GMS (software)

For other uses, see GMS.
GMS
Developer(s) Aquaveo
Stable release 10.1 (minor updates not versioned) / February 2016
Preview release 10.1 / February 2016
Operating system Microsoft Windows
Type Hydrogeology software
License Proprietary
Website http://aquaveo.com/gms.htm

GMS (Groundwater Modeling System) is a complete program for building and simulating groundwater models. It features 2D and 3D geostatistics, stratigraphic modeling and a unique conceptual model approach. Currently supported models include MODFLOW, MODPATH, MT3DMS, RT3D, FEMWATER, SEEP2D, and UTEXAS.

Version 6 introduced the use of XMDF (eXtensible Model Data Format), which is a compatible extension of HDF5. The purpose of this is to allow internal storage and management of data in a single HDF file, rather than using many flat files.

History

GMS was initially developed by the Engineering Computer Graphics Laboratory at Brigham Young University (later renamed in September 1998 to Environmental Modeling Research Laboratory or EMRL) in the late 1980s on Unix workstations. The development of GMS was funded primarily by The United States Army Corps of Engineers and is still known as the Department of Defense Groundwater Modeling System or DoD GMS. It was later ported to Windows platforms in the mid 1990s. Version 3.1 was the last supported version for HP-UX, IRIX, OSF/1, and Solaris platforms.

In April 2007, the main software development team at EMRL entered private enterprise as Aquaveo, LLC, and continue to develop GMS and other software products, such as WMS (Watershed Modeling System) and SMS (Surface-water Modeling System).

Examples of GMS implementation

References

  1. Singhal, Vijai; Goyal, Rohit (December 2011), "Development of conceptual groundwater flow model for Pali Area, India", African Journal of Environmental Science and Technology 5 (12): 1085–1092, doi:10.5897/ajest11.220
  2. Morgan, Cynthia L.; Coggins, Jay S.; Eidman, Vernon R. (August 2000), "Tradable Permits for Controlling Nitrates in Groundwater at the Farm Level: A Conceptual Model", Journal of Agricultural and Applied Economics 32 (2): 249–258
  3. Serrat-Capdevila, Aleix; et al. (2007), "Modeling climate change impacts--and uncertainty-–on the hydrology of a riparian system: The San Pedro Basin (Arizona/Sonora)", Journal of Hydrology 347: 48–66, doi:10.1016/j.jhydrol.2007.08.028
  4. Quinn, John J.; Tomasko, David; Kuiper, James A. (2006), "Modeling complex flow in a karst aquifer", Sedimentary Geology 184: 343–351, doi:10.1016/j.sedgeo.2005.11.009

External links

This article is issued from Wikipedia - version of the Tuesday, March 22, 2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.