Lectures related to Perspective: Introduction and Definitions

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

Perspective: Definitions and Image Construction

Introduces perspective definitions and image construction methods in descriptive geometry, emphasizing radial projection principles and image construction on planes.

Axonometry: Core Concepts

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

True Sizes: Folding Method in Descriptive Geometry

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

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.

Axonometry: Image of Points and True Magnitude of Segments

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

Shape from Texture

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

Geometric Projections: Orthogonal and Monge Projections

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

Mechanical Construction I: Views and Projections

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

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.

Mechanical Design Principles: Technical Drawing and Projections

Introduces mechanical design principles, focusing on technical drawing and projection methods essential for accurate representation in engineering.

Descriptive Geometry: Fundamentals

Covers the basics of Descriptive Geometry, including projection techniques and problem-solving methods.

Perspective: Radial Method

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

Projection of Lines in Descriptive Geometry

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

Physics 1: Harmonic Oscillator and Spherical Coordinates

Explores harmonic oscillators, pendulum movement, and spherical coordinates in physics.

Geometric Descriptive: Shadows and Perspective

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

General Axonometry: Descriptive Geometry

Explores axonometry in descriptive geometry, focusing on 3D object representation and projection principles.

Descriptive Geometry: Concepts and Exercises

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