1 / 10

Virtual Environments and the CAVE in Engineering Science and Mechanics

Ronald D. Kriz, Ali Nayfeh, Pavlos Vlachos, Ali Etebari, and Sanjiv Parikh University Visualization and Animation Group Department of Engineering Science and Mechanics. Virtual Environments and the CAVE in Engineering Science and Mechanics. October 1, 2001, 7:30pm. U V A G.

pough
Download Presentation

Virtual Environments and the CAVE in Engineering Science and Mechanics

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Ronald D. Kriz, Ali Nayfeh, Pavlos Vlachos, Ali Etebari, and Sanjiv Parikh University Visualization and Animation Group Department of Engineering Science and Mechanics Virtual Environments and the CAVE inEngineering Science and Mechanics October 1, 2001, 7:30pm U V A G

  2. ONR Crane-Ship Simulation in the CAVE Prof. Ali Nayfeh, ESM Eric Tester CS Dr. Lance Arsenault, CS

  3. CAVE ONR-NavCIITI Task2.1 C & C Visualization CONnical acoustic arRAY CONRAY model I-Desk Desktop U V A G R. Kriz Das Neves

  4. ASPIRES: Combining visualization with haptic feedback to enhance molecular docking 6-DOF with force haptic feedback along x-y-z Haptic device on the right is linked to the molecule (boundary highlighted) above where the researcher/student can feel the force / atomic potentials associated with docking the molecule onto the large protein structure.

  5. Combining Visualization with Haptic Feedback to Enhance Molecular Docking (http://www.sv.vt.edu/future/cave/resprj/idock/idock.html) D. Bevan, Biochemisty L. Watson, Computer Sci R. Kriz & S. Parikh, ESM U V A G Beowulf Cluster “Future Simulations” D. Bevan L. Watson R. Kriz S. Parikh

  6. Combined Research Curriculum Development http://www.jwave.vt.edu/crcd Network Program Interface Builder (NPIB) is a rapid application deve- lopment tool that researchers could use to create, maintain, and archive numerous parametric studies based on their legacy computer simulations. D. Farkas, MSE R. Batra, ESM Nano Macro U V A G R. Kriz, ESM Micro

  7. Example: 3D Wave Surface Working “Real-Time” Archive U V A G Submit

  8. email notifies user simulation completed Results Viewed at Desktop U V A G Results.html Results Viewed In the CAVE (see next slide)

  9. Fourth order tensor glyph viewed in the CAVE Used in ESM5344 “Wave Propagation in Solids” to study anisotropies associated with crystal class symmetries. These geometries are also used to study reflected and refracted interface waves.

  10. Visualization and Analysis of Complex Flows in a Cardiovascular System A. Etebari, P. Vlachos, R. Kriz Engineering Science and Mechanics Desk-top, I-Desk, CAVE Ali Etebari stress tensor glyph U V A G

More Related