Luis Garnica
University of Texas at El Paso
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Research Associate
| Subject Areas: | computer science, hydroeconomic modeling, data |
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ABSTRACT:
Scientific models of complex water resource systems help us understand and experiment with the behavior of those systems. Most scientific modeling today requires the use of software that can be hard to understand, expensive to build and maintain, and present little online access. Many of these challenges can be tackled through the use of software that bridges the capabilities of water resource system modeling and the needs of water resource stakeholders.
The goal of the SWIM project is to advance water sustainability research capabilities through the integration, execution and interpretation of water models and participatory reasoning processes. Using the meaning of data and models, SWIM facilitates interpretations of water availability in the US Southwest and North of Mexico for stakeholder-driven analysis from the socio-environmental perspective.
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Created: Oct. 27, 2020, 9:12 p.m.
Authors: Garnica, Luis · Natalia Villanueva Rosales · Deana Pennington
ABSTRACT:
Scientific models of complex water resource systems help us understand and experiment with the behavior of those systems. Most scientific modeling today requires the use of software that can be hard to understand, expensive to build and maintain, and present little online access. Many of these challenges can be tackled through the use of software that bridges the capabilities of water resource system modeling and the needs of water resource stakeholders.
The goal of the SWIM project is to advance water sustainability research capabilities through the integration, execution and interpretation of water models and participatory reasoning processes. Using the meaning of data and models, SWIM facilitates interpretations of water availability in the US Southwest and North of Mexico for stakeholder-driven analysis from the socio-environmental perspective.