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Lecture
Geographic Information Systems: Data Acquisition and Representation
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Related lectures (32)
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Digital Elevation Models: Basic Elements
Covers digital elevation models, altitude acquisition methods, representation techniques, and relief visualization using shading and contour lines.
Digital Elevation Models: Basic Concepts
Covers methods for sampling elevation and measuring elevation using leveling, photogrammetry, and LiDAR in Geographic Information Systems.
Vector-Vector Interactions
Covers interactions between vector layers in GIS using QGIS tools.
Spatial Autocorrelation and Dependence
Covers spatial autocorrelation, dependence in GIS, and biases in classical statistics.
Geographic Information Systems: Introduction
Covers the basics of Geographic Information Systems and their practical applications in wildlife conservation and geospatial data analysis.
GIS: Introduction to Geographical Information Systems
Covers GIS, vector and raster data, spatial analysis, and coordinate systems.
Vector-Vector Integration: Methods and Tools
Explores methods and tools for integrating vector layers in QGIS, including SQL queries and boolean operators.
Spatial Autocorrelation and Dependence
Covers spatial autocorrelation, spatial dependence, biases in classical statistics, and limitations of statistical tools in geography.
Raster - Raster
Covers raster-raster integration, map algebra, NDVI calculation, and terrain analysis using relational and logical operators.
Vector-Vector Data Layer Interactions
Covers interactions between vector layers in GIS, including geometric properties, spatial arrangement, autocorrelation, altitude models, and SQL equivalents.
