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Theory and Applications of Uncertainty Analysis for Extreme Event Hydrometry — CIROH DevCon 2026 Workshop
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| Created: | May 28, 2026 at 5:18 p.m. (UTC) | |
| Last updated: | May 28, 2026 at 5:34 p.m. (UTC) | |
| Citation: | See how to cite this resource | |
| Content types: | CSV Content |
| Sharing Status: | Discoverable (Accessible via direct link sharing) |
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Abstract
This HydroShare resource accompanies the 90-minute workshop "Theory and Applications of Uncertainty Analysis for Extreme Event Hydrometry," delivered at the CIROH Developers Conference (DevCon 2026) at the University of Utah, Salt Lake City, on May 29, 2026.
The workshop introduces practitioners to the Guide to the Expression of Uncertainty in Measurement (GUM) framework and its application to streamflow measurements during extreme hydrologic events. Three Jupyter notebooks guide participants through (1) a warm-up Pitot-tube velocity example with two input quantities, (2) a full mid-section current-meter discharge computation with a complete Type A / Type B uncertainty budget, sensitivity coefficients, expanded uncertainty, and a Monte-Carlo cross-check, and (3) an optional supplementary exercise on a partly-full sewer pipe involving a non-linear
data reduction equation.
Supporting CSV files reproduce a worked cross-section from Boiten (2000), repeated-velocity replicates calibrated to match published Type A uncertainty, an ISO 748 / ISO 1088 / WMO 2011 source inventory, and calliper-diameter replicates from Bertrand-Krajewski & Muste (2008). All materials are designed to run on the CIROH 2i2c JupyterHub or any standard scientific Python stack (numpy, pandas, matplotlib).
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This resource is shared under the Creative Commons Attribution CC BY.
http://creativecommons.org/licenses/by/4.0/
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