Difference between revisions of "TEK5600"
From its-wiki.no
Josef.Noll (Talk | contribs) m |
Josef.Noll (Talk | contribs) |
||
Line 1: | Line 1: | ||
− | {{ | + | {{Course_short |
|Title=Visualisation of scientific data | |Title=Visualisation of scientific data | ||
|Abstract=The course presents methods for visualization of data | |Abstract=The course presents methods for visualization of data | ||
− | |News= | + | |News=http://www.uio.no/studier/emner/matnat/its/UNIK4660/ |
− | |Lecturer= | + | |Lecturer= |
− | |Organisation= | + | |Organisation=ITS |
|Keywords=Visualization, Computer graphics, Voxel Rendering, Kinematics, Animations, Line Integral Convolution, Illuminated Field Lines | |Keywords=Visualization, Computer graphics, Voxel Rendering, Kinematics, Animations, Line Integral Convolution, Illuminated Field Lines | ||
|Objective=Methods in scientific visualization is presented in this course. First a short introduction to computer graphics is given: Terminology, data representation and some algorithms for geometry building are presenter. Various rendering techniques are mentioned. Special attention is paid to textured based direct rendering or "voxel rendering", which is used extensively through the course. We consider not only how to visualize, but also what to visualize. That is the motivation for including kinematics (the science of motion) into the course. Concepts of kinematics are used when visualizing vector and tensor fields. They are used in the formulation of various schemes used to visualize time varying fields (animations). New techniques for field line visualization like "line integral convolution", "illuminated field lines" and "anisotropic diffusion" are presented. The techniques are applied to astrophysical/geophysical fluid data, computational fluid dynamics data and medical data. | |Objective=Methods in scientific visualization is presented in this course. First a short introduction to computer graphics is given: Terminology, data representation and some algorithms for geometry building are presenter. Various rendering techniques are mentioned. Special attention is paid to textured based direct rendering or "voxel rendering", which is used extensively through the course. We consider not only how to visualize, but also what to visualize. That is the motivation for including kinematics (the science of motion) into the course. Concepts of kinematics are used when visualizing vector and tensor fields. They are used in the formulation of various schemes used to visualize time varying fields (animations). New techniques for field line visualization like "line integral convolution", "illuminated field lines" and "anisotropic diffusion" are presented. The techniques are applied to astrophysical/geophysical fluid data, computational fluid dynamics data and medical data. | ||
Line 10: | Line 10: | ||
|Type of course=Master | |Type of course=Master | ||
}} | }} | ||
− | |||
− | |||
− |
Revision as of 12:13, 2 September 2017
Wiki for ITS | ||||||
---|---|---|---|---|---|---|
|
TEK5600 - Visualisation of scientific data
http://www.uio.no/studier/emner/matnat/its/UNIK4660/ by
Keywords |
---|
Abstract | The course presents methods for visualization of data |
---|---|
Keywords | Visualization, Computer graphics, Voxel Rendering, Kinematics, Animations, Line Integral Convolution, Illuminated Field Lines |
Research Area(s) | Remote Sensing & Methods |
Type of course | Master |
Upload TEK5600.png to see a course picture instead of the banner picture. Edit the page by Special:FormEdit/Course/TEK5600.