RWater – A Cyber Enabled Tool For Hydrologic Modeling And Analysis
Data(s) |
01/08/2014
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Resumo |
Existing distributed hydrologic models are complex and computationally demanding for using as a rapid-forecasting policy-decision tool, or even as a class-room educational tool. In addition, platform dependence, specific input/output data structures and non-dynamic data-interaction with pluggable software components inside the existing proprietary frameworks make these models restrictive only to the specialized user groups. RWater is a web-based hydrologic analysis and modeling framework that utilizes the commonly used R software within the HUBzero cyber infrastructure of Purdue University. RWater is designed as an integrated framework for distributed hydrologic simulation, along with subsequent parameter optimization and visualization schemes. RWater provides platform independent web-based interface, flexible data integration capacity, grid-based simulations, and user-extensibility. RWater uses RStudio to simulate hydrologic processes on raster based data obtained through conventional GIS pre-processing. The program integrates Shuffled Complex Evolution (SCE) algorithm for parameter optimization. Moreover, RWater enables users to produce different descriptive statistics and visualization of the outputs at different temporal resolutions. The applicability of RWater will be demonstrated by application on two watersheds in Indiana for multiple rainfall events. |
Formato |
application/pdf |
Identificador |
http://academicworks.cuny.edu/cc_conf_hic/312 http://academicworks.cuny.edu/cgi/viewcontent.cgi?article=1311&context=cc_conf_hic |
Idioma(s) |
English |
Publicador |
CUNY Academic Works |
Fonte |
International Conference on Hydroinformatics |
Palavras-Chave | #2014 International Conference on Hydroinformatics HIC #Hydrological Modelling #Parallel #Grid #Cloud and Web Services Computing #Internet-centric Systems in Hydroinformatics #hydrologic modelling #hydrologic data analysis #cyberinfrastructure #HUBZero #Rstudio #R12 #Coupling and Integration of Hydrologic Models II #Environmental Sciences #Physical Sciences and Mathematics #Water Resource Management |
Tipo |
presentation |