Presentation Index
. . .

· Title PageVirtual Reality in Geosciences
· OutlinePresentation Outline
· B01_VETLVETL WWW Home Page
· B02_hdwrHardware Available for Research at the VETL
· B03_HMDHead Mounted Display Device at Johnson Space Center
· B04vrJSCVirtual Reality at NASA's Johnson's Space Center
· B05_FdbkExample of Haptic Feedback Device
· B06ChairChair Used in Shared Virtual Reality Training Exercise
· B07_C_3DChair Used to Simulate Movement Through Virtual Environments
· B08_EVLDescription of The CAVE Virtual Environments at
The Electronic Visualization Laboratory, Chicago-University of Illinois
· C01_LinCLinCom Corporation WWW Home Page
· C02_ArchThe VR Architecture at VETL
· C03_W3DWalden 3-D, Inc. WWW Home Page
· D01astroJohnson Space Center Astronauts with Head Mounted Displays
· D02_HubbHubble Training Exercise
· D03_SHVRExtra-Vehicular Activity Training Exercise
· E01_NewtNewton's World
· E02_MW_sMaxwell's World - Single Dipole
· E03_MW_dMaxwell's World - Dipole
· E04_PaulPauling's World
· F01_4D_Monitoring4D Seismic Monitoring of Hydrocarbon Drainage
· F02_locaLocation of the Study Area and Orientation of 3-D Surveys
· F03_1985Two Seismic Volumes are Oriented into a Common Grid
· F04_1992Two Seismic Volumes are Oriented into a Common Grid
· F05_analQualitative Seismic Amplitude Analysis
· F06_diff4-D Seismic Amplitude Difference Shown in 3-D
· F07_AIQuantitative Acoustic Impedance Analysis
· F08_AI2Nonlinear Inversion of the Real Seismic Trace
· F09_bandAmplitude Spectra Inversion, Impedance Log, and Seismic Trace
· F10w1985The Extracted Seismic Wavelet Cubes from 4-D Non-linear Seismic Inversion
· F11w1992The Extracted Seismic Wavelet Cubes from 4-D Non-linear Seismic Inversion
· F12c1985Dynamically Extracted Seismic Wavelets Concatinated Together
· F13c1992Dynamically Extracted Seismic Wavelets Concatinated Together
· F14v1985Inverted Acoustic Impedance Volume
· F15v1992Inverted Acoustic Impedance Volume
· F16_payPossible Bypassed Pay
· F17_mapStructure Map of the LF Sand Top
· F18drainDrainage Patterns of the LF Reservoir
· F19_concConclusions on GBRN/4-D Consortium Research
· G01locatLocation of 3 SEM Seismic Surveys
· G02_wellTop-of-Salt from Well Control
· G03_Ln36Line 36, SEM High-Resolution Survey
· G04perspPerspective Display of Top-of-Caprock and Proposed Caverns
· G05_SeisSeisCube Display of SEM Survey with Interpreted Displacements
· G06_SurfSurfCube Display of SEM Results
· G07_compSEM Composite Map from 3 Seismic Surveys
· G08_sectSEM Composite Cross-Section from 3 Seismic Surveys
· G09SurfCSEM Composite SurfCube Display
· G10_ZoomZoom Showing Relative Size of Proposed Caverns
· G11PerspPerspective Showing Relative Size of Proposed Caverns
· H01molecACT Molecule
· H02_SEMSEM Horizon
· H03_HORZClose-Up of Seismic Horizon
· H04ACTINACTIN Protein
· H05_HIVHIV Protein
· I01_dotsSeismic Samples from `Stonehenge' Physical Model
· I02_triaTriangulated Surface across `Stonehenge' Physical Model Seismic Samples
· I03_fillFilled Surface across `Stonehenge' Physical Model Seismic Samples
· I04_surfColored Surface across `Stonehenge' Physical Model Seismic Samples
· I05closeCloseup of Surface across `Stonehenge' Physical Model Seismic Samples
· I06_cubeSEM Seismic Cube formated for CAVE DISPLAY
· SummaryVirtual Reality Technologies are important to the Geosciences
· AcknowledgementsWho Helped Put This Presentation Together

Copyright © 1996 Walden 3-D, Inc.