Interactive Computer Graphics with WebGL

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72 h
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  • From www.coursera.org
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  • Self-paced
  • Free Access
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  • 12 Sequences
  • Introductive Level

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Course details

Syllabus

Week 1: Introduction and Background
    Lecture 1: Course Overview
    Lecture 2: Outline via Examples
    Lecture 3: Prerequisites and References
    Lecture 4: A Simple WebGL Example
    Lecture 5: Getting Started with WebGL
    Lecture 6: OpenGL and WebGL
    Lecture 7: HTML and Browsers
    Lecture 8: JavaScript
Week 2: WebGL
    Lecture 1: Square Program
    Lecture 2: Shader Execution Model
    Lecture 3: Square Program: The HTML file
    Lecture 4: Square Program: The JavaScript File
    Lecture 5: WebGL Primitves and Viewing
    Lecture 6: Tessellation and Twist
    Lecture 7: The Sierpinski Gasket
    Lecture 8: Moving to Three Dimensions
Week 3: The Open GL Shading Language and Interaction
    Lecture 1: Color
    Lecture 2: GLSL and Shaders
    Lecture 3: Input and Interaction
    Lecture 4: Animation
    Lecture 5: Buttons and Menus
    Lecture 6: Keyboard and Sliders
Week 4: Displaying Geometry in WebGL
    Lecture 1: Position Input
    Lecture 2: Picking
    Lecture 3: Matrices
    Lecture 4: Representation
    Lecture 5: Geometry 1
    Lecture 6: Geometry 2
    Lecture 7: Homogeneous Coordinates
    Lecture 8: Some Caveats
Week 5: Transformations
    Lecture 1: Affine Transformations
    Lecture 2: Rotation, Translation, Scaling
    Lecture3: Concatenating Transformation
    Lecture 4: Transformations in WebGL
    Lecture 5: Representing a Cube
    Lecture 6: Animating the Cube
Week 6: Viewing in WebGL
    Lecture 1: Classical Viewing
    Lecture 2: Positioning the Camera
    Lecture 3: Projection
    Lecture 4: Projection in WebGL
    Lecture 5: Orthogonal Projection Matrices
    Lecture 6: Perspective Projection Matrices
    Lecture 7: Representing and Displaying Meshes
    Lecture 8: Lighting and Shading
    Lecture 9: The Phone Lighting Model
Week 7: Lighting,  Shading and Texture Mapping
    Lecture 1: Lighting and Shading in WebGL
    Lecture 2: Polygon Shading
    Lecture 3: Per Vertex vs per Fragment Shading
    Lecture 4: Buffers in WebGL
    Lecture 5: Texture Mapping Overview
    Lecture 6: Approaches to Texture Mapping
    Lecture 7: WebGL Texture Mapping
Week 8: WebGL Texture Mapping
    Lecture 1: WebGL Texture Objects
    Lecture 2: Texture Mapping to the Cube
    Lecture 3: Texture Mapping Variations
    Lecture 4: Reflection and Environment Maps
    Lecture 5: Bump Maps
    Lecture 6: Compositing and Blending
    Lecture 7: Imaging Applications
Week 9: Using the GPU
    Lecture 1: The Mandelbrot Set
    Lecture 2: Generating the Mandelbrot Set in the CPU
    Lecture 3: Generating the Mandelbrot Set in the GPU
    Lecture 4: Framebuffer Objects
    Lecture 5: Renderbuffers
    Lecture 6: Render to Texture
Week: 10: Render-to-Texture Applications
    Lecture 1: Picking by Color
    Lecture 2: Buffer Pingponging
    Lecture 3: Diffusion Example
    Lecture 4: Agent-Based Models

Prerequisite

None.

Instructors

  • Edward Angel - Computer Science

Editor

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