.

Language of instruction

Czech

Further comments (probably available only in Czech)

Study Materials
The course is taught once in two years.

Z8101 Photogrammetry

Extent and Intensity

1/1. 2 credit(s) (plus extra credits for completion). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)
Mgr. Jan Geletič, Ph.D. (seminar tutor)
Ing. Kateřina Tajovská, Ph.D. (assistant)

Guaranteed by

prof. RNDr. Rudolf Brázdil, DrSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.
Supplier department: Department of Geography – Earth Sciences Section – Faculty of Science

Timetable

Tue 10:00–10:50 Z3,02045

• Timetable of Seminar Groups:

Z8101/01: Tue 19:00–19:50 Z1,01001b, J. Geletič
Z8101/02: Wed 19:00–19:50 Z1,01001b, J. Geletič

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

The capacity limit for the course is 38 student(s).
Current registration and enrolment status: enrolled: 0/38, only registered: 0/38

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry
• 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support)
• 3. Main kinds of photographs and their elements.
• 4. Optical and photographic basis, interpretation of photographs
• 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry.
• 6. Single image methods, relief displacement.
• 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain.
• 8. Principle of stereo plotting device, relative and absolute orientation
• 9. Digital photogrammetry, attributes of digital image
• 10. Image transformation, geometric correction
• 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM.
• 12. Digital photogrammetry workstation, HW and SW tools.
• 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 5th ed. Hoboken, N.J.: John Wiley & Sons, 2004, xiv, 763. ISBN 0471152277. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Teaching methods

Lectures explaining basic terms of analogue, analytical and digital photogrammetry. In practical excercises basic examples of analysis are presented step by step. Practical training is based on 11 exercises that are solved using special software tools for aerial and satellite imagery (PCI ORTHOENGINE). Correctness and quality of practical excercises is evaluated and info is provided to students as a feedback.

Assessment methods

The exam has the form of a written test on theory of analogue, analytical and digital photogrammetry. Elaboration of all practical excercises and successul practical test at the end of the term are two necessary conditions for passing the exam. Practical test with the use of computer.

Language of instruction

Czech

Further comments (probably available only in Czech)

Study Materials
The course is taught once in two years.

Z8101 Photogrammetry

Extent and Intensity

1/1. 2 credit(s) (plus extra credits for completion). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)
Mgr. Andrea Kýnová (seminar tutor)

Guaranteed by

prof. RNDr. Rudolf Brázdil, DrSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.

Timetable

Tue 10:00–10:50 Z4,02028

• Timetable of Seminar Groups:

Z8101/01: Wed 9:00–9:50 Z1,01001b, A. Kýnová
Z8101/02: Wed 15:00–15:50 Z1,01001b, A. Kýnová

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

The capacity limit for the course is 34 student(s).
Current registration and enrolment status: enrolled: 0/34, only registered: 0/34

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Main objectives is to learn basic principles of photogrammetry with the focus on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation). At the end of this course, students should be able to prerare their own products of digital photogrammetry - especially orthopohoto and digital tewrrain mofdel generated from two overlaping images. Program Orthonengine (PCI Geomatica) is utilized during practical exercises. Students would be able to explain when to apply individual image processing methods and make reasoned decisions about preconditions that are necessary for proper utilization of photogrammetric methods in question. He/she would be able to work with information on data preparation, make deductions based on acquired knowledge and properly interpret and evaluate results.

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support) 3. Main kinds of photographs and their elements. 4. Optical and photographic basis, interpretation of photographs 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry. 6. Single image methods, relief displacement. 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain. 8. Principle of stereo plotting device, relative and absolute orientation 9. Digital photogrammetry, attributes of digital image 10. Image transformation, geometric correction, 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM. 12. Digital photogrammetry workstation, HW and SW tools. 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 5th ed. Hoboken, N.J.: John Wiley & Sons, 2004, xiv, 763. ISBN 0471152277. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Teaching methods

Lectures explaining basic terms of analytical and digital photogrammetry and presenting individual examples step by step. Practical training based on exercises that are solved using single photo and stere photogrammetry software.

Assessment methods

An exam has the form of written test on theory of photogrammetry. Elaboration of all practical excercises and successul pass the practical test at the end of the term are two necessary conditons to advance to the main theoretical examination. Practical test with the use of computer.

Language of instruction

Czech

Further comments (probably available only in Czech)

Study Materials
The course is taught once in two years.

Z8101 Photogrammetry

Extent and Intensity

1/1. 2 credit(s) (plus extra credits for completion). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)
Mgr. Jan Štrof (seminar tutor)

Guaranteed by

prof. RNDr. Rudolf Brázdil, DrSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.

Timetable

Thu 9:00–9:50 Z1,01001b

• Timetable of Seminar Groups:

Z8101/01: Thu 19:00–19:50 Z1,01001b, J. Štrof

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

The capacity limit for the course is 26 student(s).
Current registration and enrolment status: enrolled: 0/26, only registered: 0/26

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Main objectives is to learn basic principles of photogrammetry with the focus on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation). At the end of this course, students should be able to prerare their own products of digital photogrammetry - especially orthopohoto and digital tewrrain mofdel generated from two overlaping images. Program Orthonengine (PCI Geomatica) is utilized during practical exercises. Students would be able to explain when to apply individual image processing methods and make reasoned decisions about preconditions that are necessary for proper utilization of photogrammetric methods in question. He/she would be able to work with information on data preparation, make deductions based on acquired knowledge and properly interpret and evaluate results.

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support) 3. Main kinds of photographs and their elements. 4. Optical and photographic basis, interpretation of photographs 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry. 6. Single image methods, relief displacement. 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain. 8. Principle of stereo plotting device, relative and absolute orientation 9. Digital photogrammetry, attributes of digital image 10. Image transformation, geometric correction, 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM. 12. Digital photogrammetry workstation, HW and SW tools. 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 5th ed. Hoboken, N.J.: John Wiley & Sons, 2004, xiv, 763. ISBN 0471152277. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Teaching methods

Lectures explaining basic terms of analytical and digital photogrammetry and presenting individual examples step by step. Practical training based on exercises that are solved using single photo and stere photogrammetry software.

Assessment methods

An exam has the form of written test on theory of photogrammetry. Elaboration of all practical excercises and successul pass the practical test at the end of the term are two necessary conditons to advance to the main theoretical examination. Practical test with the use of computer.

Language of instruction

Czech

Further comments (probably available only in Czech)

Study Materials
The course is taught once in two years.

Z8101 Photogrammetry

Extent and Intensity

1/1. 2 credit(s) (plus extra credits for completion). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)

Guaranteed by

prof. RNDr. Rudolf Brázdil, DrSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

The capacity limit for the course is 19 student(s).
Current registration and enrolment status: enrolled: 0/19, only registered: 0/19

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Main objectives is to learn basic principles of photogrammetry with the focus on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation). At the end of this course, students should be able to prerare their own products of digital photogrammetry - especially orthopohoto and digital tewrrain mofdel generated from two overlaping images. Program Orthonengine (PCI Geomatica) is utilized during practical exercises.

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support) 3. Main kinds of photographs and their elements. 4. Optical and photographic basis, interpretation of photographs 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry. 6. Single image methods, relief displacement. 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain. 8. Principle of stereo plotting device, relative and absolute orientation 9. Digital photogrammetry, attributes of digital image 10. Image transformation, geometric correction, 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM. 12. Digital photogrammetry workstation, HW and SW tools. 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 5th ed. Hoboken, N.J.: John Wiley & Sons, 2004, xiv, 763. ISBN 0471152277. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Assessment methods

An exam has the form of written test on theory of photogrammetry. Elaboration of all practical excercises and successul pass the practical test at the end of the term are two necessary conditons to advance to the main theoretical examination. Practical test with the use of computer.

Language of instruction

Czech

Further comments (probably available only in Czech)

The course is taught once in two years.
The course is taught: every week.

Z8101 Photogrammetry

Extent and Intensity

1/1. 2 credit(s) (plus extra credits for completion). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)
Mgr. Kateřina Fárová (seminar tutor)

Guaranteed by

RNDr. Vladimír Herber, CSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.

Timetable

Tue 14:00–14:50 Z4,02028

• Timetable of Seminar Groups:

Z8101/01: Tue 12:00–12:50 Z1,01001b

Prerequisites (in Czech)

Z0062 Cartography and topography || PROGRAM(N-GK)

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

The capacity limit for the course is 19 student(s).
Current registration and enrolment status: enrolled: 0/19, only registered: 0/19

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support) 3. Main kinds of photographs and their elements. 4. Optical and photographic basis, interpretation of photographs 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry. 6. Single image methods, relief displacement. 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain. 8. Principle of stereo plotting device, relative and absolute orientation 9. Digital photogrammetry, attributes of digital image 10. Image transformation, geometric correction, 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM. 12. Digital photogrammetry workstation, HW and SW tools. 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 5th ed. Hoboken, N.J.: John Wiley & Sons, 2004, xiv, 763. ISBN 0471152277. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Language of instruction

Czech

Further comments (probably available only in Czech)

Study Materials
The course is taught once in two years.

Z8101 Photogrammetry

Extent and Intensity

1/1. 4 credit(s). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)
Mgr. Kateřina Fárová (seminar tutor)

Guaranteed by

RNDr. Vladimír Herber, CSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.

Timetable

Tue 13:00–13:50 Z2

• Timetable of Seminar Groups:

Z8101/01: Wed 10:00–10:50 Z1, K. Fárová

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

fields of study / plans the course is directly associated with

there are 11 fields of study the course is directly associated with, display

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support) 3. Main kinds of photographs and their elements. 4. Optical and photographic basis, interpretation of photographs 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry. 6. Single image methods, relief displacement. 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain. 8. Principle of stereo plotting device, relative and absolute orientation 9. Digital photogrammetry, attributes of digital image 10. Image transformation, geometric correction, 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM. 12. Digital photogrammetry workstation, HW and SW tools. 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Language of instruction

Czech

Further comments (probably available only in Czech)

Study Materials
Information on course enrolment limitations: 15

Z8101 Photogrammetry

Extent and Intensity

1/1. 4 credit(s). Recommended Type of Completion: zk (examination). Other types of completion: k (colloquium).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)
Mgr. Kateřina Fárová (seminar tutor)

Guaranteed by

RNDr. Vladimír Herber, CSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.

Timetable

Mon 12:00–12:50 Z2

• Timetable of Seminar Groups:

Z8101/01: Mon 18:00–18:50 Z1, K. Fárová

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

The capacity limit for the course is 20 student(s).
Current registration and enrolment status: enrolled: 0/20, only registered: 0/20

fields of study / plans the course is directly associated with

there are 11 fields of study the course is directly associated with, display

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support) 3. Main kinds of photographs and their elements. 4. Optical and photographic basis, interpretation of photographs 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry. 6. Single image methods, relief displacement. 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain. 8. Principle of stereo plotting device, relative and absolute orientation 9. Digital photogrammetry, attributes of digital image 10. Image transformation, geometric correction, 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM. 12. Digital photogrammetry workstation, HW and SW tools. 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Language of instruction

Czech

Further comments (probably available only in Czech)

Study Materials

Z8101 Photogrammetry

Extent and Intensity

1/1. 3 credit(s). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)

Guaranteed by

RNDr. Vladimír Herber, CSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.

Timetable of Seminar Groups

Z8101/01: No timetable has been entered into IS. P. Dobrovolný
Z8101/02: No timetable has been entered into IS. P. Dobrovolný

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

• Geography and Cartography (programme PřF, M-GR, specialization Cartography and Geoinformatics)

Course objectives (in Czech)

Cílem je seznámit studenty se základními principy fotogrammetrického zpracování dat s důrazem na digitální fotogrammetrii. Jsou podány základní informace o metodách leteckého snímkování, dále matematické základy jednosnímkových metod a principy stereofotogrammetrie. Je věnována pozornost jednotlivým etapám procesu tvorby digitálních fotogrammetrických produktů, fotogrammetrickému sběru dat, generování DTM, tvorbě ortofoto.

Syllabus (in Czech)

• 1.Základní pojmy a definice, historický přehled, rozdělení metod fotogrammetrie 2.Letecké snímkování a snímkový let (letadla, kamery, druhy filmů, digitální fotografie, GPS podpora ve fotogrammetrii) 3.Základní druhy snímků, LMS a jejich součásti 4.Optické a fotografické základy, filmy a jejich složení, filtry, interpretační postupy a interpretační znaky 5.Matematické základy fotogrammetrie, projektivní geometrie, souřadné soustavy, vlivy působící na geometrii LMS 6.Jednosnímkové metody - určování horizontálních vzdáleností a úhlů měřením na LMS, určování výšky objektů z relativní změny objektů v důsledku jejich nestejné nadmořské výšky (relief displacement) 7.Stereoskopie, princip stereovidění, stereovjem a způsoby jeho vytváření, stereoskopická dvojice snímků, princip paralaxy, zjišťování výšky objektů a výšky terénu z měření obrazové paralaxy 8.Tvorba map na stereoplotteru, vnitřní a vnější (absolutní a relativní) orientace stereodvojice, 9.Digitální fotogrammetrie, digitální obraz, jeho vznik a vlastnosti, skenování analogových snímků 10.Transformace obrazu, geometrická korekce snímků, korelační techniky, epipolární projekce, mozaikování, fotogrammetrické zpracování družicových obrazových dat 11.Tvorba digitálního ortofoto a generování DTM, sestavování ortofotomapy, 12.Digitální fotogrammetrická stanice - hardwarové a softwarové nástroje, příklady konkrétních řešení 13.Tvorba a obnova topografických map v bývalém Československu a v České republice, produkty digitální fotogrammetrie, aplikace metod fotogrammetrie

Language of instruction

Czech

Z8101 Photogrammetry

Extent and Intensity

2/1. 3 credit(s) (plus extra credits for completion). Recommended Type of Completion: zk (examination). Other types of completion: k (colloquium).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)

Guaranteed by

prof. RNDr. Milan Konečný, CSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.

Prerequisites (in Czech)

Z1004 Geographical project 2

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

• Geography and Cartography (programme PřF, M-GR, specialization Cartography and Geoinformatics)

Syllabus (in Czech)

• 1. Základní pojmy a definice, historický prehled, rozdelení metod fotogrammetrie 2. Letecké snímkování a snímkový let (letadla, kamery, druhy filmu, digitální fotografie, GPS podpora ve fotogrammetrii) 3. Základní druhy snímku, LMS a jejich soucásti 4. Optické a fotografické základy, filmy a jejich složení, filtry, interpretacní postupy a interpretacní znaky 5. Matematické základy fotogrammetrie, projektivní geometrie, souradné soustavy, vlivy pusobící na geometrii LMS 6. Jednosnímkové metody - urcování horizontálních vzdáleností a úhlu merením na LMS, urcování výšky objektu z relief displacement 7. Stereoskopie, princip stereovidení, stereovjem a zpusoby jeho vytvárení, stereoskopická dvojice snímku, princip paralxy, zjištování výšky objektu a výšky terénu z merení obrazové paralaxy 8. Tvorba map na stereoplotteru, vnitrní a vnejší (absolutní a relativní) orientace stereodvojice, 9. Digitální fotogrammetrie, digitální obraz, jeho vznik a vlastnosti, skenování analogových snímku 10. Transformace obrazu, geometrická korekce snímku, korelacní techniky, epipolární projekce, mozaikování, fotogrammetrické zpracování družicových obrazových dat 11. Tvorba digitálního ortofoto a generování DTM, sestavování ortofotomapy, 12. Digitální fotogrammetrická stanice - hardwarové a softwarové nástroje, príklady konkrétních rešení 13. Tvorba a obnova topografických map v bývalém Ceskoslovensku a v Ceské republice, produkty digitální fotogrammetrie, aplikace metod fotogrammetrie

Literature

• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Language of instruction

Czech

Further comments (probably available only in Czech)

The course is taught: every week.
Information on course enrolment limitations: 15

Z8101 Photogrammetry

The course is not taught in Spring 2016

Extent and Intensity

1/1. 2 credit(s) (plus extra credits for completion). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)

Guaranteed by

prof. RNDr. Rudolf Brázdil, DrSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.
Supplier department: Department of Geography – Earth Sciences Section – Faculty of Science

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support) 3. Main kinds of photographs and their elements. 4. Optical and photographic basis, interpretation of photographs 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry. 6. Single image methods, relief displacement. 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain. 8. Principle of stereo plotting device, relative and absolute orientation 9. Digital photogrammetry, attributes of digital image 10. Image transformation, geometric correction, 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM. 12. Digital photogrammetry workstation, HW and SW tools. 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 5th ed. Hoboken, N.J.: John Wiley & Sons, 2004, xiv, 763. ISBN 0471152277. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Teaching methods

Lectures completed with practical exercises and lectures of professionals from IT firms.

Assessment methods

Evaluation of practical excercises (50%) and final written test (50%).

Language of instruction

Czech

Further comments (probably available only in Czech)

The course is taught once in two years.
The course is taught: every week.
Information on course enrolment limitations: 15

Z8101 Photogrammetry

The course is not taught in Spring 2015

Extent and Intensity

1/1. 2 credit(s) (plus extra credits for completion). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)

Guaranteed by

prof. RNDr. Rudolf Brázdil, DrSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.
Supplier department: Department of Geography – Earth Sciences Section – Faculty of Science

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support) 3. Main kinds of photographs and their elements. 4. Optical and photographic basis, interpretation of photographs 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry. 6. Single image methods, relief displacement. 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain. 8. Principle of stereo plotting device, relative and absolute orientation 9. Digital photogrammetry, attributes of digital image 10. Image transformation, geometric correction, 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM. 12. Digital photogrammetry workstation, HW and SW tools. 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 5th ed. Hoboken, N.J.: John Wiley & Sons, 2004, xiv, 763. ISBN 0471152277. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Language of instruction

Czech

Further comments (probably available only in Czech)

The course is taught once in two years.
The course is taught: every week.
Information on course enrolment limitations: 15

Z8101 Photogrammetry

The course is not taught in Spring 2014

Extent and Intensity

1/1. 2 credit(s) (plus extra credits for completion). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)

Guaranteed by

prof. RNDr. Rudolf Brázdil, DrSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.
Supplier department: Department of Geography – Earth Sciences Section – Faculty of Science

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support) 3. Main kinds of photographs and their elements. 4. Optical and photographic basis, interpretation of photographs 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry. 6. Single image methods, relief displacement. 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain. 8. Principle of stereo plotting device, relative and absolute orientation 9. Digital photogrammetry, attributes of digital image 10. Image transformation, geometric correction, 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM. 12. Digital photogrammetry workstation, HW and SW tools. 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 5th ed. Hoboken, N.J.: John Wiley & Sons, 2004, xiv, 763. ISBN 0471152277. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Language of instruction

Czech

Further comments (probably available only in Czech)

The course is taught once in two years.
The course is taught: every week.
Information on course enrolment limitations: 15

Z8101 Photogrammetry

The course is not taught in Spring 2013

Extent and Intensity

1/1. 2 credit(s) (plus extra credits for completion). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)

Guaranteed by

prof. RNDr. Rudolf Brázdil, DrSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.
Supplier department: Department of Geography – Earth Sciences Section – Faculty of Science

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support) 3. Main kinds of photographs and their elements. 4. Optical and photographic basis, interpretation of photographs 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry. 6. Single image methods, relief displacement. 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain. 8. Principle of stereo plotting device, relative and absolute orientation 9. Digital photogrammetry, attributes of digital image 10. Image transformation, geometric correction, 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM. 12. Digital photogrammetry workstation, HW and SW tools. 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 5th ed. Hoboken, N.J.: John Wiley & Sons, 2004, xiv, 763. ISBN 0471152277. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Language of instruction

Czech

Further comments (probably available only in Czech)

The course is taught annually.
The course is taught: every week.
Information on course enrolment limitations: 15

Z8101 Photogrammetry

The course is not taught in Autumn 2012

Extent and Intensity

1/1. 2 credit(s) (plus extra credits for completion). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)

Guaranteed by

prof. RNDr. Rudolf Brázdil, DrSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.
Supplier department: Department of Geography – Earth Sciences Section – Faculty of Science

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

The capacity limit for the course is 26 student(s).
Current registration and enrolment status: enrolled: 0/26, only registered: 0/26

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Main objectives is to learn basic principles of photogrammetry with the focus on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation). At the end of this course, students should be able to prerare their own products of digital photogrammetry - especially orthopohoto and digital tewrrain mofdel generated from two overlaping images. Program Orthonengine (PCI Geomatica) is utilized during practical exercises. Students would be able to explain when to apply individual image processing methods and make reasoned decisions about preconditions that are necessary for proper utilization of photogrammetric methods in question. He/she would be able to work with information on data preparation, make deductions based on acquired knowledge and properly interpret and evaluate results.

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support) 3. Main kinds of photographs and their elements. 4. Optical and photographic basis, interpretation of photographs 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry. 6. Single image methods, relief displacement. 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain. 8. Principle of stereo plotting device, relative and absolute orientation 9. Digital photogrammetry, attributes of digital image 10. Image transformation, geometric correction, 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM. 12. Digital photogrammetry workstation, HW and SW tools. 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 5th ed. Hoboken, N.J.: John Wiley & Sons, 2004, xiv, 763. ISBN 0471152277. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Teaching methods

Lectures explaining basic terms of analytical and digital photogrammetry and presenting individual examples step by step. Practical training based on exercises that are solved using single photo and stere photogrammetry software.

Assessment methods

An exam has the form of written test on theory of photogrammetry. Elaboration of all practical excercises and successul pass the practical test at the end of the term are two necessary conditons to advance to the main theoretical examination. Practical test with the use of computer.

Language of instruction

Czech

Further comments (probably available only in Czech)

The course is taught once in two years.
The course is taught: every week.

Z8101 Photogrammetry

The course is not taught in Spring 2012

Extent and Intensity

1/1. 2 credit(s) (plus extra credits for completion). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)

Guaranteed by

prof. RNDr. Rudolf Brázdil, DrSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.
Supplier department: Department of Geography – Earth Sciences Section – Faculty of Science

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support) 3. Main kinds of photographs and their elements. 4. Optical and photographic basis, interpretation of photographs 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry. 6. Single image methods, relief displacement. 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain. 8. Principle of stereo plotting device, relative and absolute orientation 9. Digital photogrammetry, attributes of digital image 10. Image transformation, geometric correction, 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM. 12. Digital photogrammetry workstation, HW and SW tools. 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 5th ed. Hoboken, N.J.: John Wiley & Sons, 2004, xiv, 763. ISBN 0471152277. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Language of instruction

Czech

Further comments (probably available only in Czech)

The course is taught once in two years.
The course is taught: every week.
Information on course enrolment limitations: 15

Z8101 Photogrammetry

The course is not taught in Spring 2011

Extent and Intensity

1/1. 2 credit(s) (plus extra credits for completion). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)

Guaranteed by

prof. RNDr. Rudolf Brázdil, DrSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support) 3. Main kinds of photographs and their elements. 4. Optical and photographic basis, interpretation of photographs 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry. 6. Single image methods, relief displacement. 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain. 8. Principle of stereo plotting device, relative and absolute orientation 9. Digital photogrammetry, attributes of digital image 10. Image transformation, geometric correction, 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM. 12. Digital photogrammetry workstation, HW and SW tools. 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 5th ed. Hoboken, N.J.: John Wiley & Sons, 2004, xiv, 763. ISBN 0471152277. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Language of instruction

Czech

Further comments (probably available only in Czech)

The course is taught once in two years.
The course is taught: every week.
Information on course enrolment limitations: 15

Z8101 Photogrammetry

The course is not taught in Autumn 2010

Extent and Intensity

1/1. 2 credit(s) (plus extra credits for completion). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)

Guaranteed by

prof. RNDr. Rudolf Brázdil, DrSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

The capacity limit for the course is 26 student(s).
Current registration and enrolment status: enrolled: 0/26, only registered: 0/26

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Main objectives is to learn basic principles of photogrammetry with the focus on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation). At the end of this course, students should be able to prerare their own products of digital photogrammetry - especially orthopohoto and digital tewrrain mofdel generated from two overlaping images. Program Orthonengine (PCI Geomatica) is utilized during practical exercises. Students would be able to explain when to apply individual image processing methods and make reasoned decisions about preconditions that are necessary for proper utilization of photogrammetric methods in question. He/she would be able to work with information on data preparation, make deductions based on acquired knowledge and properly interpret and evaluate results.

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support) 3. Main kinds of photographs and their elements. 4. Optical and photographic basis, interpretation of photographs 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry. 6. Single image methods, relief displacement. 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain. 8. Principle of stereo plotting device, relative and absolute orientation 9. Digital photogrammetry, attributes of digital image 10. Image transformation, geometric correction, 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM. 12. Digital photogrammetry workstation, HW and SW tools. 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 5th ed. Hoboken, N.J.: John Wiley & Sons, 2004, xiv, 763. ISBN 0471152277. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Teaching methods

Lectures explaining basic terms of analytical and digital photogrammetry and presenting individual examples step by step. Practical training based on exercises that are solved using single photo and stere photogrammetry software.

Assessment methods

An exam has the form of written test on theory of photogrammetry. Elaboration of all practical excercises and successul pass the practical test at the end of the term are two necessary conditons to advance to the main theoretical examination. Practical test with the use of computer.

Language of instruction

Czech

Further comments (probably available only in Czech)

The course is taught once in two years.
The course is taught: every week.

Z8101 Photogrammetry

The course is not taught in Spring 2010

Extent and Intensity

1/1. 2 credit(s) (plus extra credits for completion). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)

Guaranteed by

prof. RNDr. Rudolf Brázdil, DrSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support) 3. Main kinds of photographs and their elements. 4. Optical and photographic basis, interpretation of photographs 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry. 6. Single image methods, relief displacement. 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain. 8. Principle of stereo plotting device, relative and absolute orientation 9. Digital photogrammetry, attributes of digital image 10. Image transformation, geometric correction, 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM. 12. Digital photogrammetry workstation, HW and SW tools. 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 5th ed. Hoboken, N.J.: John Wiley & Sons, 2004, xiv, 763. ISBN 0471152277. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Language of instruction

Czech

Further comments (probably available only in Czech)

The course is taught once in two years.
The course is taught: every week.
Information on course enrolment limitations: 15

Z8101 Photogrammetry

The course is not taught in Spring 2009

Extent and Intensity

1/1. 2 credit(s) (plus extra credits for completion). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)

Guaranteed by

prof. RNDr. Rudolf Brázdil, DrSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support) 3. Main kinds of photographs and their elements. 4. Optical and photographic basis, interpretation of photographs 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry. 6. Single image methods, relief displacement. 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain. 8. Principle of stereo plotting device, relative and absolute orientation 9. Digital photogrammetry, attributes of digital image 10. Image transformation, geometric correction, 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM. 12. Digital photogrammetry workstation, HW and SW tools. 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 5th ed. Hoboken, N.J.: John Wiley & Sons, 2004, xiv, 763. ISBN 0471152277. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Language of instruction

Czech

Further comments (probably available only in Czech)

The course is taught once in two years.
The course is taught: every week.
Information on course enrolment limitations: 15

Z8101 Photogrammetry

The course is not taught in Spring 2008

Extent and Intensity

1/1. 2 credit(s) (plus extra credits for completion). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)

Guaranteed by

RNDr. Vladimír Herber, CSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support) 3. Main kinds of photographs and their elements. 4. Optical and photographic basis, interpretation of photographs 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry. 6. Single image methods, relief displacement. 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain. 8. Principle of stereo plotting device, relative and absolute orientation 9. Digital photogrammetry, attributes of digital image 10. Image transformation, geometric correction, 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM. 12. Digital photogrammetry workstation, HW and SW tools. 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 5th ed. Hoboken, N.J.: John Wiley & Sons, 2004, xiv, 763. ISBN 0471152277. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Language of instruction

Czech

Further comments (probably available only in Czech)

The course is taught once in two years.
The course is taught: every week.
Information on course enrolment limitations: 15

Z8101 Photogrammetry

The course is not taught in Spring 2007

Extent and Intensity

1/1. 2 credit(s) (plus extra credits for completion). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)

Guaranteed by

RNDr. Vladimír Herber, CSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support) 3. Main kinds of photographs and their elements. 4. Optical and photographic basis, interpretation of photographs 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry. 6. Single image methods, relief displacement. 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain. 8. Principle of stereo plotting device, relative and absolute orientation 9. Digital photogrammetry, attributes of digital image 10. Image transformation, geometric correction, 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM. 12. Digital photogrammetry workstation, HW and SW tools. 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 5th ed. Hoboken, N.J.: John Wiley & Sons, 2004, xiv, 763. ISBN 0471152277. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Language of instruction

Czech

Further comments (probably available only in Czech)

The course is taught once in two years.
The course is taught: every week.
Information on course enrolment limitations: 15

Z8101 Photogrammetry

The course is not taught in Spring 2004

Extent and Intensity

2/1. 3 credit(s) (plus extra credits for completion). Recommended Type of Completion: zk (examination). Other types of completion: k (colloquium).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)

Guaranteed by

prof. RNDr. Milan Konečný, CSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.

Prerequisites (in Czech)

Z1004 Geographical project 2

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

• Geography and Cartography (programme PřF, M-GR, specialization Cartography and Geoinformatics)

Course objectives (in Czech)

Cílem je seznámit studenty se základními principy fotogrammetrického zpracování dat s důrazem na digitální fotogrammetrii. Jsou podány základní informace o metodách leteckého snímkování, dále matematické základy jednosnímkových metod a principy stereofotogrammetrie. Je věnována pozornost jednotlivým etapám procesu tvorby digitálních fotogrammetrických produktů, fotogrammetrickému sběru dat, generování DTM, tvorbě ortofoto.

Syllabus (in Czech)

• 1. Základní pojmy a definice, historický prehled, rozdelení metod fotogrammetrie 2. Letecké snímkování a snímkový let (letadla, kamery, druhy filmu, digitální fotografie, GPS podpora ve fotogrammetrii) 3. Základní druhy snímku, LMS a jejich soucásti 4. Optické a fotografické základy, filmy a jejich složení, filtry, interpretacní postupy a interpretacní znaky 5. Matematické základy fotogrammetrie, projektivní geometrie, souradné soustavy, vlivy pusobící na geometrii LMS 6. Jednosnímkové metody - urcování horizontálních vzdáleností a úhlu merením na LMS, urcování výšky objektu z relief displacement 7. Stereoskopie, princip stereovidení, stereovjem a zpusoby jeho vytvárení, stereoskopická dvojice snímku, princip paralxy, zjištování výšky objektu a výšky terénu z merení obrazové paralaxy 8. Tvorba map na stereoplotteru, vnitrní a vnejší (absolutní a relativní) orientace stereodvojice, 9. Digitální fotogrammetrie, digitální obraz, jeho vznik a vlastnosti, skenování analogových snímku 10. Transformace obrazu, geometrická korekce snímku, korelacní techniky, epipolární projekce, mozaikování, fotogrammetrické zpracování družicových obrazových dat 11. Tvorba digitálního ortofoto a generování DTM, sestavování ortofotomapy, 12. Digitální fotogrammetrická stanice - hardwarové a softwarové nástroje, príklady konkrétních rešení 13. Tvorba a obnova topografických map v bývalém Ceskoslovensku a v Ceské republice, produkty digitální fotogrammetrie, aplikace metod fotogrammetrie

Literature

• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Language of instruction

Czech

Further comments (probably available only in Czech)

The course is taught: every week.
Information on course enrolment limitations: 15

Z8101 Photogrammetry

The course is not taught in Autumn 2003

Extent and Intensity

1/1. 3 credit(s). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)

Guaranteed by

RNDr. Vladimír Herber, CSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

• Geography and Cartography (programme PřF, M-GR, specialization Cartography and Geoinformatics)

Course objectives (in Czech)

Cílem je seznámit studenty se základními principy fotogrammetrického zpracování dat s důrazem na digitální fotogrammetrii. Jsou podány základní informace o metodách leteckého snímkování, dále matematické základy jednosnímkových metod a principy stereofotogrammetrie. Je věnována pozornost jednotlivým etapám procesu tvorby digitálních fotogrammetrických produktů, fotogrammetrickému sběru dat, generování DTM, tvorbě ortofoto.

Syllabus (in Czech)

• 1.Základní pojmy a definice, historický přehled, rozdělení metod fotogrammetrie 2.Letecké snímkování a snímkový let (letadla, kamery, druhy filmů, digitální fotografie, GPS podpora ve fotogrammetrii) 3.Základní druhy snímků, LMS a jejich součásti 4.Optické a fotografické základy, filmy a jejich složení, filtry, interpretační postupy a interpretační znaky 5.Matematické základy fotogrammetrie, projektivní geometrie, souřadné soustavy, vlivy působící na geometrii LMS 6.Jednosnímkové metody - určování horizontálních vzdáleností a úhlů měřením na LMS, určování výšky objektů z relativní změny objektů v důsledku jejich nestejné nadmořské výšky (relief displacement) 7.Stereoskopie, princip stereovidění, stereovjem a způsoby jeho vytváření, stereoskopická dvojice snímků, princip paralaxy, zjišťování výšky objektů a výšky terénu z měření obrazové paralaxy 8.Tvorba map na stereoplotteru, vnitřní a vnější (absolutní a relativní) orientace stereodvojice, 9.Digitální fotogrammetrie, digitální obraz, jeho vznik a vlastnosti, skenování analogových snímků 10.Transformace obrazu, geometrická korekce snímků, korelační techniky, epipolární projekce, mozaikování, fotogrammetrické zpracování družicových obrazových dat 11.Tvorba digitálního ortofoto a generování DTM, sestavování ortofotomapy, 12.Digitální fotogrammetrická stanice - hardwarové a softwarové nástroje, příklady konkrétních řešení 13.Tvorba a obnova topografických map v bývalém Československu a v České republice, produkty digitální fotogrammetrie, aplikace metod fotogrammetrie

Language of instruction

Czech

Further comments (probably available only in Czech)

The course is taught: every week.

Z8101 Photogrammetry

The course is not taught in Spring 2003

Extent and Intensity

2/1. 3 credit(s) (plus extra credits for completion). Recommended Type of Completion: zk (examination). Other types of completion: k (colloquium).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)

Guaranteed by

prof. RNDr. Milan Konečný, CSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.

Prerequisites (in Czech)

Z1004 Geographical project 2

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

• Geography and Cartography (programme PřF, M-GR, specialization Cartography and Geoinformatics)

Course objectives (in Czech)

Cílem je seznámit studenty se základními principy fotogrammetrického zpracování dat s důrazem na digitální fotogrammetrii. Jsou podány základní informace o metodách leteckého snímkování, dále matematické základy jednosnímkových metod a principy stereofotogrammetrie. Je věnována pozornost jednotlivým etapám procesu tvorby digitálních fotogrammetrických produktů, fotogrammetrickému sběru dat, generování DTM, tvorbě ortofoto.

Syllabus (in Czech)

• 1. Základní pojmy a definice, historický prehled, rozdelení metod fotogrammetrie 2. Letecké snímkování a snímkový let (letadla, kamery, druhy filmu, digitální fotografie, GPS podpora ve fotogrammetrii) 3. Základní druhy snímku, LMS a jejich soucásti 4. Optické a fotografické základy, filmy a jejich složení, filtry, interpretacní postupy a interpretacní znaky 5. Matematické základy fotogrammetrie, projektivní geometrie, souradné soustavy, vlivy pusobící na geometrii LMS 6. Jednosnímkové metody - urcování horizontálních vzdáleností a úhlu merením na LMS, urcování výšky objektu z relief displacement 7. Stereoskopie, princip stereovidení, stereovjem a zpusoby jeho vytvárení, stereoskopická dvojice snímku, princip paralxy, zjištování výšky objektu a výšky terénu z merení obrazové paralaxy 8. Tvorba map na stereoplotteru, vnitrní a vnejší (absolutní a relativní) orientace stereodvojice, 9. Digitální fotogrammetrie, digitální obraz, jeho vznik a vlastnosti, skenování analogových snímku 10. Transformace obrazu, geometrická korekce snímku, korelacní techniky, epipolární projekce, mozaikování, fotogrammetrické zpracování družicových obrazových dat 11. Tvorba digitálního ortofoto a generování DTM, sestavování ortofotomapy, 12. Digitální fotogrammetrická stanice - hardwarové a softwarové nástroje, príklady konkrétních rešení 13. Tvorba a obnova topografických map v bývalém Ceskoslovensku a v Ceské republice, produkty digitální fotogrammetrie, aplikace metod fotogrammetrie

Literature

• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Language of instruction

Czech

Further comments (probably available only in Czech)

The course is taught: every week.
Information on course enrolment limitations: 15

Z8101 Photogrammetry

The course is not taught in Spring 2002

Extent and Intensity

2/1. 3 credit(s) (plus extra credits for completion). Recommended Type of Completion: zk (examination). Other types of completion: k (colloquium).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)

Guaranteed by

RNDr. Vladimír Herber, CSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.

Prerequisites (in Czech)

Z1004 Geographical project 2

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

• Geography and Cartography (programme PřF, M-GR, specialization Cartography and Geoinformatics)

Syllabus (in Czech)

• 1. Základní pojmy a definice, historický prehled, rozdelení metod fotogrammetrie 2. Letecké snímkování a snímkový let (letadla, kamery, druhy filmu, digitální fotografie, GPS podpora ve fotogrammetrii) 3. Základní druhy snímku, LMS a jejich soucásti 4. Optické a fotografické základy, filmy a jejich složení, filtry, interpretacní postupy a interpretacní znaky 5. Matematické základy fotogrammetrie, projektivní geometrie, souradné soustavy, vlivy pusobící na geometrii LMS 6. Jednosnímkové metody - urcování horizontálních vzdáleností a úhlu merením na LMS, urcování výšky objektu z relief displacement 7. Stereoskopie, princip stereovidení, stereovjem a zpusoby jeho vytvárení, stereoskopická dvojice snímku, princip paralxy, zjištování výšky objektu a výšky terénu z merení obrazové paralaxy 8. Tvorba map na stereoplotteru, vnitrní a vnejší (absolutní a relativní) orientace stereodvojice, 9. Digitální fotogrammetrie, digitální obraz, jeho vznik a vlastnosti, skenování analogových snímku 10. Transformace obrazu, geometrická korekce snímku, korelacní techniky, epipolární projekce, mozaikování, fotogrammetrické zpracování družicových obrazových dat 11. Tvorba digitálního ortofoto a generování DTM, sestavování ortofotomapy, 12. Digitální fotogrammetrická stanice - hardwarové a softwarové nástroje, príklady konkrétních rešení 13. Tvorba a obnova topografických map v bývalém Ceskoslovensku a v Ceské republice, produkty digitální fotogrammetrie, aplikace metod fotogrammetrie

Literature

• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Language of instruction

Czech

Further comments (probably available only in Czech)

The course is taught: every week.
Information on course enrolment limitations: 15

Z8101 Photogrammetry

The information about the term Autumn 2011 - acreditation is not made public

Extent and Intensity

1/1. 2 credit(s) (plus extra credits for completion). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)

Guaranteed by

prof. RNDr. Rudolf Brázdil, DrSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

The capacity limit for the course is 26 student(s).
Current registration and enrolment status: enrolled: 0/26, only registered: 0/26

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Main objectives is to learn basic principles of photogrammetry with the focus on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation). At the end of this course, students should be able to prerare their own products of digital photogrammetry - especially orthopohoto and digital tewrrain mofdel generated from two overlaping images. Program Orthonengine (PCI Geomatica) is utilized during practical exercises. Students would be able to explain when to apply individual image processing methods and make reasoned decisions about preconditions that are necessary for proper utilization of photogrammetric methods in question. He/she would be able to work with information on data preparation, make deductions based on acquired knowledge and properly interpret and evaluate results.

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support) 3. Main kinds of photographs and their elements. 4. Optical and photographic basis, interpretation of photographs 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry. 6. Single image methods, relief displacement. 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain. 8. Principle of stereo plotting device, relative and absolute orientation 9. Digital photogrammetry, attributes of digital image 10. Image transformation, geometric correction, 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM. 12. Digital photogrammetry workstation, HW and SW tools. 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 5th ed. Hoboken, N.J.: John Wiley & Sons, 2004, xiv, 763. ISBN 0471152277. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Teaching methods

Lectures explaining basic terms of analytical and digital photogrammetry and presenting individual examples step by step. Practical training based on exercises that are solved using single photo and stere photogrammetry software.

Assessment methods

An exam has the form of written test on theory of photogrammetry. Elaboration of all practical excercises and successul pass the practical test at the end of the term are two necessary conditons to advance to the main theoretical examination. Practical test with the use of computer.

Language of instruction

Czech

Further comments (probably available only in Czech)

The course is taught once in two years.
The course is taught: every week.

Z8101 Photogrammetry

Extent and Intensity

1/1. 2 credit(s) (plus extra credits for completion). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)

Guaranteed by

RNDr. Vladimír Herber, CSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support) 3. Main kinds of photographs and their elements. 4. Optical and photographic basis, interpretation of photographs 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry. 6. Single image methods, relief displacement. 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain. 8. Principle of stereo plotting device, relative and absolute orientation 9. Digital photogrammetry, attributes of digital image 10. Image transformation, geometric correction, 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM. 12. Digital photogrammetry workstation, HW and SW tools. 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 5th ed. Hoboken, N.J.: John Wiley & Sons, 2004, xiv, 763. ISBN 0471152277. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Language of instruction

Czech

Further comments (probably available only in Czech)

The course is taught once in two years.
The course is taught: every week.
Information on course enrolment limitations: 15

Z8101 Photogrammetry

The course is not taught in spring 2012 - acreditation

The information about the term spring 2012 - acreditation is not made public

Extent and Intensity

1/1. 2 credit(s) (plus extra credits for completion). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)

Guaranteed by

prof. RNDr. Rudolf Brázdil, DrSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.
Supplier department: Department of Geography – Earth Sciences Section – Faculty of Science

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support) 3. Main kinds of photographs and their elements. 4. Optical and photographic basis, interpretation of photographs 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry. 6. Single image methods, relief displacement. 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain. 8. Principle of stereo plotting device, relative and absolute orientation 9. Digital photogrammetry, attributes of digital image 10. Image transformation, geometric correction, 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM. 12. Digital photogrammetry workstation, HW and SW tools. 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 5th ed. Hoboken, N.J.: John Wiley & Sons, 2004, xiv, 763. ISBN 0471152277. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Language of instruction

Czech

Further comments (probably available only in Czech)

The course is taught once in two years.
The course is taught: every week.
Information on course enrolment limitations: 15

Z8101 Photogrammetry

The course is not taught in Autumn 2010 - only for the accreditation

Extent and Intensity

1/1. 2 credit(s) (plus extra credits for completion). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)

Guaranteed by

prof. RNDr. Rudolf Brázdil, DrSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

The capacity limit for the course is 26 student(s).
Current registration and enrolment status: enrolled: 0/26, only registered: 0/26

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Main objectives is to learn basic principles of photogrammetry with the focus on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation). At the end of this course, students should be able to prerare their own products of digital photogrammetry - especially orthopohoto and digital tewrrain mofdel generated from two overlaping images. Program Orthonengine (PCI Geomatica) is utilized during practical exercises. Students would be able to explain when to apply individual image processing methods and make reasoned decisions about preconditions that are necessary for proper utilization of photogrammetric methods in question. He/she would be able to work with information on data preparation, make deductions based on acquired knowledge and properly interpret and evaluate results.

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support) 3. Main kinds of photographs and their elements. 4. Optical and photographic basis, interpretation of photographs 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry. 6. Single image methods, relief displacement. 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain. 8. Principle of stereo plotting device, relative and absolute orientation 9. Digital photogrammetry, attributes of digital image 10. Image transformation, geometric correction, 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM. 12. Digital photogrammetry workstation, HW and SW tools. 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 5th ed. Hoboken, N.J.: John Wiley & Sons, 2004, xiv, 763. ISBN 0471152277. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Teaching methods

Lectures explaining basic terms of analytical and digital photogrammetry and presenting individual examples step by step. Practical training based on exercises that are solved using single photo and stere photogrammetry software.

Assessment methods

An exam has the form of written test on theory of photogrammetry. Elaboration of all practical excercises and successul pass the practical test at the end of the term are two necessary conditons to advance to the main theoretical examination. Practical test with the use of computer.

Language of instruction

Czech

Further comments (probably available only in Czech)

The course is taught once in two years.
The course is taught: every week.

Z8101 Photogrammetry

The course is not taught in Spring 2011 - only for the accreditation

Extent and Intensity

1/1. 2 credit(s) (plus extra credits for completion). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)

Guaranteed by

prof. RNDr. Rudolf Brázdil, DrSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support) 3. Main kinds of photographs and their elements. 4. Optical and photographic basis, interpretation of photographs 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry. 6. Single image methods, relief displacement. 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain. 8. Principle of stereo plotting device, relative and absolute orientation 9. Digital photogrammetry, attributes of digital image 10. Image transformation, geometric correction, 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM. 12. Digital photogrammetry workstation, HW and SW tools. 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 5th ed. Hoboken, N.J.: John Wiley & Sons, 2004, xiv, 763. ISBN 0471152277. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Language of instruction

Czech

Further comments (probably available only in Czech)

The course is taught once in two years.
The course is taught: every week.
Information on course enrolment limitations: 15

Z8101 Photogrammetry

The course is not taught in Spring 2008 - for the purpose of the accreditation

Extent and Intensity

1/1. 2 credit(s) (plus extra credits for completion). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Petr Dobrovolný, CSc. (lecturer)

Guaranteed by

RNDr. Vladimír Herber, CSc.
Department of Geography – Earth Sciences Section – Faculty of Science
Contact Person: prof. RNDr. Petr Dobrovolný, CSc.

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

fields of study / plans the course is directly associated with

• Geographical Cartography and Geoinformatics (programme PřF, N-GK)

Course objectives

Basic principles of photogrammetry are given with the stress on digital photogrammetry. Methods of aerial imaging are mentioned. Mathematical principles of single-image methods and stereo phtogrammetry are mentioned. Individual stages of digital photogrammetric products are outlined (data acquisition, DTM processing, orthophoto creation).

Syllabus

• 1. Basic concepts, historical overview, methods of photogrammetry 2. Aerial imaging (airplanes, cameras, films, digital photography, GPS support) 3. Main kinds of photographs and their elements. 4. Optical and photographic basis, interpretation of photographs 5. Mathematical basis, projective geometry, coordinate systems, main kinds of distortions on geometry. 6. Single image methods, relief displacement. 7. Stereophotogrammetry, concept of paralax, derivation of height of object and terrain. 8. Principle of stereo plotting device, relative and absolute orientation 9. Digital photogrammetry, attributes of digital image 10. Image transformation, geometric correction, 11. Orthophoto and digital terrain model (DTM), generation, DEM and DTM. 12. Digital photogrammetry workstation, HW and SW tools. 13. Production of topographic maps in the CR using photogrammetry

Literature

• KONECNY, Gottfried. Geoinformation : remote sensing, photogrammetry and geographic information systems. 1st publ. London: Taylor & Francis, 2002, xiv, 248. ISBN 0415237955. info
• LILLESAND, Thomas M., Ralph W. KIEFER and Jonathan W. CHIPMAN. Remote sensing and image interpretation. 5th ed. Hoboken, N.J.: John Wiley & Sons, 2004, xiv, 763. ISBN 0471152277. info
• KASSER, Michael and Yves EGELS. Digital photogrammetry. London: Taylor & Francis, 2001, xv, 351 s. ISBN 0-748-40945-9. info
• LILLESAND, Thomas M. and Ralph W. KIEFER. Remote sensing and image interpretation. 3rd ed. New York: John Wiley & Sons, 1994, xvi, 750. ISBN 0471577839. info

Language of instruction

Czech

Further comments (probably available only in Czech)

The course is taught once in two years.
The course is taught: every week.
Information on course enrolment limitations: 15

• Enrolment Statistics (recent)