Singapore University of Social Sciences

Advanced Graphics Design (MTD203)

Synopsis

*** Students are strongly encouraged to have taken MTH102 Matrices and Transformations before registering for this course.*** MTD203 Advanced Graphics Design introduces students the mathematics and optics for computer graphics. At the end of the course, students will possess basic knowledge in geometry and optics for computer graphics, so that they can describe the detailed mechanism of ray tracing. In this course, the basic geometry includes vectors, matrices, transformation, and line-object intersection. The basic optics includes lighting, reflection model, shading, and reflection/refraction vectors.

Level: 2
Credit Units: 5
Presentation Pattern: Every January
E-Learning: BLENDED - Learning is done MAINLY online using interactive study materials in Canvas. Students receive guidance and support from online instructors via discussion forums and emails. This is supplemented with SOME face-to-face sessions. If the course has an exam component, this will be administered on-campus.

Topics

  • Vectors
  • Matrices
  • Basic transformations
  • Composite transformations
  • Lines and Planes
  • Ray-Object Intersections
  • Lighting
  • Reflection model
  • Shading
  • Reflection vector
  • Refraction vector
  • Ray tracing

Learning Outcome

  • Discuss the operations and properties of vectors, including the geometrical meaning of the operations.
  • Solve the operations and properties of matrices
  • Demonstrate the transformation operations including scaling, translation, rotation, and composite transformation
  • Calculate the intersection between a ray and an object
  • Explain the 3D geometry of lines, planes
  • Describe the surface intersections and normal vector calculation
  • Explain the concepts of lighting, shading, and reflection
  • Illustrate the concept of ray tracing
  • Calculate vector and matrix arithmetic
  • Solve the roots of quadratic polynomials
  • Calculate the intersection between a ray and an object
  • Compute pixel intensity based on Phong reflection model and shading techniques
  • Solve reflection and refraction vectors
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