Algorithms for model parameter estimation, state estimation, and forecasting applied to a State-Space model coupled with the Kalman Filter for one-dimensional vertical infiltration to fractured rock aquifers
The algorithms and input data included in this data release are used
to interpret time-series data (water- table altitude, precipitation, and
potential evapotranspiration) over an observation period to estimate
model parameters of a State-Space (SS) model of vertical infiltration
to a fractured-rock aquifer. The SS model is coupled with a Kalman
Filter (KF) to estimate system states (water-table altitude and
groundwater recharge) over the observation period and forecast
beyond the end of the observation period. This SS/KF model is
formulated for one-dimensional vertical infiltration and includes
preferential and diffuse flow through the unsaturated zone to the
water table.
The analysis was conducted to demonstrate the application of
the SS/KF model in characterizing responses of the groundwater
table and estimating time-varying groundwater recharge following
precipitation events. In fractured rock aquifers, rapid infiltration to
the groundwater table following precipitation may result in groundwater
contamination from surface contaminants or pathogens. The
magnitude of the time-varying groundwater recharge can be used as
surrogate to indicate time-varying contamination susceptibility of the
groundwater, as microbial, particulate and other groundwater quality
chemical indicators are unlikely to be available or are costly to
develop with the temporal frequency needed to resolve responses to
precipitation events. The SS/KF model can capitalize on currently
available technologies and telecommunication infrastructure that
deliver real-time data for water table altitudes and meteorological
inputs to conduct real-time recharge estimation and forecasting.
Thirteen simulations are conducted to demonstrate the application
of the SS/KF model to the interpretation of time series data for water
table altitude, precipitation, and potential evapotranspiration. The data
used in this demonstration are from a period of record in 1999 from the
Masser Groundwater Recharge Site in Pennsylvania, USA, which is
administered by the U.S. Department of Agriculture, Agricultural Research
Service. Seasonal (Spring, Summer, and Fall) simulations using the
SS/KF model are presented in this data release, along with the
simulations that considered the continuous records between February
and December 1999. The application of the SS/KF model is demonstrated
with 30-mminute observations for the time series data, and also using
daily observations of the time-series data. The daily observations for the
water table altitude considered both daily average and daily maximum
water table altitudes.
The algorithms used to formulate the SS/KF model and interpret the
time-series data are prepared in the software MATLAB, where functional
calls are made to available algorithms that conduct the parameter
estimation of the SS model parameters, followed by the application of
the KF to perform the estimation and forecasting of models states. The
MATLAB files developed for the simulations are available in this data
release. MATLAB is a proprietary software, and thus, a stand-alone and
executable version of the algorithms is not available in this data release.
MATLAB can be downloaded from https://www.mathworks.com. The
source and description of the time-series data used in this data release
are available in Baker et al. (https://doi.org/10.5066/P9LLXCIC). This
USGS data release contains all input and output files for the simulations
described in the associated journal article (https://doi.org/10.1029/2020WR029110).
Complete Metadata
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| description | The algorithms and input data included in this data release are used to interpret time-series data (water- table altitude, precipitation, and potential evapotranspiration) over an observation period to estimate model parameters of a State-Space (SS) model of vertical infiltration to a fractured-rock aquifer. The SS model is coupled with a Kalman Filter (KF) to estimate system states (water-table altitude and groundwater recharge) over the observation period and forecast beyond the end of the observation period. This SS/KF model is formulated for one-dimensional vertical infiltration and includes preferential and diffuse flow through the unsaturated zone to the water table. The analysis was conducted to demonstrate the application of the SS/KF model in characterizing responses of the groundwater table and estimating time-varying groundwater recharge following precipitation events. In fractured rock aquifers, rapid infiltration to the groundwater table following precipitation may result in groundwater contamination from surface contaminants or pathogens. The magnitude of the time-varying groundwater recharge can be used as surrogate to indicate time-varying contamination susceptibility of the groundwater, as microbial, particulate and other groundwater quality chemical indicators are unlikely to be available or are costly to develop with the temporal frequency needed to resolve responses to precipitation events. The SS/KF model can capitalize on currently available technologies and telecommunication infrastructure that deliver real-time data for water table altitudes and meteorological inputs to conduct real-time recharge estimation and forecasting. Thirteen simulations are conducted to demonstrate the application of the SS/KF model to the interpretation of time series data for water table altitude, precipitation, and potential evapotranspiration. The data used in this demonstration are from a period of record in 1999 from the Masser Groundwater Recharge Site in Pennsylvania, USA, which is administered by the U.S. Department of Agriculture, Agricultural Research Service. Seasonal (Spring, Summer, and Fall) simulations using the SS/KF model are presented in this data release, along with the simulations that considered the continuous records between February and December 1999. The application of the SS/KF model is demonstrated with 30-mminute observations for the time series data, and also using daily observations of the time-series data. The daily observations for the water table altitude considered both daily average and daily maximum water table altitudes. The algorithms used to formulate the SS/KF model and interpret the time-series data are prepared in the software MATLAB, where functional calls are made to available algorithms that conduct the parameter estimation of the SS model parameters, followed by the application of the KF to perform the estimation and forecasting of models states. The MATLAB files developed for the simulations are available in this data release. MATLAB is a proprietary software, and thus, a stand-alone and executable version of the algorithms is not available in this data release. MATLAB can be downloaded from https://www.mathworks.com. The source and description of the time-series data used in this data release are available in Baker et al. (https://doi.org/10.5066/P9LLXCIC). This USGS data release contains all input and output files for the simulations described in the associated journal article (https://doi.org/10.1029/2020WR029110). |
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| modified | 2020-12-11T00:00:00Z |
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| title | Algorithms for model parameter estimation, state estimation, and forecasting applied to a State-Space model coupled with the Kalman Filter for one-dimensional vertical infiltration to fractured rock aquifers |
