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Related lectures (31)
GNSS for Space Applications
Covers the use of GNSS for space applications, including navigation, low-cost solutions, and real-time examples.
Introduction: GNSS Signals and Modulations
Covers the generation and processing of GNSS signals from satellites to Earth.
Digital Urban History: QGIS Practical Session
Covers the practical use of QGIS for spatial data analysis and visualization, including georeferencing historical maps and manipulating vector data.
Integrity of Positioning and Articles Presentation
Covers the architecture of EGNOS, messages, integrity, performance assessment, and monitoring in aviation.
Components and Functions of the Map
Covers the components and functions of thematic mapping, including visual variables, map production, and interactive mapping.
Satellite Location: Reflection Surface Analysis
Explores satellite reflection surface analysis for precise positioning and its implications for tsunami prediction.
Introduction to QGIS
Covers the basics of QGIS, including project management, data manipulation, and map production.
Thematic attributes and classification
Covers statistical thematic mapping, types of thematic maps, and discretization methods for representing and classifying dataset characteristics.
Statistical Thematic Mapping: Practical Approaches and Techniques
Covers the practical aspects of creating statistical thematic maps and the necessary concepts for effective data representation.
Digital Elevation Models: Basic Concepts
Covers methods for sampling elevation and measuring elevation using leveling, photogrammetry, and LiDAR in Geographic Information Systems.
GNSS Interference Analysis: Impact on Positioning Accuracy
Explores the impact of extreme solar events on GPS positioning accuracy, revealing errors and vulnerabilities during geomagnetic storms and sun flares.
GPS Signal Structure: Evolution and Applications
Explores the evolution and structure of GPS signals, satellite tracking, and the GPS coordinate system.
Digital Elevation Models: Basic Elements
Covers digital elevation models, altitude acquisition methods, representation techniques, and relief visualization using shading and contour lines.
Cartographic Localization
Explores the challenges of cartographic localization and the evolving landscape of cartographic tools.
Geodetic Engineering: Positioning and Mapping
Explores geodetic engineering, covering spatial data theory, positioning technologies, and mapping techniques.
Localisation - Architecture
Explores the architecture of the Global Positioning System (GPS), including satellite orbits, signals, and user segments.
Map Design: Labeling and Production
Explores map design principles, emphasizing labeling and production techniques for effective communication of geographical information.
Geodetic Engineering: Positioning, Mapping, and Navigation
Explores geodetic engineering, focusing on positioning technologies, mapping, and navigation using satellites, GPS, and inertial sensors.
Satellite Localization Basics
Covers the fundamentals of satellite tracking and GPS signals.
Online Cartography: Geomatics Elements
Introduces online cartography and geomatics elements for creating thematic maps and spatial analysis.
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