An integrated socio-economic Agent-Based Modeling framework towards assessing farmers’ decision making under water scarcity and varying utility function (6.1.1)
A spatio-temporal Agent Based Modeling (ABM) framework is developed to probabilistically predict farmers’ decisions in the context of climate-induced water scarcity under varying utility optimization functions. The proposed framework forecasts farmers’ behavior assuming varying utility functions. The framework allows decision makers to forecast the behavior of farmers through a user-friendly platform with clear output visualization. The functionality of the proposed ABM is illustrated in an agriculturally dominated plain along the Eastern Mediterranean coastline.
Study area GIS data available upon request to gxh00@mail.aub.edu
Release Notes
The model aims at predicting the decision of farmer under the context of water scarcity and future land use changes.
The model runs on an annual basis.
Associated Publications
This release is out-of-date. The latest version is
1.1.0
An integrated socio-economic Agent-Based Modeling framework towards assessing farmers’ decision making under water scarcity and varying utility function 6.1.1
Submitted by
Ghinwa Harik
Published Nov 23, 2022
Last modified Nov 23, 2022
A spatio-temporal Agent Based Modeling (ABM) framework is developed to probabilistically predict farmers’ decisions in the context of climate-induced water scarcity under varying utility optimization functions. The proposed framework forecasts farmers’ behavior assuming varying utility functions. The framework allows decision makers to forecast the behavior of farmers through a user-friendly platform with clear output visualization. The functionality of the proposed ABM is illustrated in an agriculturally dominated plain along the Eastern Mediterranean coastline.
Study area GIS data available upon request to gxh00@mail.aub.edu
Release Notes
The model aims at predicting the decision of farmer under the context of water scarcity and future land use changes.
The model runs on an annual basis.
