Add to ORKGThe relationship between precipitation excess and water table depth can be described by empirical time series models such as transfer function noise models, autoregressive exogenous variable models (ARX), and threshold autoregressive self-exciting open loop models. In this paper these models are interpreted in terms of the water balance of a soil column. A physically based ARX model is used to predict the effect of an intervention on the water table dynamics at two locations. It is shown that the physically based ARX model predicts the effect of interventions reasonably well
A nonlinear state-space model is developed for describing water table fluctuations in groundwater sy...
Graduation date: 1978Water tables in many soils of the Willamette Valley of Western\ud Oregon are of...
AbstractWater table depth (WTD) is an important map layer for many environmental models’ assessments...
The relationship between precipitation excess and water table depth can be described by empirical ti...
ABSTRACT Time series modelling applied to study water table depths monitoring data is an elegant wa...
The relationship between parameters of autoregressive moving average exogenous variable (ARMAX) mode...
<font size="3">Index words: groundwater head, time series analysis, physical interpretation, resampl...
A regionalised autoregressive exogenous variable (RARX) model is presented for the relationship betw...
The spatiotemporal variation of shallow water table depth is modeled with a regionalized version of ...
Time series of water table depths (Ht) are predicted in space using a regionalised autoregressive ex...
A method is developed to estimate fluctuation quantities of water-table depths independently of the ...
Summarization: The formulation of a model that can reliably simulate the temporal groundwater level ...
Groundwater, water in the ground. Although it is invisible, it is a vital resource for all terrestri...
Environmental and agricultural studies require spatial information on the soil water table level. Da...
The combined system of soil-water and shallow groundwater is modeled with simple mass balance equati...
A nonlinear state-space model is developed for describing water table fluctuations in groundwater sy...
Graduation date: 1978Water tables in many soils of the Willamette Valley of Western\ud Oregon are of...
AbstractWater table depth (WTD) is an important map layer for many environmental models’ assessments...
The relationship between precipitation excess and water table depth can be described by empirical ti...
ABSTRACT Time series modelling applied to study water table depths monitoring data is an elegant wa...
The relationship between parameters of autoregressive moving average exogenous variable (ARMAX) mode...
<font size="3">Index words: groundwater head, time series analysis, physical interpretation, resampl...
A regionalised autoregressive exogenous variable (RARX) model is presented for the relationship betw...
The spatiotemporal variation of shallow water table depth is modeled with a regionalized version of ...
Time series of water table depths (Ht) are predicted in space using a regionalised autoregressive ex...
A method is developed to estimate fluctuation quantities of water-table depths independently of the ...
Summarization: The formulation of a model that can reliably simulate the temporal groundwater level ...
Groundwater, water in the ground. Although it is invisible, it is a vital resource for all terrestri...
Environmental and agricultural studies require spatial information on the soil water table level. Da...
The combined system of soil-water and shallow groundwater is modeled with simple mass balance equati...
A nonlinear state-space model is developed for describing water table fluctuations in groundwater sy...
Graduation date: 1978Water tables in many soils of the Willamette Valley of Western\ud Oregon are of...
AbstractWater table depth (WTD) is an important map layer for many environmental models’ assessments...