Requirements/prerequisites: 262 is required for 3D4;
Some knowledge of Ordinary Differential Equations, and of Newton's Laws.
Duration:
9+11 Weeks
Number of lectures per week:
Assessment:
End-of-year Examination:
The 342 and 3D4 sections are assessed separately. The overall result is the
average of the results for the two sections.
Description:
Ths course consists of 342 (for Michaelmas Term) plus 3D4 for the second semester.
Description:
The course provides a practical introduction to some numerical techniques for simulating physical systems.
Description:
Design is considered to be an interactive process involving
specification, synthesis, presentation, analysis, evaluation and
modification. Computers are central to engineering and the design of
complex machines, structures and processes relies upon modern high
speed computers. Computer-Aided Design(CAD) is concerned with the
provision and use of a number of carefully chosen computer-based tools
and techniques intended to facilitate and possibly automate the work
of the designer.
The objective of this course (3D4 followed by 4D4 next year) is to equip the students with the fundamental understanding of the major elements of CAD and related areas including design, computer graphics, geometric modelling, simulation, robotics and computer vision. The course concentrates on the bridge between theory and its practice and is a good preparation for a career that may span several specialisms.
Introduction to 3D viewing operations
Projections, View volumes and clipping in 3D
Visual realism (hidden line/surface removal, shading, etc)
Engineering applications
The 3D pipeline
Transformations in 3D
Viewing and Projection
Shading and Illumination
Phong Illumination Model
Phong and Gouraud Shading
Image Synthesis
Introductory discussion on Global Illumination techniques (e.g. Raytracing, Radiosity)
*Some changes in the above syllabi can be expected every year.
Mar 27, 2003