Litcius/Paper detail

Interactive hydrological modelling and simulation on client-side web systems: an educational case study

Gregory J. Ewing, Ricardo Mantilla, Witold F. Krajewski, İbrahim Demir

2022Journal of Hydroinformatics23 citationsDOIOpen Access PDF

Abstract

Abstract Computational hydrological models and simulations are fundamental pieces of the workflow of contemporary hydroscience research, education, and professional engineering activities. In support of hydrological modelling efforts, web-enabled tools for data processing, storage, computation, and visualization have proliferated. Most of these efforts rely on server resources for computation and data tasks and client-side resources for visualization. However, continued advancements of in-browser, client-side compute performance present an opportunity to further leverage client-side resources. Towards this end, we present an operational rainfall-runoff model and simulation engine running entirely on the client side using the JavaScript programming language. To demonstrate potential uses, we also present an easy-to-use in-browser interface designed for hydroscience education. Although the use case presented here is self-contained, the core technologies can extend to leverage multi-core processing on single machines and parallelization capabilities of multiple clients or JavaScript-enabled servers. These possibilities suggest that client-side hydrological simulation can play a central role in a dynamic, interconnected ecosystem of web-ready hydrological tools.

Topics & Concepts

Client-sideJavaScriptComputer scienceServer-sideLeverage (statistics)WorkflowVisualizationWeb-based simulationServerDistributed computingComputationWeb applicationWorld Wide WebWeb serviceDatabaseWeb APIWeb developmentArtificial intelligenceProgramming languageHydrology and Watershed Management StudiesPrecipitation Measurement and AnalysisEnvironmental Monitoring and Data Management