In this study, an inexact two-stage water management (ITWM) model is developed for planning agricultural irrigation in the Zhangweinan River Basin, China. The ITWM model is derived from the incorporation of interval-parameter programming (IPP) within a two-stage stochastic programming (TSP) framework. It can reflect not only uncertainties expressed as probability distributions but also interval numbers. Moreover, it can provide an effective linkage between conflicting economic benefits and the associated penalties attributed to the violation of the predefined policies. Four decision scenarios associated with different water-resources management policies are examined. Targeted incomes, recourse costs, and net system benefits under different ...
In this study, a stochastic rough-approximation water management model (SRAWM) associated with optim...
A two-stage inexact-probabilistic programming (TIPP) method was developed for water quality manageme...
With population growth and water scarcity, efficient crop production has drawn attention worldwide. ...
In this study, a nonlinear inexact two-stage management (NITM) model is proposed for optimal agricul...
Irrigation water management is crucial for agricultural production and livelihood security in many r...
In this paper, an inexact two-stage stochastic programming model was developed for supporting region...
Water resources availability has a significant impact on agricultural land-use planning, especially ...
In this study, an interval-parameter fuzzy-stochastic two-stage programming (IFSTP) approach is deve...
Agricultural water scarcity is a global problem and this reinforces the need for optimal allocation ...
Farmland management and irrigation scheduling are vital to a productive agricultural economy. A mult...
In this study, an interval quadratic fuzzy dependent-chance programming (IQFDCP) model is proposed f...
In this study, an interval-parameter two-stage stochastic integer programming model (ITSIP) was deve...
In this study, an interval-parameter two-stage stochastic integer programming model (ITSIP) was deve...
To optimize the water distribution of three industries based on the water demand prediction under mu...
At present, the shortage of water resources has become a serious constraint to the further developme...
In this study, a stochastic rough-approximation water management model (SRAWM) associated with optim...
A two-stage inexact-probabilistic programming (TIPP) method was developed for water quality manageme...
With population growth and water scarcity, efficient crop production has drawn attention worldwide. ...
In this study, a nonlinear inexact two-stage management (NITM) model is proposed for optimal agricul...
Irrigation water management is crucial for agricultural production and livelihood security in many r...
In this paper, an inexact two-stage stochastic programming model was developed for supporting region...
Water resources availability has a significant impact on agricultural land-use planning, especially ...
In this study, an interval-parameter fuzzy-stochastic two-stage programming (IFSTP) approach is deve...
Agricultural water scarcity is a global problem and this reinforces the need for optimal allocation ...
Farmland management and irrigation scheduling are vital to a productive agricultural economy. A mult...
In this study, an interval quadratic fuzzy dependent-chance programming (IQFDCP) model is proposed f...
In this study, an interval-parameter two-stage stochastic integer programming model (ITSIP) was deve...
In this study, an interval-parameter two-stage stochastic integer programming model (ITSIP) was deve...
To optimize the water distribution of three industries based on the water demand prediction under mu...
At present, the shortage of water resources has become a serious constraint to the further developme...
In this study, a stochastic rough-approximation water management model (SRAWM) associated with optim...
A two-stage inexact-probabilistic programming (TIPP) method was developed for water quality manageme...
With population growth and water scarcity, efficient crop production has drawn attention worldwide. ...