Building Suitable Datasets for Soft Computing and Machine Learning Techniques from Meteorological Data Integration: A Case Study for Predicting Significant Wave Height and Energy Flux

Building Suitable Datasets for Soft Computing and Machine Learning Techniques from Meteorological Data Integration: A Case Study for Predicting Significant Wave Height and Energy Flux

Meteorological data are extensively used to perform environmental learning. Soft Computing (SC) and Machine Learning (ML) techniques represent a valuable support in many research areas, but require datasets containing information related to the topic under study. Such datasets are not always availab...

Full description

Bibliographic Details
Main Authors: Antonio Manuel Gómez-Orellana, Juan Carlos Fernández, Manuel Dorado-Moreno, Pedro Antonio Gutiérrez, César Hervás-Martínez
Format: Article
Language:English
Published: MDPI AG 2021-01-01
Series:Energies
Subjects:
environmental prediction
renewable energy resource evaluation
meteorological data
reanalysis data
marine energy
soft computing
Online Access:https://www.mdpi.com/1996-1073/14/2/468
id doaj-6de2d7c4e85945f7b18416cb9dc5c99a
record_format Article
spelling doaj-6de2d7c4e85945f7b18416cb9dc5c99a2021-01-18T00:01:00ZengMDPI AGEnergies1996-10732021-01-011446846810.3390/en14020468Building Suitable Datasets for Soft Computing and Machine Learning Techniques from Meteorological Data Integration: A Case Study for Predicting Significant Wave Height and Energy FluxAntonio Manuel Gómez-Orellana0Juan Carlos Fernández1Manuel Dorado-Moreno2Pedro Antonio Gutiérrez3César Hervás-Martínez4Department of Computer Science and Numerical Analysis, University of Cordoba, 14071 Córdoba, SpainDepartment of Computer Science and Numerical Analysis, University of Cordoba, 14071 Córdoba, SpainDepartment of Computer Science and Numerical Analysis, University of Cordoba, 14071 Córdoba, SpainDepartment of Computer Science and Numerical Analysis, University of Cordoba, 14071 Córdoba, SpainDepartment of Computer Science and Numerical Analysis, University of Cordoba, 14071 Córdoba, SpainMeteorological data are extensively used to perform environmental learning. Soft Computing (SC) and Machine Learning (ML) techniques represent a valuable support in many research areas, but require datasets containing information related to the topic under study. Such datasets are not always available in an appropriate format and its preparation and pre-processing implies a lot of time and effort by researchers. This paper presents a novel software tool with a user-friendly GUI to create datasets by means of management and data integration of meteorological observations from two data sources: the National Data Buoy Center and the National Centers for Environmental Prediction and for Atmospheric Research Reanalysis Project. Such datasets can be created using buoys and reanalysis data through customisable procedures, in terms of temporal resolution, predictive and objective variables, and can be used by SC and ML methodologies for prediction tasks (classification or regression). The objective is providing the research community with an automated and versatile system for the casuistry that entails well-formed and quality data integration, potentially leading to better prediction models. The software tool can be used as a supporting tool for coastal and ocean engineering applications, sustainable energy production, or environmental modelling; as well as for decision-making in the design and building of coastal protection structures, marine transport, ocean energy converters, and well-planned running of offshore and coastal engineering activities. Finally, to illustrate the applicability of the proposed tool, a case study to classify waves depending on their significant height and to predict energy flux in the Gulf of Alaska is presented.https://www.mdpi.com/1996-1073/14/2/468environmental predictionrenewable energy resource evaluationmeteorological datareanalysis datamarine energysoft computing
collection DOAJ
language English
format Article
sources DOAJ
author Antonio Manuel Gómez-Orellana
Juan Carlos Fernández
Manuel Dorado-Moreno
Pedro Antonio Gutiérrez
César Hervás-Martínez
spellingShingle Antonio Manuel Gómez-Orellana
Juan Carlos Fernández
Manuel Dorado-Moreno
Pedro Antonio Gutiérrez
César Hervás-Martínez
Building Suitable Datasets for Soft Computing and Machine Learning Techniques from Meteorological Data Integration: A Case Study for Predicting Significant Wave Height and Energy Flux
Energies
environmental prediction
renewable energy resource evaluation
meteorological data
reanalysis data
marine energy
soft computing
author_facet Antonio Manuel Gómez-Orellana
Juan Carlos Fernández
Manuel Dorado-Moreno
Pedro Antonio Gutiérrez
César Hervás-Martínez
author_sort Antonio Manuel Gómez-Orellana
title Building Suitable Datasets for Soft Computing and Machine Learning Techniques from Meteorological Data Integration: A Case Study for Predicting Significant Wave Height and Energy Flux
title_short Building Suitable Datasets for Soft Computing and Machine Learning Techniques from Meteorological Data Integration: A Case Study for Predicting Significant Wave Height and Energy Flux
title_full Building Suitable Datasets for Soft Computing and Machine Learning Techniques from Meteorological Data Integration: A Case Study for Predicting Significant Wave Height and Energy Flux
title_fullStr Building Suitable Datasets for Soft Computing and Machine Learning Techniques from Meteorological Data Integration: A Case Study for Predicting Significant Wave Height and Energy Flux
title_full_unstemmed Building Suitable Datasets for Soft Computing and Machine Learning Techniques from Meteorological Data Integration: A Case Study for Predicting Significant Wave Height and Energy Flux
title_sort building suitable datasets for soft computing and machine learning techniques from meteorological data integration: a case study for predicting significant wave height and energy flux
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2021-01-01
description Meteorological data are extensively used to perform environmental learning. Soft Computing (SC) and Machine Learning (ML) techniques represent a valuable support in many research areas, but require datasets containing information related to the topic under study. Such datasets are not always available in an appropriate format and its preparation and pre-processing implies a lot of time and effort by researchers. This paper presents a novel software tool with a user-friendly GUI to create datasets by means of management and data integration of meteorological observations from two data sources: the National Data Buoy Center and the National Centers for Environmental Prediction and for Atmospheric Research Reanalysis Project. Such datasets can be created using buoys and reanalysis data through customisable procedures, in terms of temporal resolution, predictive and objective variables, and can be used by SC and ML methodologies for prediction tasks (classification or regression). The objective is providing the research community with an automated and versatile system for the casuistry that entails well-formed and quality data integration, potentially leading to better prediction models. The software tool can be used as a supporting tool for coastal and ocean engineering applications, sustainable energy production, or environmental modelling; as well as for decision-making in the design and building of coastal protection structures, marine transport, ocean energy converters, and well-planned running of offshore and coastal engineering activities. Finally, to illustrate the applicability of the proposed tool, a case study to classify waves depending on their significant height and to predict energy flux in the Gulf of Alaska is presented.
topic environmental prediction
renewable energy resource evaluation
meteorological data
reanalysis data
marine energy
soft computing
url https://www.mdpi.com/1996-1073/14/2/468
work_keys_str_mv AT antoniomanuelgomezorellana buildingsuitabledatasetsforsoftcomputingandmachinelearningtechniquesfrommeteorologicaldataintegrationacasestudyforpredictingsignificantwaveheightandenergyflux
AT juancarlosfernandez buildingsuitabledatasetsforsoftcomputingandmachinelearningtechniquesfrommeteorologicaldataintegrationacasestudyforpredictingsignificantwaveheightandenergyflux
AT manueldoradomoreno buildingsuitabledatasetsforsoftcomputingandmachinelearningtechniquesfrommeteorologicaldataintegrationacasestudyforpredictingsignificantwaveheightandenergyflux
AT pedroantoniogutierrez buildingsuitabledatasetsforsoftcomputingandmachinelearningtechniquesfrommeteorologicaldataintegrationacasestudyforpredictingsignificantwaveheightandenergyflux
AT cesarhervasmartinez buildingsuitabledatasetsforsoftcomputingandmachinelearningtechniquesfrommeteorologicaldataintegrationacasestudyforpredictingsignificantwaveheightandenergyflux
_version_ 1724333938085724160

Similar Items