The theoretical development and practical application of three new methods for estimating the entropy parameter M used within the framework of the entropy method proposed by Chiu in the 1980s as a valid alternative to the velocity-area method for measuring the discharge in a river is here illustrated. The first method is based on reproducing the cumulative velocity distribution function associated with a flood event and requires measurements regarding the entire cross-section, whereas, in the second and third method, the estimate of M is based on reproducing the cross-sectional mean velocity by following two different procedures. Both of them rely on the entropy parameter M alone and look f...
Recent aims and developments in water resource policies and management have been to achieve a high l...
Two methods, namely the velocity-area method and the entropy method, for assessing with uncertainty ...
Discharges in hydrometric stations are estimated by converting the stage values to the discharge usi...
The theoretical development and practical application of three new methods for estimating the entrop...
It is well known that the information entropy represents a measure of the uncertainty linked to a pr...
A new methodology for estimating the discharge starting from the monitoring of surface flow velocity...
A quick and accurate determination of flow passing through a river section is fundamental for a larg...
In the last years the target of optimal management of the surface water resources has characterized ...
International audienceAn information entropy based approach for the discharge measurements is evalua...
The accuracy of three different approaches for velocity profiles assessment during high floods, when...
This paper presents a new method for reconstructing the bathymetric profile of a cross section based...
In the paper the results of the extension of the entropy velocity distribution to a data set collect...
This paper examines the discharge and velocity distributions in natural open channel flows using the...
The rating curve is the most used methodology for river flow quality and quantity monitoring and con...
Flow velocity measurements using point-velocity meters are normally obtained by sampling one, two or...
Recent aims and developments in water resource policies and management have been to achieve a high l...
Two methods, namely the velocity-area method and the entropy method, for assessing with uncertainty ...
Discharges in hydrometric stations are estimated by converting the stage values to the discharge usi...
The theoretical development and practical application of three new methods for estimating the entrop...
It is well known that the information entropy represents a measure of the uncertainty linked to a pr...
A new methodology for estimating the discharge starting from the monitoring of surface flow velocity...
A quick and accurate determination of flow passing through a river section is fundamental for a larg...
In the last years the target of optimal management of the surface water resources has characterized ...
International audienceAn information entropy based approach for the discharge measurements is evalua...
The accuracy of three different approaches for velocity profiles assessment during high floods, when...
This paper presents a new method for reconstructing the bathymetric profile of a cross section based...
In the paper the results of the extension of the entropy velocity distribution to a data set collect...
This paper examines the discharge and velocity distributions in natural open channel flows using the...
The rating curve is the most used methodology for river flow quality and quantity monitoring and con...
Flow velocity measurements using point-velocity meters are normally obtained by sampling one, two or...
Recent aims and developments in water resource policies and management have been to achieve a high l...
Two methods, namely the velocity-area method and the entropy method, for assessing with uncertainty ...
Discharges in hydrometric stations are estimated by converting the stage values to the discharge usi...