Meeting:Abstract 2013 CSDMS meeting-082: Difference between revisions
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|CSDMS meeting first name=Sai Siddhartha | |CSDMS meeting first name=Sai Siddhartha | ||
|CSDMS meeting last name=Nudurupati | |CSDMS meeting last name=Nudurupati | ||
|CSDMS meeting institute=University of Washington | |CSDMS meeting institute=University of Washington | ||
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{{CSDMS meeting abstract template}} | |CSDMS meeting abstract title=Integration of an ‘Eco-hydrologic Component’ to a Generic Gridding Engine for 2D Modeling of Earth-Surface Dynamics | ||
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|CSDMS meeting coauthor institute / Organization=University of Washington | |||
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|CSDMS meeting coauthor first name abstract=Nicole | |||
|CSDMS meeting coauthor last name abstract=Gasparini | |||
|CSDMS meeting coauthor institute / Organization=Tulane University | |||
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|CSDMS meeting coauthor first name abstract=Eric | |||
|CSDMS meeting coauthor last name abstract=Hutton | |||
|CSDMS meeting coauthor institute / Organization=CSDMS | |||
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|CSDMS meeting coauthor first name abstract=Dan | |||
|CSDMS meeting coauthor last name abstract=Hobley | |||
|CSDMS meeting coauthor institute / Organization=University of Colorado | |||
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|CSDMS meeting abstract=This presentation discusses the implementation of component-based software design in Eco-hydrologic modeling. As a first step, we present development and integration of a radiation component that uses the local topographic variables to compute shortwave and longwave radiation data over a complex terrain for modeling Eco-hydrologic dynamics. This component is integrated to a central element that develops and maintains a grid, which represents the landscape under consideration. This component communicates with various other components such as ‘vegetation component’ and ‘soil moisture component’. This component is adapted from the Channel-Hillslope Integrated Landscape Development (CHILD) Model code and has been enhanced. Preliminary results of this study demonstrate the advantages of adopting component-based software design such as improved flexibility, interchangeability and adaptability. | |||
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Revision as of 19:23, 14 February 2013
Browse abstracts
CSDMS all hands meeting 2013
Integration of an ‘Eco-hydrologic Component’ to a Generic Gridding Engine for 2D Modeling of Earth-Surface Dynamics
Sai Siddhartha Nudurupati, University of Washington Seattle Washington, United States. saisiddu@gmail.com
Erkan Istanbulluoglu, University of Washington Seattle Washington, United States.
Greg Tucker, CIRES Boulder Colorado, United States.
Nicole Gasparini, Tulane University New Orleans Louisiana, United States.
Eric Hutton, CSDMS Boulder Colorado, United States.
Dan Hobley, University of Colorado Boulder Colorado, United States.
[[Image:|300px|right|link=File:]]This presentation discusses the implementation of component-based software design in Eco-hydrologic modeling. As a first step, we present development and integration of a radiation component that uses the local topographic variables to compute shortwave and longwave radiation data over a complex terrain for modeling Eco-hydrologic dynamics. This component is integrated to a central element that develops and maintains a grid, which represents the landscape under consideration. This component communicates with various other components such as ‘vegetation component’ and ‘soil moisture component’. This component is adapted from the Channel-Hillslope Integrated Landscape Development (CHILD) Model code and has been enhanced. Preliminary results of this study demonstrate the advantages of adopting component-based software design such as improved flexibility, interchangeability and adaptability.
