This contribution describes a new Artificial Neural Network (ANN) able to predict at once the main parameters representative of the wave-structure interaction processes, i.e. the wave overtopping discharge, the wave transmission coefficient and the wave reflection coefficient. The development of this ANN started with the preparation of a new extended and homogeneous database (derived from CLASH database) which collects all the available tests including at least one of the three parameters, for a total amount of 16,165 data. Some of the existing ANNs were compared and improved, leading to the selection of a final ANN, whose architecture was optimized through an in-depth sensitivity analysis to the learning and training ANN features. The new ...
The European Union funded project DELOS was focused on wave transmission and an extensive database o...
One of the main objectives within the EU-project CLASH (www.clash-eu.org) was to create a generic pr...
The European Union funded project DELOS was focused on wave transmission and an extensive database o...
This contribution describes a new Artificial Neural Network (ANN) able to predict at once the main p...
This contribution describes a new Artificial Neural Network (ANN) able to predict at once the main p...
This contribution presents a new Artificial Neural Network (ANN) tool that is able to predict the ma...
The goal of this work is to present the Artificial Neural Network (ANN) tool released with the secon...
This paper focuses on new methods that have been implemented and tested in the artificial neural net...
This paper presents an Artificial Neural Network (ANN) to predict the wave overtopping discharge at ...
The goal of this work is to present a synthesis of the improvements and updates developed to deliver...
AbstractIn this paper, an implementation study was undertaken to employ Artificial Neural Networks (...
This paper presents the results of the application of an Artificial Neural Network for the predictio...
In this paper, an implementation study was undertaken to employ Artificial Neural Networks (ANN) in ...
This paper presents the development of an Artificial Neural Network for the prediction of the wave r...
The European Union funded project DELOS was focused on wave transmission and an extensive database o...
One of the main objectives within the EU-project CLASH (www.clash-eu.org) was to create a generic pr...
The European Union funded project DELOS was focused on wave transmission and an extensive database o...
This contribution describes a new Artificial Neural Network (ANN) able to predict at once the main p...
This contribution describes a new Artificial Neural Network (ANN) able to predict at once the main p...
This contribution presents a new Artificial Neural Network (ANN) tool that is able to predict the ma...
The goal of this work is to present the Artificial Neural Network (ANN) tool released with the secon...
This paper focuses on new methods that have been implemented and tested in the artificial neural net...
This paper presents an Artificial Neural Network (ANN) to predict the wave overtopping discharge at ...
The goal of this work is to present a synthesis of the improvements and updates developed to deliver...
AbstractIn this paper, an implementation study was undertaken to employ Artificial Neural Networks (...
This paper presents the results of the application of an Artificial Neural Network for the predictio...
In this paper, an implementation study was undertaken to employ Artificial Neural Networks (ANN) in ...
This paper presents the development of an Artificial Neural Network for the prediction of the wave r...
The European Union funded project DELOS was focused on wave transmission and an extensive database o...
One of the main objectives within the EU-project CLASH (www.clash-eu.org) was to create a generic pr...
The European Union funded project DELOS was focused on wave transmission and an extensive database o...