Synthetic streamflows at different sites in a river basin are needed for planning, operation, and management of water resources projects. Modeling the temporal and spatial dependence structure of monthly streamflow at different sites is generally required. In this study, the maximum entropy copula method is proposed for multisite monthly streamflow simulation, in which the temporal and spatial dependence structure is imposed as constraints to derive the maximum entropy copula. The monthly streamflows at different sites are then generated by sampling from the conditional distribution. A case study for the generation of monthly streamflow at three sites in the Colorado River basin illustrates the application of the proposed method. Simulated ...
Streamflow simulation gives the major information on water systems to water resources planning and m...
This study aims to test the appropriateness of multivariate skew-t copula and checkerboard copula of...
In the last few decades, the frequency and intensity of water-related disasters, also called climate...
Synthetic streamflows at different sites in a river basin are needed for planning, operation, and ma...
An entropy-copula method is proposed for single-site monthly streamflow simulation. In this method, ...
An entropy-copula method is proposed for single-site monthly streamflow simulation. In this method,...
Entropy is a measure of uncertainty and has been commonly used for various applications, including p...
Using entropy theory, a new method for single-site monthly streamflow simulation is developed, which...
Abstract The copula–entropy theory combines the entropy theory and the copula theory. The entropy th...
Abstract Hydrological multivariate analysis has been widely studied using copula-based modelling, in...
Frequency analysis of streamflow is critical for water-resources system planning, water conservancy ...
Multivariate hydrologic frequency analysis has been widely studied using: (1) commonly known joint d...
Frequency analysis of streamflow is critical for water-resources system planning, water conservancy...
Reliable estimates of missing streamflow values are relevant for water resource planning and managem...
Copula functions have been extensively used to describe the joint behaviors of extreme hydrological ...
Streamflow simulation gives the major information on water systems to water resources planning and m...
This study aims to test the appropriateness of multivariate skew-t copula and checkerboard copula of...
In the last few decades, the frequency and intensity of water-related disasters, also called climate...
Synthetic streamflows at different sites in a river basin are needed for planning, operation, and ma...
An entropy-copula method is proposed for single-site monthly streamflow simulation. In this method, ...
An entropy-copula method is proposed for single-site monthly streamflow simulation. In this method,...
Entropy is a measure of uncertainty and has been commonly used for various applications, including p...
Using entropy theory, a new method for single-site monthly streamflow simulation is developed, which...
Abstract The copula–entropy theory combines the entropy theory and the copula theory. The entropy th...
Abstract Hydrological multivariate analysis has been widely studied using copula-based modelling, in...
Frequency analysis of streamflow is critical for water-resources system planning, water conservancy ...
Multivariate hydrologic frequency analysis has been widely studied using: (1) commonly known joint d...
Frequency analysis of streamflow is critical for water-resources system planning, water conservancy...
Reliable estimates of missing streamflow values are relevant for water resource planning and managem...
Copula functions have been extensively used to describe the joint behaviors of extreme hydrological ...
Streamflow simulation gives the major information on water systems to water resources planning and m...
This study aims to test the appropriateness of multivariate skew-t copula and checkerboard copula of...
In the last few decades, the frequency and intensity of water-related disasters, also called climate...