• DocumentCode
    939561
  • Title

    Explanatory and illustrative visualization of special and general relativity

  • Author

    Weiskopf, Daniel ; Borchers, Marc ; Ertl, Thomas ; Falk, Martin ; Fechtig, Oliver ; Frank, Regine ; Grave, Frank ; King, Andreas ; Kraus, Ute ; Müller, Thomas ; Nollert, Hans-Peter ; Mendez, Isabel Rica ; Ruder, Hanns ; Schafhitzel, Tobias ; Schar, Sonja

  • Author_Institution
    Graphics, Visualization, & Usability Lab., Simon Fraser Univ., Burnaby, BC, Canada
  • Volume
    12
  • Issue
    4
  • fYear
    2006
  • Firstpage
    522
  • Lastpage
    534
  • Abstract
    This paper describes methods for explanatory and illustrative visualizations used to communicate aspects of Einstein´s theories of special and general relativity, their geometric structure, and of the related fields of cosmology and astrophysics. Our illustrations target a general audience of laypersons interested in relativity. We discuss visualization strategies, motivated by physics education and the didactics of mathematics, and describe what kind of visualization methods have proven to be useful for different types of media, such as still images in popular science magazines, film contributions to TV shows, oral presentations, or interactive museum installations. Our primary approach is to adopt an egocentric point of view: the recipients of a visualization participate in a visually enriched thought experiment that allows them to experience or explore a relativistic scenario. In addition, we often combine egocentric visualizations with more abstract illustrations based on an outside view in order to provide several presentations of the same phenomenon. Although our visualization tools often build upon existing methods and implementations, the underlying techniques have been improved by several novel technical contributions like image-based special relativistic rendering on GPUs, special relativistic 4D ray tracing for accelerating scene objects, an extension of general relativistic ray tracing to manifolds described by multiple charts, GPU-based interactive visualization of gravitational light deflection, as well as planetary terrain rendering. The usefulness and effectiveness of our visualizations are demonstrated by reporting on experiences with, and feedback from, recipients of visualizations and collaborators.
  • Keywords
    astronomy computing; cosmology; data visualisation; general relativity; rendering (computer graphics); special relativity; Einstein theory; GPU-based interactive visualization; astrophysics; cosmology; egocentric visualizations; general relativistic ray tracing; gravitational light deflection; image-based special relativistic rendering; mathematic didactics; physics education; planetary terrain rendering; scene objects; special relativistic 4D ray tracing; Acceleration; Astrophysics; Feedback; Layout; Mathematics; Physics education; Ray tracing; Rendering (computer graphics); TV; Visualization; Visualization; astrophysics; explanatory computer graphics; general relativity; illustrative visualization; special relativity; terrain rendering.; visualization of mathematics; Computer Graphics; Computer Simulation; Computer-Assisted Instruction; Imaging, Three-Dimensional; Models, Theoretical; Physics; User-Computer Interface;
  • fLanguage
    English
  • Journal_Title
    Visualization and Computer Graphics, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    1077-2626
  • Type

    jour

  • DOI
    10.1109/TVCG.2006.69
  • Filename
    1634317