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SMS (hydrology software)

January 01, 1970

SMS (Surface-water Modeling System) is a complete program for building and simulating surface water models from Aquaveo. It features 1D and 2D modeling and a unique conceptual model approach. Currently supported models include ADCIRC,[1] CMS-FLOW2D, FESWMS,[2] TABS,[3] TUFLOW,[4] BOUSS-2D,[5] CGWAVE,[6] STWAVE,[7] CMS-WAVE (WABED), GENESIS,[8] PTM, and WAM.

SMS
Developer(s)Aquaveo
Stable release
13.3 / September 2023; 8 months ago (2023-09)
Operating systemWindows
TypeSurface water modeling software
LicenseProprietary
WebsiteOfficial website
WMS
WMS 10.1 screenshot
Developer(s)Aquaveo
Stable release
11.2 / May 2023; 1 year ago (2023-05)
Operating systemWindows XP and later
Platformx86, x64
Size1.1 GB
TypeSurface-water hydrology software
LicenseProprietary
WebsiteOfficial website

Version 9.2 introduced the use of XMDF (eXtensible Model Data Format), which is a compatible extension of HDF5. XMDF files are smaller and allow faster access times than ASCII files.

The Watershed Modeling System (WMS) is a proprietary water modeling software application used to develop watershed computer simulations. The software provides tools to automate various basic and advanced delineations, calculations, and modeling processes.[9] It supports river hydraulic and storm drain models, lumped parameter, regression, 2D hydrologic modeling of watersheds, and can be used to model both water quantity and water quality. As of January 2017, supported models include HEC-1, HEC-RAS, HEC-HMS, TR-20, TR-55, NFF, Rational, MODRAT, HSPF, CE-QUAL-W2, GSSHA, SMPDBK, and other models.[10]

History edit

SMS 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 SMS was funded primarily by The United States Army Corps of Engineers and is still known as the Department of Defense Surface-water Modeling System or DoD SMS. It was later ported to Windows platforms in the mid 1990s and support for HP-UX, IRIX, OSF/1, and Solaris platforms was discontinued.

In April 2007, the main software development team at EMRL entered private enterprise as Aquaveo LLC,[11] and continue to develop SMS and other software products, such as WMS (Watershed Modeling System) and GMS (Groundwater Modeling System).

WMS was initially developed by the Engineering Computer Graphics Laboratory at Brigham Young University in the early 1990s on Unix workstations. James Nelson, Norman Jones, and Woodruff Miller wrote a 1992 paper titled "Algorithm for Precise Drainage-Basin Delineation" that was published in the March 1994 issue of the Journal of Hydraulic Engineering.[12] The paper described an algorithm that could be used to describe the flow of water in a drainage basin, thereby defining the drainage basin.

The development of WMS was funded primarily by The United States Army Corps of Engineers (COE). In 1997, WMS was used by the COE to model runoff in the Sava River basin in Bosnia.[13] The software was sold commercially by Environmental Modeling Systems.[14]

It was later ported to Windows platforms in the mid 1990s. WMS 6.0 (2000)[14] was the last supported version for HP-UX, IRIX, OSF/1, and Solaris platforms. Development of WMS was done by the Environmental Modeling Research Laboratory (EMRL) at Brigham Young University (BYU) until April 2007, when the main software development team at EMRL incorporated as Aquaveo. Royalties from the software are paid to the engineering department at BYU.[15]

The planners of the 2002 Winter Olympics, held in Salt Lake City, Utah, used WMS software to simulate terrorist attacks on water infrastructure such as the Jordanelle Reservoir.[16]

Examples of SMS Implementation edit

  • SMS modeling was used to "determine flooded areas in case of failure or revision of a weir in combination with a coincidental 100-year flood event" (Gerstner, Belzner, and Thorenz, p. 975). Furthermore, "concerning the water level calculations in case of failure of a weir, the Bavarian Environmental Agency [de] provided the Federal Waterways Engineering and Research Institute [de] with those two-dimensional depth-averaged hydrodynamic models, which are covering the whole Bavarian part of the river Main. The models were created with the software Surface-Modeling System (SMS) of Aquaveo LLC" (Gerstner, Belzner, and Thorenz, 976).[17]
  • This article "describes the mathematical formulation, numerical implementation, and input specifications of rubble mound structures in the Coastal Modeling System (CMS) operated through the Surface-water Modeling System (SMS)" (Li et al., 1). Describing the input specifications, the authors write, "Working with the SMS interface, users can specify rubble mound structures in the CMS by creating datasets for different structure parameters. Five datasets are required for this application" (Li et al., p. 3) and "users should refer to Aquaveo (2010) for generating a XMDF dataset (*.h5 file) under the SMS" (Li et al., p. 5).[18]
  • This study examined the "need of developing mathematical models for determining and predicting water quality of 'river-type' systems. It presents a case study for determining the pollutant dispersion for a section of the River Prut, Ungheni town, which was filled with polluted water with oil products from its tributary river Delia" (Marusic and Ciufudean, p. 177). "The obtained numerical models were developed using the program Surface-water Modeling System (SMS) v.10.1.11, which was designed by experts from Aquaveo company. The hydrodynamics of the studied sector, obtained using the SMS module named RMA2 [13], served as input for the RMA module 4, which determined the pollutant dispersion" (Marusic and Ciufudean, p. 178–179).[19]
  • This study focused on finding "recommendations for optimization" of the "Chusovskoy water intake located in the confluence zone of two rivers with essentially different hydrochemical regimes and in the backwater zone of the Kamskaya hydroelectric power station [ru]" (Lyubimova et al., p. 1). "A two-dimensional (in a horizontal plane) model for the examined region of the water storage basin was constructed by making use of the software product SMS v.10 of the American company AQUAVEO LLC" (Lyubimova et al., p. 2). Evaluations of the SMS-derived, two-dimensional model as well as a three-dimensional model yielded the discovery that "the selective water intake from the near-surface layers can essentially reduce hardness of potable water consumed by the inhabitants of Perm" (Lyubimova et al., p. 6).[20]

WMS Version history edit

Legend: Old version, not maintained Older version, still maintained Current stable version Latest preview version Future release
WMS Release History
Date Released Version Comments References
1995 Old version, no longer maintained: 1.0
Old version, no longer maintained: 2.0
Old version, no longer maintained: 3.0
1996 Old version, no longer maintained: 4.0
1998 Old version, no longer maintained: 5.0 First release on Windows: 95/NT
2000 Old version, no longer maintained: 6.0 Last version to support HP-UX, IRIX, OSF/1, and Solaris platforms
September 2003 Old version, no longer maintained: 7.0 Windows NT/Me/2000/XP
Old version, no longer maintained: 8.0
October 2008 Old version, no longer maintained: 8.1 [21]
April 2009 Old version, no longer maintained: 8.2 [21]
January 2010 Old version, no longer maintained: 8.3 [21]
February 2011 Old version, no longer maintained: 8.4 [21]
October 2012 Old version, no longer maintained: 9.0 [21]
February 2013 Old version, no longer maintained: 9.1 [21]
June 2014 Old version, no longer maintained: 10.0.4
June 2016 Old version, no longer maintained: 10.1.10
October 2016 Old version, no longer maintained: 10.1.11
December 20, 2017 Old version, no longer maintained: 10.1.15
March 21, 2018 Old version, no longer maintained: 10.1.16
May 21, 2018 Old version, no longer maintained: 10.1.17
August 17, 2018 Old version, no longer maintained: 11.0 [21]
February 3, 2019 Old version, no longer maintained: 11.0.2
November 7, 2019 Old version, no longer maintained: 11.0.4
July 2021 Older version, yet still maintained: 11.1 [21]
May 2023 Current stable version: 11.2 [21]

References edit

  1. ^ ADCIRC.org. ADCIRC.org (1 December 2011). Retrieved on 18 December 2011.
  2. ^ FHWA.dot.gov. FHWA.dot.gov (30 August 2011). Retrieved on 18 December 2011.
  3. ^ CHL.erdc.usace.army.mil. US Army Corps of Engineers Coastal and Hydraulics Laboratory Retrieved on 18 December 2011.
  4. ^ TUFLOW.com 27 June 2008 at the Wayback Machine. TUFLOW.com. Retrieved on 18 December 2011.
  5. ^ CHL.erdc.usace.army.mil. US Army Corps of Engineers Coastal and Hydraulics Laboratory Retrieved on 18 December 2011.
  6. ^ CHL.erdc.usace.army.mil. US Army Corps of Engineers Coastal and Hydraulics Laboratory Retrieved on 18 December 2011.
  7. ^ CHL.erdc.usace.army.mil. US Army Corps of Engineers Coastal and Hydraulics Laboratory Retrieved on 18 December 2011.
  8. ^ CHL.erdc.usace.army.mil. US Army Corps of Engineers Coastal and Hydraulics Laboratory Retrieved on 18 December 2011.
  9. ^ Edsel, B.D.; et al. (2011). "Watershed Modeling and its Applications: A State-of-the-Art Review" (PDF). The Open Hydrology Journal. 5 (1): 26–50. Bibcode:2011OHJ.....5...26D. doi:10.2174/1874378101105010026.
  10. ^ . Aquaveo. Archived from the original on 2 February 2017. Retrieved 24 January 2017.
  11. ^ Aquaveo.com. Aquaveo.com. Retrieved on 18 December 2011.
  12. ^ Nelson, E.J.; Jones, N.L.; Miller, A.W. (1994). "An algorithm for precise drainage basin delineation" (PDF). Journal of Hydraulic Engineering. 120 (3): 298–312. doi:10.1061/(ASCE)0733-9429(1994)120:3(298).
  13. ^ . Engineering Computer Graphics Laboratory. Archived from the original on 8 February 1998. Retrieved 23 January 2017.
  14. ^ a b . Environmental Modeling Systems, Inc. Archived from the original on 9 March 2000. Retrieved 23 January 2017.
  15. ^ Hollingshead, Todd (6 June 2005). "BYU prof's 3-D software makes an art out of the science of predicting a deluge". The Salt Lake Tribune. Retrieved 24 January 2017.
  16. ^ Chai, Nathan K. (Fall 2002). . BYU Magazine. Archived from the original on 10 March 2016. Retrieved 25 February 2016.
  17. ^ Gerstner, N.; Belzner, F.; Thorenz, C. (2014). Lehfeldt; Kopmann (eds.). Simulation of Flood Scenarios with Combined 2D/3D Numerical Models (PDF). International Conference on Hydroscience and Engineering, 2014. Hamburg: Bundesanstalt für Wasserbau. pp. 975–981. ISBN 978-3-939230-32-8.
  18. ^ Li, Honghai; Sanchez, Alejandro; Wu, Weiming; Reed, Christopher (August 2013). "Implementation of Structures in the CMS: Part I, Rubble Mound" (PDF). Coastal and Hydraulics Engineering Technical Notes-IV-93: 9 pages. (PDF) from the original on 2 April 2015.
  19. ^ Marusic, G.; Ciufudean, C. (June 2013). "Current state of research on water quality of Prut River" (PDF). Proceedings of the 11th WSEAS International Conference on Environment, Ecosystems and Development: 177–180.
  20. ^ Lyubimova, T.; et al. (March 2013). "Numerical modelling of admixture transport in a turbulent flow at river confluence". Journal of Physics: Conference Series. 46 (1): 012028. doi:10.1088/1742-6596/416/1/012028.
  21. ^ a b c d e f g h i "WMS:Version History". Aquaveo. 26 May 2023. Archived from the original on 15 June 2023. Retrieved 15 June 2023.

External links edit

  • US Army Corps of Engineers – DoD SMS white paper
  • SMS Documentation Wiki

January 01, 1970
hydrology, software, surface, water, modeling, system, complete, program, building, simulating, surface, water, models, from, aquaveo, features, modeling, unique, conceptual, model, approach, currently, supported, models, include, adcirc, flow2d, feswms, tabs,. SMS Surface water Modeling System is a complete program for building and simulating surface water models from Aquaveo It features 1D and 2D modeling and a unique conceptual model approach Currently supported models include ADCIRC 1 CMS FLOW2D FESWMS 2 TABS 3 TUFLOW 4 BOUSS 2D 5 CGWAVE 6 STWAVE 7 CMS WAVE WABED GENESIS 8 PTM and WAM SMSDeveloper s AquaveoStable release13 3 September 2023 8 months ago 2023 09 Operating systemWindowsTypeSurface water modeling softwareLicenseProprietaryWebsiteOfficial website WMSWMS 10 1 screenshotDeveloper s AquaveoStable release11 2 May 2023 1 year ago 2023 05 Operating systemWindows XP and laterPlatformx86 x64Size1 1 GBTypeSurface water hydrology softwareLicenseProprietaryWebsiteOfficial website Version 9 2 introduced the use of XMDF eXtensible Model Data Format which is a compatible extension of HDF5 XMDF files are smaller and allow faster access times than ASCII files The Watershed Modeling System WMS is a proprietary water modeling software application used to develop watershed computer simulations The software provides tools to automate various basic and advanced delineations calculations and modeling processes 9 It supports river hydraulic and storm drain models lumped parameter regression 2D hydrologic modeling of watersheds and can be used to model both water quantity and water quality As of January 2017 update supported models include HEC 1 HEC RAS HEC HMS TR 20 TR 55 NFF Rational MODRAT HSPF CE QUAL W2 GSSHA SMPDBK and other models 10 Contents 1 History 2 Examples of SMS Implementation 3 WMS Version history 4 References 5 External linksHistory editSMS 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 SMS was funded primarily by The United States Army Corps of Engineers and is still known as the Department of Defense Surface water Modeling System or DoD SMS It was later ported to Windows platforms in the mid 1990s and support for HP UX IRIX OSF 1 and Solaris platforms was discontinued In April 2007 the main software development team at EMRL entered private enterprise as Aquaveo LLC 11 and continue to develop SMS and other software products such as WMS Watershed Modeling System and GMS Groundwater Modeling System WMS was initially developed by the Engineering Computer Graphics Laboratory at Brigham Young University in the early 1990s on Unix workstations James Nelson Norman Jones and Woodruff Miller wrote a 1992 paper titled Algorithm for Precise Drainage Basin Delineation that was published in the March 1994 issue of the Journal of Hydraulic Engineering 12 The paper described an algorithm that could be used to describe the flow of water in a drainage basin thereby defining the drainage basin The development of WMS was funded primarily by The United States Army Corps of Engineers COE In 1997 WMS was used by the COE to model runoff in the Sava River basin in Bosnia 13 The software was sold commercially by Environmental Modeling Systems 14 It was later ported to Windows platforms in the mid 1990s WMS 6 0 2000 14 was the last supported version for HP UX IRIX OSF 1 and Solaris platforms Development of WMS was done by the Environmental Modeling Research Laboratory EMRL at Brigham Young University BYU until April 2007 when the main software development team at EMRL incorporated as Aquaveo Royalties from the software are paid to the engineering department at BYU 15 The planners of the 2002 Winter Olympics held in Salt Lake City Utah used WMS software to simulate terrorist attacks on water infrastructure such as the Jordanelle Reservoir 16 Examples of SMS Implementation editThis section contains content that is written like customer testimonies Please help improve it by removing promotional content and inappropriate external links and by adding encyclopedic content written from a neutral point of view February 2024 Learn how and when to remove this message SMS modeling was used to determine flooded areas in case of failure or revision of a weir in combination with a coincidental 100 year flood event Gerstner Belzner and Thorenz p 975 Furthermore concerning the water level calculations in case of failure of a weir the Bavarian Environmental Agency de provided the Federal Waterways Engineering and Research Institute de with those two dimensional depth averaged hydrodynamic models which are covering the whole Bavarian part of the river Main The models were created with the software Surface Modeling System SMS of Aquaveo LLC Gerstner Belzner and Thorenz 976 17 This article describes the mathematical formulation numerical implementation and input specifications of rubble mound structures in the Coastal Modeling System CMS operated through the Surface water Modeling System SMS Li et al 1 Describing the input specifications the authors write Working with the SMS interface users can specify rubble mound structures in the CMS by creating datasets for different structure parameters Five datasets are required for this application Li et al p 3 and users should refer to Aquaveo 2010 for generating a XMDF dataset h5 file under the SMS Li et al p 5 18 This study examined the need of developing mathematical models for determining and predicting water quality of river type systems It presents a case study for determining the pollutant dispersion for a section of the River Prut Ungheni town which was filled with polluted water with oil products from its tributary river Delia Marusic and Ciufudean p 177 The obtained numerical models were developed using the program Surface water Modeling System SMS v 10 1 11 which was designed by experts from Aquaveo company The hydrodynamics of the studied sector obtained using the SMS module named RMA2 13 served as input for the RMA module 4 which determined the pollutant dispersion Marusic and Ciufudean p 178 179 19 This study focused on finding recommendations for optimization of the Chusovskoy water intake located in the confluence zone of two rivers with essentially different hydrochemical regimes and in the backwater zone of the Kamskaya hydroelectric power station ru Lyubimova et al p 1 A two dimensional in a horizontal plane model for the examined region of the water storage basin was constructed by making use of the software product SMS v 10 of the American company AQUAVEO LLC Lyubimova et al p 2 Evaluations of the SMS derived two dimensional model as well as a three dimensional model yielded the discovery that the selective water intake from the near surface layers can essentially reduce hardness of potable water consumed by the inhabitants of Perm Lyubimova et al p 6 20 WMS Version history editLegend Old version not maintained Older version still maintained Current stable version Latest preview version Future release WMS Release History Date Released Version Comments References 1995 Old version no longer maintained 1 0 Old version no longer maintained 2 0 Old version no longer maintained 3 0 1996 Old version no longer maintained 4 0 1998 Old version no longer maintained 5 0 First release on Windows 95 NT 2000 Old version no longer maintained 6 0 Last version to support HP UX IRIX OSF 1 and Solaris platforms September 2003 Old version no longer maintained 7 0 Windows NT Me 2000 XP Old version no longer maintained 8 0 October 2008 Old version no longer maintained 8 1 21 April 2009 Old version no longer maintained 8 2 21 January 2010 Old version no longer maintained 8 3 21 February 2011 Old version no longer maintained 8 4 21 October 2012 Old version no longer maintained 9 0 21 February 2013 Old version no longer maintained 9 1 21 June 2014 Old version no longer maintained 10 0 4 June 2016 Old version no longer maintained 10 1 10 October 2016 Old version no longer maintained 10 1 11 December 20 2017 Old version no longer maintained 10 1 15 March 21 2018 Old version no longer maintained 10 1 16 May 21 2018 Old version no longer maintained 10 1 17 August 17 2018 Old version no longer maintained 11 0 21 February 3 2019 Old version no longer maintained 11 0 2 November 7 2019 Old version no longer maintained 11 0 4 July 2021 Older version yet still maintained 11 1 21 May 2023 Current stable version 11 2 21 References edit ADCIRC org ADCIRC org 1 December 2011 Retrieved on 18 December 2011 FHWA dot gov FHWA dot gov 30 August 2011 Retrieved on 18 December 2011 CHL erdc usace army mil US Army Corps of Engineers Coastal and Hydraulics Laboratory Retrieved on 18 December 2011 TUFLOW com Archived 27 June 2008 at the Wayback Machine TUFLOW com Retrieved on 18 December 2011 CHL erdc usace army mil US Army Corps of Engineers Coastal and Hydraulics Laboratory Retrieved on 18 December 2011 CHL erdc usace army mil US Army Corps of Engineers Coastal and Hydraulics Laboratory Retrieved on 18 December 2011 CHL erdc usace army mil US Army Corps of Engineers Coastal and Hydraulics Laboratory Retrieved on 18 December 2011 CHL erdc usace army mil US Army Corps of Engineers Coastal and Hydraulics Laboratory Retrieved on 18 December 2011 Edsel B D et al 2011 Watershed Modeling and its Applications A State of the Art Review PDF The Open Hydrology Journal 5 1 26 50 Bibcode 2011OHJ 5 26D doi 10 2174 1874378101105010026 WMS Supported Models Aquaveo Archived from the original on 2 February 2017 Retrieved 24 January 2017 Aquaveo com Aquaveo com Retrieved on 18 December 2011 Nelson E J Jones N L Miller A W 1994 An algorithm for precise drainage basin delineation PDF Journal of Hydraulic Engineering 120 3 298 312 doi 10 1061 ASCE 0733 9429 1994 120 3 298 Sava River Basin Bosnia Engineering Computer Graphics Laboratory Archived from the original on 8 February 1998 Retrieved 23 January 2017 a b WMS Home Page Environmental Modeling Systems Inc Archived from the original on 9 March 2000 Retrieved 23 January 2017 Hollingshead Todd 6 June 2005 BYU prof s 3 D software makes an art out of the science of predicting a deluge The Salt Lake Tribune Retrieved 24 January 2017 Chai Nathan K Fall 2002 Modeling the World s Waters BYU Magazine Archived from the original on 10 March 2016 Retrieved 25 February 2016 Gerstner N Belzner F Thorenz C 2014 Lehfeldt Kopmann eds Simulation of Flood Scenarios with Combined 2D 3D Numerical Models PDF International Conference on Hydroscience and Engineering 2014 Hamburg Bundesanstalt fur Wasserbau pp 975 981 ISBN 978 3 939230 32 8 Li Honghai Sanchez Alejandro Wu Weiming Reed Christopher August 2013 Implementation of Structures in the CMS Part I Rubble Mound PDF Coastal and Hydraulics Engineering Technical Notes IV 93 9 pages Archived PDF from the original on 2 April 2015 Marusic G Ciufudean C June 2013 Current state of research on water quality of Prut River PDF Proceedings of the 11th WSEAS International Conference on Environment Ecosystems and Development 177 180 Lyubimova T et al March 2013 Numerical modelling of admixture transport in a turbulent flow at river confluence Journal of Physics Conference Series 46 1 012028 doi 10 1088 1742 6596 416 1 012028 a b c d e f g h i WMS Version History Aquaveo 26 May 2023 Archived from the original on 15 June 2023 Retrieved 15 June 2023 External links editUS Army Corps of Engineers DoD SMS white paper SMS Documentation Wiki Retrieved from https en wikipedia org w index php title SMS hydrology software amp oldid 1214769523, wikipedia, wiki, book, books, library,

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