Lectures related to Digital Elevation Models: Basic Element

Discusses the important role of relief in spatial analysis.

Explores additional transformations between geocentric and geodetic systems, map projections, and vertical reference systems.

Geoid References: Geoid

Explores the geoid, gravity conditions, geoid elevation, and reference systems.

Coordinates and Projection Systems

Covers observation scales, coordinate systems, geoid, and projection systems in GIS.

Digital Elevation Models: Basic Concepts

Covers methods for sampling elevation and measuring elevation using leveling, photogrammetry, and LiDAR in Geographic Information Systems.

Geodetic Concepts: Reference Systems and Projections

Covers geodetic concepts, reference systems, and map projections for accurate measurements in engineering projects.

Geodesy Bases: Coordinate Systems, Geoid, and Ellipsoid

Explores geodesy basics, covering coordinate systems, geoid, and ellipsoid representations on a flat plane.

Geodesy Bases and Coordinate Systems

Explores geodesy bases, coordinate systems, and projections for astronomy and navigation.

Digital Elevation Models: Basic Elements

Covers digital elevation models, altitude acquisition methods, representation techniques, and relief visualization using shading and contour lines.

Coordinates and Projection Systems

Covers principles of transposing spatial entities, scales, coordinate systems, projection systems, and EPSG codes.

Geodetic References: Coordinates and Systems

Explores geodetic references, coordinate systems, the geoid, and reference systems for accurate measurements.

Coordinate Transformation and Satellite Tracking

Explores coordinate transformation, satellite tracking, GPS signals, and receiver systems, including practical exercises and study of scientific articles.

Geographic Information Systems: Data Acquisition and Representation

Explores Geographic Information Systems, covering data acquisition, representation, and visualization of geodata.

Geodesy Fundamentals: Understanding Earth Reference Systems

Provides an overview of geodesy, focusing on Earth's reference systems and the importance of accurate geodetic data for practical applications.

Geodetic References: Altitudes

Discusses geoid elevation, orthometric altitude, altitudes, Swiss local geoid, and altitude systems.

Spatial Phenomena: Isovalues

Covers isovalue curves in geographic information systems and their creation using QGIS.

Basic Elements of Altitude Models

Covers methods for acquiring and representing altitude data, emphasizing the historical and analytical importance of relief.

Calculating Infinitesimal Displacement on Earth's Surface

Explores the calculation of infinitesimal displacements on Earth's surface using geomatics elements and spherical coordinates.

Spatial Analysis Processes: Modeling and Essentials

Covers spatial analysis processes, including modeling and essentials.

Interactions between Data Layers: Raster-Vecteur

Covers interactions between raster and vector data layers in GIS using QGIS tools.