HydroViz: design and evaluation of a Web-based tool for improving hydrology education

Habib, Emad; Ma, Yu; Williams, Douglas; Sharif, Hatim O.; Hossain, Faisal

doi:10.5194/hess-16-3767-2012

Cited by 31 publications

(24 citation statements)

References 32 publications

(24 reference statements)

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“…Engaging with advances in the related disciplines of computational science and hydroinformatics through such training will help ensure future hydrologists, and in turn the science they produce, benefits from modern computational methods. To facilitate this training, Data and Modeling Driven Cybereducation (DMDC) methods [ Merwade and Ruddell , ], and educational web‐based tools [e.g., Wagener and McIntyre , ; Habib et al ., ], need to come to the forefront and ultimately form part of a holistic approach to hydrology education that considers future challenges and opportunities for hydrologists [ Sanchez et al ., ].…”

Section: Changing the Research Culturementioning

confidence: 99%

Most computational hydrology is not reproducible, so is it really science?

et al. 2016

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Reproducibility is a foundational principle in scientific research. Yet in computational hydrology the code and data that actually produces published results are not regularly made available, inhibiting the ability of the community to reproduce and verify previous findings. In order to overcome this problem we recommend that reuseable code and formal workflows, which unambiguously reproduce published scientific results, are made available for the community alongside data, so that we can verify previous findings, and build directly from previous work. In cases where reproducing large‐scale hydrologic studies is computationally very expensive and time‐consuming, new processes are required to ensure scientific rigor. Such changes will strongly improve the transparency of hydrological research, and thus provide a more credible foundation for scientific advancement and policy support.

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Section: Changing the Research Culturementioning

confidence: 99%

Most computational hydrology is not reproducible, so is it really science?

et al. 2016

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“…Standardized data and modeling-driven geoscience cybereducation (DMDGC) modules, developed and published by a dedicated community of educators, do potentially provide access to such dynamic and realistic learning experiences, while also avoiding some of the logistical barriers mentioned above (Habib et al, 2012;Merwade and Ruddell, 2012). These modules utilize contextually specific, rich, and dynamic computer simulations that allow students to interact with current field data in a fashion equivalent to professional hydrologists.…”

Section: Data-modeling-driven Geoscience Cyber-educationmentioning

confidence: 99%

Enhancing the T-shaped learning profile when teaching hydrology using data, modeling, and visualization activities

Sanchez

Ruddell

Schiesser

et al. 2016

Hydrol. Earth Syst. Sci.

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Abstract. Previous research has suggested that the use of more authentic learning activities can produce more robust and durable knowledge gains. This is consistent with calls within civil engineering education, specifically hydrology, that suggest that curricula should more often include professional perspective and data analysis skills to better develop the "T-shaped" knowledge profile of a professional hydrologist (i.e., professional breadth combined with technical depth). It was expected that the inclusion of a data-driven simulation lab exercise that was contextualized within a realworld situation and more consistent with the job duties of a professional in the field, would provide enhanced learning and appreciation of job duties beyond more conventional paper-and-pencil exercises in a lower-division undergraduate course. Results indicate that while students learned in both conditions, learning was enhanced for the data-driven simulation group in nearly every content area. This pattern of results suggests that the use of data-driven modeling and visualization activities can have a significant positive impact on instruction. This increase in learning likely facilitates the development of student perspective and conceptual mastery, enabling students to make better choices about their studies, while also better preparing them for work as a professional in the field.

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“…Wagener et al (2010) argue that the changing demands on hydrology offers an unprecedented opportunity to advance hydrology education. Recent advances in simulation models, graphical user interface developments and physical models provide opportunities for improving existing hydrology curriculum (see Shaw and Walter, 2012;Habib et al, 2012;Pathirana et al, 2012;Seibert and Vis, 2012a;Rusca et al, 2012;Rodhe, 2012;.…”

Section: Introductionmentioning

confidence: 99%

An educational model for ensemble streamflow simulation and uncertainty analysis

AghaKouchak

Nakhjiri

Habib

2013

Hydrol. Earth Syst. Sci.

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Abstract. This paper presents the hands-on modeling toolbox, HBV-Ensemble, designed as a complement to theoretical hydrology lectures, to teach hydrological processes and their uncertainties. The HBV-Ensemble can be used for inclass lab practices and homework assignments, and assessment of students' understanding of hydrological processes. Using this modeling toolbox, students can gain more insights into how hydrological processes (e.g., precipitation, snowmelt and snow accumulation, soil moisture, evapotranspiration and runoff generation) are interconnected. The educational toolbox includes a MATLAB Graphical User Interface (GUI) and an ensemble simulation scheme that can be used for teaching uncertainty analysis, parameter estimation, ensemble simulation and model sensitivity. HBV-Ensemble was administered in a class for both in-class instruction and a final project, and students submitted their feedback about the toolbox. The results indicate that this educational software had a positive impact on students understanding and knowledge of uncertainty in hydrological modeling.

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HydroViz: design and evaluation of a Web-based tool for improving hydrology education

Cited by 31 publications

References 32 publications

Most computational hydrology is not reproducible, so is it really science?

Most computational hydrology is not reproducible, so is it really science?

Enhancing the T-shaped learning profile when teaching hydrology using data, modeling, and visualization activities

An educational model for ensemble streamflow simulation and uncertainty analysis

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