Lectures related to Perspective: Definitions and Image Construction

Projection Orthogonale: Properties and Methods

Explores the properties of orthogonal projection and the Monge method for projecting points in space.

Geometric Projections: Historical Perspectives and Applications

Explores the evolution of projective geometry and its applications in architectural representation.

Descriptive Geometry

Introduces Descriptive Geometry concepts, including conservation laws and projection methods.

Perspective: Radial Method

Covers the concept of perspective in geometry and the radial method of creating images using central projection.

Perspective: Introduction and Definitions

Covers the introduction and definitions related to perspective in descriptive geometry, emphasizing the role of the observer's position and different projection methods.

Geometric Descriptive: Straight Lines and Line Projections

Explores straight lines, line purity, and line projections in geometric descriptive.

True Sizes: Folding Method in Descriptive Geometry

Explains the folding method in descriptive geometry to determine true sizes of segments and distances between points.

Axonometry: Core Concepts

Covers the core concepts of axonometry, focusing on projection and linear dependence of vectors.

Projection Planes: Traces and Angles

Explores projection planes, angles, and traces in geometric descriptive, emphasizing perpendicularity and parallelism in planes.

Geometric Projections: Orthogonal and Monge Projections

Covers orthogonal and Monge projections in descriptive geometry, focusing on geometric properties and visualization techniques.

Introduction to GeoGebra: Quadrants and Bisector Planes

Covers the definition of section ratio and quadrants division in space.

Descriptive Geometry: Concepts and Exercises

Covers fundamental concepts and exercises in Descriptive Geometry, focusing on spatial problem-solving techniques and relative line positions.

Shape from Texture

Explores recovering surface orientation from image texture under different projections and the use of deep learning for normal prediction.

Projection of Lines in Descriptive Geometry

Explains methods for accurately projecting lines in 3D space using GeoGebra.

Affinity and Ellipses in Descriptive Geometry

Explores affinity in geometry, segment construction, ellipses, and circle projections.

Mechanical Construction I: Views and Projections

Covers the basics of mechanical construction, focusing on views correspondence, pivot lines usage, and axonometric projections.

Geometric Descriptive: Shadows and Perspective

Explores the basics of Geometric Descriptive, emphasizing shadows and perspective in 2D and 3D.

Projections: Orthographic and Perspective

Explores the transformation pipeline from 3D to 2D, covering orthographic and perspective projections.

Descriptive Geometry: Introduction to the Option

Introduces the option 'Descriptive Geometry' focusing on the projection of space onto a plane and problem-solving techniques.

Axonometry: Image of Points and True Magnitude of Segments

Explains axonometry, focusing on image of points and true magnitude of segments in 3D space.