INDEX

How to Use VRML and MHD Code
（Using the Fortran and C）

JST Computer Science and Technology Promotion Program
"The Development of Space Simulation Net-Laboratory System"

Grant-in-Aid from Japan Society for the Promotion Science (JSPS) (A)(1)
"Study of Solar Wind-Magnetosphere-Ionosphere Dynamics Using
Common Parallel Computation Codes in MHD and Particle Simulation"


The research and development plan and content of the standard MHD code and 
the three-dimensional visualization tool 
Tatuki Ogino ( Solar-Terrestrial Environment Laboratory, Nagoya University )

(1) Research and development objectives of the three year plan in 2000-2002 are:
    *To open standard MHD code and to use network;
    *To integrate the visualization according to the VRML(netVR, Web3D）;  
    *To preparate  contents by the global MHD simulation of the earth's magnetosphere;
    *To preparate intelligent database and educational material about MHD simulation.

(2) Research and development content in the 2000 fiscal year are:
    *To develope and offer one standard MHD code;
    *To develope and standardize the visualization tool according to the VRML;
    *To use promotion passed with the network;
    *To study the magnetic reconnection in the earth's magnetosphere;
    *To simulate the earth's magnetosphere by using observation data as input.
(3) Research and development situation in the 2001 fiscal year are:
    *To develope and offer standard MHD code;
     By giving description, one complete MHD code is offered in Web.
    *To develope and standardize and offer of the visualization tool according to the VRML;
     The manual of the 0th edition of "How to Use VRML" is made.
    *To present the procedure of application,examples and contents to the three-dimensional 
     global MHD simulation of interaction between the solar wind and the earth's magnetosphere. 
    *To establish the methods to request simulation runs and to obtain graphic results 
     through Web home page.

Standard MHD code and three-dimensional visualization tool
mhdmodel       :The three-dimensional and global MHD simulation code of the earth's magnetosphere
  eartha       :3D MHD model with 1/2 volume (IMF By and Bz)
  earthb       :3D MHD model with 1/4 volume (IMF Bz only)
  earthc       :3D MHD model with 1/2 volume (dipole tilt)
  mhd3a        :MHD test programs (processing capability)

vrml             :The Fortran for the three-dimensional visualization according to the VRML Program
  vrmanual.doc   :How to Use VRML (WORD)(Japanese)
  e_vrmanual.doc :How to Use VRML (WORD)
  vrmanual.pdf   :How to Use VRML (PDF)(Japanese)
  e_vrmanual.pdf :How to Use VRML (PDF)
  vrhtml         :The Fortran  Program and example (HTML)(Japanese)
  e_vrhtml       :The Fortran  Program and example (HTML)
  vrml1          :The fundamental Fortran  Program
  vrml2          :The fundamental Fortran  Program and application

postscript     :Image processing Program according to the PostScript language
  postsc1      :examples of test PostScript program
  postsc2      :color code example of PostScript program

mhdmodel2 　　：Visualization to Various 3-dimensional MHD Models of Earth's Magnetosphere
  eartha　　　：Half volume model of earth's magnetosphere with IMF By and Bz components
  earthb　　　：Quarter volume model of earth's magnetosphere
  earthbq　 　：Quarter volume model of earth's magnetosphere (a quarter display)
  earthc　　　：Half volume model of earth's magnetosphere with dipole tilt
  earthd　　　：Whole volume model of earth's magnetosphere

Related topics  
hpfja          :The three-dimensional and global MHD code of the magnetosphere by HPF/JA
  heartha      :The MHD code by HPF/JA ( boundary condition, etc. )
  hearthb      :The MHD code by HPF/JA ( complete code )
  hwave        :Simulation code of the wave equation by HPF/JA

vppfort        :The three-dimensional and global MHD code of the earth's magnetosphere according to the VPP Fortran
  pwave        :Simulation code of the wave equation according to the VPP Fortran
  vearthb      :The MHD code according to the VPP Fortran ( boundary condition, etc. )


Acknowledgements:

Individual subroutines in this manual, "How to Use VRML" have been
developed by the project team of "Development and standardization of the
visualization tool by the VRML" of the Solar-Terrestrial Environment
Laboratory, Nagoya University from 1997, and it was arranged by the JST
Computer Science and Technology Promotion Program, "The Development of
Space Simulation Net-Laboratory System" as the original manual. Then it
has been successively developed by Grant-in-Aid from Japan Society
for the Promotion Science (JSPS) (A)(1) "Study of Solar
Wind-Magnetosphere-Ionosphere Dynamics Using Common Parallel Computation
Codes in MHD and Particle Simulation" and was finally arranged by
Grant-in-Aid for Publication of Scientific Research Results, "Space
Weather International Collaborative Research Database in Japan" as the
present manual. The computer simulation was performed on Fujitsu
VPP5000-16PE in the Information Technology Center of Nagoya University

Project team of "Development and standardization of the visualization
tool by the VRML"

Tatsuki Ogino ( Leader )
Maki Nakao
Yuka Kadowaki
Minako Suganuma
Manami Inayoshi
Koichi Ota
Keiichiro Fukazawa
Dai Owaki
Kazuhide Sawada

March, 2004
Solar-Terrestrial Environment Laboratory, Nagoya University
3-13 Honohara, Toyokawa, Aichi 442-8507, Japan
TEL:+81-533-89-5207 FAX:+81-533-89-5090
E-mail:ogino[AT]stelab.nagoya-u.ac.jp