GEOMATICS AND GEOINFORMATICS IN MODERN INFORMATION SOCIETY PROJECTION OF NEW TRENDS INTO THEIR...
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Transcript of GEOMATICS AND GEOINFORMATICS IN MODERN INFORMATION SOCIETY PROJECTION OF NEW TRENDS INTO THEIR...
GEOMATICS AND GEOINFORMATICS IN MODERN INFORMATION SOCIETY
PROJECTION OF NEW TRENDS INTO THEIR CURRICULA AT THE UNIVERSITY OF WEST BOHEMIA IN PILSEN
Jiří ŠÍMA, Czech Republic
University of West Bohemia in PilsenFaculty of Applied SciencesDepartment of Geomatics
GEOMATICS
A discipline concerned with the collection, distribution,
storage, analysis, processing, presentation of
geographic data or geographic information
• national spatial reference system• state topographic map series• aerial photography• surveys on state boundaries• cadastral surveys• national bases of geographic data
GEOINFORMATICS
A discipline concerned with theory of geospatial data modelling, their storage, management and processing as well as with development of geographic information systems and necessary information- and communication technology
• development and management of geospatial databases
• analysis and modelling of geospatial data
• development and integration of computer tools and software for the first two tasks
DEVELOPING TRENDS AT THE BEGINNING OF 21st CENTURY
e-cadastre •sole information system•3-D cadastre•centralized maintenance•distribution via information kiosks•services fully covered with revenues
private surveyors
•complex services•automation of surveying operations•integration of more technical disciplines
DEVELOPING TRENDS AT THE BEGINNING OF 21st CENTURY
photogram-metry
•digital aerial photography•direct georeferencing of photographs•multispectral digital images•airborne laser scanning
physical geodesy
•improving the parameters of the Earth body and its gravity field•precising the continental and national coordinate reference systems inclusive their temporal changes•wide use of global positioning systems
DEVELOPING TRENDS AT THE BEGINNING OF 21st CENTURY
remote sensing
•many small satellites•multispectral images in more narrow wavebands•high resolution digital satellite images•multitemporal analyse
cartography •improving the parameters of the Earth body and its gravity field•precising the continental and national coordinate reference systems inclusive their temporal changes•wide use of global positioning systems
UNIVERSITY OF WEST BOHEMIA IN PILSEN
FACULTY OF APPLIED SCIENCES
CHAIR OF MATHEMATICS
DEPARTMENT OF GEOMATICS
• Bachelor study programme Geomatics (since 1995)
• Master study programme Geomatics (since 1995)
• Ph.D. study programme Geomatics (since 2006)
• Bachelor study programme Geoinformatics
(in accreditation)
B.Sc. – curriculum for geomatics (3 years)
Mathematical cartography I 2/WT 2 + 2
Geodesy I, II 2/WT + 2/ST 3 + 2
Topographic mapping 2/ST 2 + 2
Introduction to GIS 2/ST 2 + 1
Civil material law 2/ST 2 + 0
Land law 2/ST 2 + 2
Geodetical methods of adjustment 3/WT 2 + 1
Cadastre of real estates 3/WT 2 + 2
Programming techniques 3/WT 3 + 2
Thematic cartography 3/WT 2 + 1
Large scale mapping 3/WT 2 + 0
Automation of geodetical computations 3/WT + 3/ST 2 + 2
Photogrammetry 3/ST 2 + 2
Differential geometry 3/ST 2 + 2
Notes: The overview does not contain subjects of general fundamentals (mathematics, physics, statistics, etc.)WT = winter term, ST = summer term lecture + seminar (hours)
M.Sc. – curriculum for geomatics (+ 2 years)Physical geodesy 1/WT 2 + 2Earth remote sensing 1/WT 2 + 2GIS in human geography 1/WT 1 + 2Algorithms of space analyses 1/WT 1 + 2Theory of GIS generation 1/WT 3 + 2Database systems I 1/WT 3 + 2Cartographic reproduction and polygraphy 1/WT 2 + 2Glogal positioning systems 1/ST 2 + 0Database systems II 1/ST 3 + 2Geometric and computer modelling 1/ST 3 + 2GIS in physical geography 1/ST 1 + 2 GIS applications 1/ST 1 + 2Database systems for GIS 1/ST 2 + 2Mathematical cartography II 1/ST 2 + 2Administrative law 2/WT 2 + 0Algorithms of computer graphics 2/WT 3 + 2Computer cartography 2/WT 1 + 2Data visualisation 2/ST 3 + 2Digital image processing 2/ST 3 + 2Satellite geodesy 2/ST 3 + 2Theory of law 1/WT + 1/ST + 2/WT + 2/ST 2 + 2
Comparison of B.Sc. – curriculum for geomatics with proposed B.Sc. – curriculum for geoinformatics
Note: The overview does not contain subjects of general fundamentals (mathematics, physics, statistics, etc)
Geomatics Geoinformatics Mathematical cartography I
Geodesy I, II
Topographic mapping
Introduction to GIS
Civil material law
Introduction to geomatics
Geodesy I, II
Terminology and standardization in geoinformatics
Introduction to GIS
Modern methods of geodata acquisition
Land law
Geodetical methods of adjustment
Cadastre of real estates
Programming techniques
Cartographic visualisation of geoinformation
Information technologies for geographic data
Methods of topographic and large scale thematic mapping
Programming techniques
Thematic cartography
Automation of geodetical computations
Large scale mapping
Photogrammetry
Differential geometry
Thematic cartography
Computer cartography
Spatial databases
Programming of internet applications
Computer networks
Thank you for your attention!