Kenneth Lippold
Brigham Young University | Student
| Subject Areas: | Hydrology |
Recent Activity
ABSTRACT:
This workshop introduces HydroServer, an open-source platform developed at Utah State University for collecting, managing, and sharing time series data from hydrologic and environmental monitoring sites. Built on the OGC SensorThings standard and extended with environmental metadata attributes, HydroServer provides a web application for site registration and data visualization, a Python client package (hydroserverpy) for programmatic data loading and retrieval, and APIs supporting both real-time sensor streaming and scheduled ETL workflows. Participants work through hands-on Jupyter notebooks covering site setup, data ingestion from CSV files, and metadata and data retrieval using hydroserverpy, with an overview of additional platform capabilities including automated data loading and a data quality control application currently in development.
Acknowledgements:
This research was supported by the Cooperative Institute for Research to Operations in Hydrology (CIROH) with funding under award NA22NWS4320003 from the NOAA Cooperative Institute Program. The statements, findings, conclusions, and recommendations are those of the author(s) and do not necessarily reflect the opinions of NOAA.
ABSTRACT:
Test
ABSTRACT:
This app is designed to run on Tethys Platform and helps support CUAHSI's HydroShare project. Its purpose is to allow HydroShare users to quickly preview hydrologic geospatial content stored in HydroShare resources.
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US Counties
ABSTRACT:
This resource includes a reference file containing NWIS WaterOneFlow endpoints for Hurricane Harvey, as well as a time series database containing observed discharge and gage height values during the event.
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ABSTRACT:
Resource Creator
ABSTRACT:
Creates timeseries and reference timeseries resources through Jupyter Hub. This version of the resource creator is compatible with the time series viewer app.
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A collection of miscellaneous geospatial data from Utah to test GeoServer capabilities.
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This Jupyter Notebook can be used to view time series data exposed via HydroShare water data services.
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Timeseries Viewer
ABSTRACT:
This resource includes a reference file containing NWIS WaterOneFlow endpoints for Hurricane Harvey, as well as a time series database containing observed discharge and gage height values during the event.
ABSTRACT:
US Counties
ABSTRACT:
This app is designed to run on Tethys Platform and helps support CUAHSI's HydroShare project. Its purpose is to allow HydroShare users to quickly preview hydrologic geospatial content stored in HydroShare resources.
Created: June 25, 2026, 9:29 p.m.
Authors: Lippold, Kenneth · Horsburgh, Jeffery S. · Slaugh, Daniel · Ramirez, Maurier
ABSTRACT:
This workshop introduces HydroServer, an open-source platform developed at Utah State University for collecting, managing, and sharing time series data from hydrologic and environmental monitoring sites. Built on the OGC SensorThings standard and extended with environmental metadata attributes, HydroServer provides a web application for site registration and data visualization, a Python client package (hydroserverpy) for programmatic data loading and retrieval, and APIs supporting both real-time sensor streaming and scheduled ETL workflows. Participants work through hands-on Jupyter notebooks covering site setup, data ingestion from CSV files, and metadata and data retrieval using hydroserverpy, with an overview of additional platform capabilities including automated data loading and a data quality control application currently in development.
Acknowledgements:
This research was supported by the Cooperative Institute for Research to Operations in Hydrology (CIROH) with funding under award NA22NWS4320003 from the NOAA Cooperative Institute Program. The statements, findings, conclusions, and recommendations are those of the author(s) and do not necessarily reflect the opinions of NOAA.