Lectures related to Coordinate Transformations: Satellite Tracking

Spherical Tensors and Wigner-Eckart Theorem

Covers the transformation of vectors and tensors in quantum physics.

Galilean Transformations: Spacetime and Measurements

Explores Galilean transformations in spacetime, focusing on measurements and coordinate transformations.

Satellite Tracking: Basics and Applications

Covers the basics of satellite tracking, GPS systems, geolocation, and challenges in GNSS applications.

Satellite Localization Basics

Covers the fundamentals of satellite tracking and GPS signals.

Elements of Lie Groups and Algebras

Explores the transformation of vectors and tensors in quantum physics, emphasizing Lie groups and algebras.

GPS Signal Acquisition and Error Sources

Explores GPS signal acquisition, decoding, and error sources, emphasizing atmospheric conditions and receiver-related errors.

Vector Transformation and Tense

Explores the transformation of vectors and tensors, including rotations and representations in quantum physics.

GPS Signal Structure: Evolution and Applications

Explores the evolution and structure of GPS signals, satellite tracking, and the GPS coordinate system.

Satellite Location: Reflection Surface Analysis

Explores satellite reflection surface analysis for precise positioning and its implications for tsunami prediction.

DGPS and RTKLIB Introduction

Introduces DGPS and RTKLIB principles, correction methods, and precision analysis for GPS data processing.

Projections, Principes: Satellite Tracking and Cartography

Explores affine coordinate transformation, satellite tracking, and challenges in map projections.

Satellite Tracking and Geomatics Fundamentals

Introduces satellite tracking, GPS systems, errors, precision, and practical exercises in geomatics.

Coordinate Vector Operations

Explores coordinate vector operations, from digitizing points to transforming and manipulating geometric spaces using coordinates.

Translations and Homotheties

Explores translations and homotheties, discussing their properties and practical applications in preserving geometric characteristics.

Linear Transformations: Matrices and Applications

Covers linear transformations using matrices, focusing on linearity, image, and kernel.

Satellite Tracking: Geomatics Elements

Covers the principles of satellite localization and GPS systems, discussing history, operation modes, and error measurements.

Translations and Homotheties

Covers translations, homotheties, and their analytical expressions, emphasizing stability by composition.

Evolution GNSS

Explores the evolution and current status of Global Navigation Satellite Systems, including market growth, satellite constellations, signals, and performance.

Translations and Homotheties

Covers translations, homotheties, and geometric transformations using vectors and matrices.

Linear Applications: Definitions and Examples

Covers linear applications, properties, examples, and implications regarding the linearity of transformations.