An accurate definition of river geometry is essential to implement one-dimensional (1D) hydraulic models and, in particular, appropriate spacing between cross-sections is key for capturing rivers hydraulic behaviour. This work explores the potential of an entropy-based approach, as a complementary method to existing guidelines, to determine the optimal number of cross-sections to support 1D hydraulic modelling. To this end, given a redundant collection of existing cross-sections, a location subset is selected minimizing total correlation (as a measure of redundancy) and maximizing joint entropy (as a measure of information content). The problem is posed as a multi-objective optimization problem, and solved using a genetic algorithm (NSGA-II...
The theoretical development and practical application of three new methods for estimating the entrop...
A new multi-objective evolutionary optimization approach for joint topology and pipe size design of ...
<p></p><p>ABSTRACT The sediment found in the cross section of a river or a reservoir is the result o...
Accurate modeling of rivers geometry is a relevant task in one-dimensional hydraulic models. In this...
The description of river topography has a crucial role in accurate one-dimensional (1D) hydraulic mo...
Selecting an optimum number of calibration sites for hydrological modeling is challenging. Modelers ...
This paper presents a new method for reconstructing the bathymetric profile of a cross section based...
It is well known that choosing a suitable set of cross-sections for the representation of the natura...
Choosing a suitable set of cross sections for the representation of the natural geometry of a river ...
AbstractThis paper assesses dam releases from hydropower reservoirs in order to optimize power produ...
The problem of obtaining optimal designs of water distribution systems using diameters selected from...
A quick and accurate determination of flow passing through a river section is fundamental for a larg...
Two genetic algorithms (GA) for reducing river geometry data are presented. These algorithms effecti...
A new multi-directional search approach that aims at maximizing the flow entropy of water distributi...
The theoretical development and practical application of three new methods for estimating the entrop...
The theoretical development and practical application of three new methods for estimating the entrop...
A new multi-objective evolutionary optimization approach for joint topology and pipe size design of ...
<p></p><p>ABSTRACT The sediment found in the cross section of a river or a reservoir is the result o...
Accurate modeling of rivers geometry is a relevant task in one-dimensional hydraulic models. In this...
The description of river topography has a crucial role in accurate one-dimensional (1D) hydraulic mo...
Selecting an optimum number of calibration sites for hydrological modeling is challenging. Modelers ...
This paper presents a new method for reconstructing the bathymetric profile of a cross section based...
It is well known that choosing a suitable set of cross-sections for the representation of the natura...
Choosing a suitable set of cross sections for the representation of the natural geometry of a river ...
AbstractThis paper assesses dam releases from hydropower reservoirs in order to optimize power produ...
The problem of obtaining optimal designs of water distribution systems using diameters selected from...
A quick and accurate determination of flow passing through a river section is fundamental for a larg...
Two genetic algorithms (GA) for reducing river geometry data are presented. These algorithms effecti...
A new multi-directional search approach that aims at maximizing the flow entropy of water distributi...
The theoretical development and practical application of three new methods for estimating the entrop...
The theoretical development and practical application of three new methods for estimating the entrop...
A new multi-objective evolutionary optimization approach for joint topology and pipe size design of ...
<p></p><p>ABSTRACT The sediment found in the cross section of a river or a reservoir is the result o...