Lecturer(s)
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Course content
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Main topics: - Earth remote sensing and geographic information systems. - Raster versus vector data and their sources. - The concept of remote sensing and its basics. - Basic terminology in remote sensing. - Aerial photography. - Unmanned aerial vehicles in remote sensing. - Aerial laser scanning. - Satellite imaging. - Display of remote sensing digital data. - Adjusting image data. - Classification of image records. - Software tools for working with remote sensing data. - Vegetation indices. - Application of remote sensing data in the study of landscape risks.
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Learning activities and teaching methods
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- Home preparation for classes
- 14 hours per semester
- Preparation for course credit
- 10 hours per semester
- Preparation for examination
- 20 hours per semester
- Participation in classes
- 20 hours per semester
- Participation in classes
- 42 hours per semester
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prerequisite |
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Knowledge |
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understand the basics of physical geography and mathematics |
understand the basics of physical geography and mathematics |
understand basic geodetic principles |
understand basic geodetic principles |
Skills |
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ability to work with geographic information systems (GIS) |
ability to work with geographic information systems (GIS) |
learning outcomes |
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Knowledge |
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explain the principles of remote sensing |
explain the principles of remote sensing |
identify and classify various sensors and their principles for data collection in remote sensing, including satellite, airborne and airborne imagery |
identify and classify various sensors and their principles for data collection in remote sensing, including satellite, airborne and airborne imagery |
describe the relevant standards and protocols for the processing, archiving and distribution of remotely sensed data |
describe the relevant standards and protocols for the processing, archiving and distribution of remotely sensed data |
comprehensively grasp the relationships between remote sensing and other scientific disciplines |
comprehensively grasp the relationships between remote sensing and other scientific disciplines |
Skills |
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evaluate and interpret changes in the landscape and environment using time series of remotely sensed data |
evaluate and interpret changes in the landscape and environment using time series of remotely sensed data |
work with geographic information systems (GIS) and integrate remotely acquired data into geographic analyses |
work with geographic information systems (GIS) and integrate remotely acquired data into geographic analyses |
present and visualise remotely acquired data using maps, graphs and other information tools |
present and visualise remotely acquired data using maps, graphs and other information tools |
interpret and analyse remotely acquired geographic data such as multispectral and hyperspectral imagery |
interpret and analyse remotely acquired geographic data such as multispectral and hyperspectral imagery |
use methods and techniques for georeferencing and orthorectification of remotely acquired data |
use methods and techniques for georeferencing and orthorectification of remotely acquired data |
teaching methods |
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Knowledge |
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Practice exercises |
Practice exercises |
Lecturing |
Lecturing |
Individual work of students |
Individual work of students |
assessment methods |
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Oral examination |
Oral examination |
Grade (Using a grade system) |
Grade (Using a grade system) |
Recommended literature
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CRACKNELL, A. P. Introduction to remote sensing.. CRC press., 2007. ISBN 9780849392559.
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FERRETTI, A., MONTI GUARNIERI, A., PRATI, C., ROCCA, F., & MASSONNET, D. INSAR Principles A.. ESA Publications, 2007. ISBN 9290922338.
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GONZALES, R. C. and P. WINTZ. Digital Image Processing.. Addison-Wesley Publishing Company, Advanced Book Program-World Science Division, Reading, Mass., 2002. ISBN 9780201110265.
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GOODCHILD, M. F. GIS and Environmental Modeling: Progress and Research Issues.. GIS World., 1996. ISBN 9780470236772.
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HALOUNOVÁ, L., PAVELKA, K. Dálkový průzkum Země.. Praha: Vydavatelství ČVUT., 2005. ISBN 8001031241.
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JENSEN, J. R. Remote Sensing of the Environment: An Earth Resource Perspective.. Upper Saddle River: Prentice-Hall, 2002. ISBN 0134897331.
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SABINS Jr, F. F., ELLIS, J. M. Remote Sensing: Principles, Interpretation, and Applications.. Waveland Press., 2020. ISBN 978-1478637103.
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