2.4.3 . Sources of errors and accuracy 2.4.4 . Instruments 2.4.5 . Methods of measurement 2.4.6 . Determination of coordinates 2.4.7 . Processing of data from GNSS measurements 2.5 . Precise positioning of an individual point 2.6 . Application of Global Systems 3 . European differential geostationary system EGNOS ( European Geostationary Navigation Overlay Service ) 4 . European differential system EUPOS ( European Position Determination System ) 4.1 . General principles 4.2 . Data for EUPOS 4.3 . Technical specifications and services 4.4 . BULiPOS 5 . References 1.3.3.1 – 1.3.3.3
1.3.3.4 . SATELLITE ( REMOTE SENSING ) TECHNOLOGIES 1 . Principal concepts 2 . Satellites , sensors , scanning and information 3 . Types of remote sensing methods 4 . Software for remote sensing investigations 5 . Analytic bases and processing of satellite images 6 . Brief overview of remote sensings 7 . Application of LIDAR 8 . Satellite radar interferometry 8.1 . Essence 8.2 . Additional possibilities of DInSAR 8.3 . Interferometric software processing 8.4 . Radar systems 8.5 . Use of the systems 9 . GOCE – Special gravimetric satellite of the Earth 10 . The Sentinel mission of the Copernicus program 11 . References 1.3.3.4
1.3.3.5 . PHOTOGRAMMETRIC TECHNOLOGIES 1 . General ideas , basic concepts , definitions , principles and prerequisites for realization of photogrammetry 1.1 . General ideas 1.2 . Photogrammetric photo 1.3 . Mathematical bases . General definitions and dependencies 1.4 . Systematization of the data set and principles of processing 1.5 . Analogue photogrammetry 1.6 . Analytical photogrammetry 1.7 . Digital photogrammetry 1.7.1 . Basic information 1.7.2 . Processing of digital image information 1.7.3 . Block adjustment of the model 1.7.4 . Bundle-block adjustment 1.7.5 . Orthogonal photos ( Orthophoto ) 2 . Technology of airborne digital photogrammetry using normal shots 2.1 . Principle
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