introduction to scientific visualization

Introduction to Scientific Visualization CS 4390/5390 Data Visualization Shirley Moore, Instructor October 13, 2014 1

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Introduction to Scientific Visualization. CS 4390/5390 Data Visualization Shirley Moore, Instructor October 13, 2014. SciVis aka Spatial Data Visualization. - PowerPoint PPT Presentation

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Introduction to Scientific Visualization

CS 4390/5390 Data VisualizationShirley Moore, Instructor

October 13, 2014

Page 2: Introduction to Scientific Visualization

SciVis aka Spatial Data Visualization

• SciVis emerged as a discipline in the 1980s in response to the large amount of data produced by numerical simulations of physical phenomena (e.g., fluid flow, heat convection, material deformation).

• Primary concern is visualization of 3D phenomena with emphasis on realistic renderings of volumes, surfaces, illuminations source, etc.

• Depiction of datasets that have a natural spatial embedding• Relies heavily on computer graphics• Reference: Data Visualization: Principles and Practice, by

Alexandru Telea, 2nd edition, CRC Press, 2014.

Page 3: Introduction to Scientific Visualization

SciVis Pipeline

Image credit: Alexandru Telea, Data Visualization: Principles and Practice, 2nd edition

Page 4: Introduction to Scientific Visualization

DataSet

Page 5: Introduction to Scientific Visualization

Simple Example: Visualization of a Scalar Function of Two Variables

Page 6: Introduction to Scientific Visualization

Sample 1: Single-color Gridded Surface

Page 7: Introduction to Scientific Visualization

Sample 1 Code in C++ and GLUT

• sample1.cpp• What happens if we use fewer sample points?• Viewpoint of virtual camera

Page 8: Introduction to Scientific Visualization

Sample 2 Plot))2^2^/(1sin()( yxxf

Page 9: Introduction to Scientific Visualization

Rendering Equation

• Describes relationship between incoming light, outgoing light, and material properties at a given point

• Approximate lighting effects to varying degrees of realism

• Global illumination methods– radiosity methods– ray-tracing methods

• Local illumination methods– Phong lighting model

Page 10: Introduction to Scientific Visualization

Phong-Blinn Lighting Model

• Bui-Tuong Phong, “Illumination for Computer-Generated Images”, 1973

• Jim Blinn, “Models of Light Reflections for Computer Synthesized Pictures”, 1977

Page 11: Introduction to Scientific Visualization

Phong-Blinn Lighting Model (2)

Image from Wikipedia

Phong lighting equation:I(p, v, L) = camb

Il(cdiffmax(-L . n, 0) + cspecmax(r . v, 0)α)

Page 12: Introduction to Scientific Visualization

Phong Lighting Model in OpenGL

• With flat shading: sample3.cpp• With Gouraud shading: sample4.cpp

Page 13: Introduction to Scientific Visualization

Transparency

• Draw domain grid: sample5.cpp• Draw elevation plot with transparency factor:

sample6.cpp

Page 14: Introduction to Scientific Visualization

Texture Mapping

• Map 2D texture image onto 3D elevation plot• Sample7.cpp

Page 15: Introduction to Scientific Visualization

ParaView

• http://www.paraview.org/ • Open source tool for scientific data visualization• Collaborative project between Kitware, Los Alamos National

Lab, Sandia National Lab, and Army Research Lab• Can run in parallel to process large datasets• Built on top of the Visualization Toolkit (VTK), which is a

portable open source C++ library for computer graphics and visualization– http://www.vtk.org/

• Flat and Gouraud shading examples in ParaView:– Gaussian (flat).pvsm– Gaussian (Gouraud).pvsm

http://www.paraview.org/

http://www.vtk.org/