Augmented Virtuality for Coastal Management: A Holistic Use of In Situ and Remote Sensing for Large Scale Definition of Coastal Dynamics

Augmented Virtuality for Coastal Management: A Holistic Use of In Situ and Remote Sensing for Large Scale Definition of Coastal Dynamics

In this paper, the authors describe the architecture of a multidisciplinary data acquisition and visualization platform devoted to the management of coastal environments. The platform integrates heterogeneous data acquisition sub-systems that can be roughly divided into two main categories: remote s...

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Main Authors: Sandro Bartolini, Alessandro Mecocci, Alessandro Pozzebon, Claudia Zoppetti, Duccio Bertoni, Giovanni Sarti, Andrea Caiti, Riccardo Costanzi, Filippo Catani, Andrea Ciampalini, Sandro Moretti
Format: Article
Language:English
Published: MDPI AG 2018-03-01
Series:ISPRS International Journal of Geo-Information
Subjects:
coastal monitoring
remote sensing
in situ sensing
augmented virtuality
AUV
drones
RFID
Wireless Sensor Networks
3D imaging
Online Access:http://www.mdpi.com/2220-9964/7/3/92
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spelling doaj-167abb946fc641a4ac46be96ad2b025f2020-11-25T00:57:14ZengMDPI AGISPRS International Journal of Geo-Information2220-99642018-03-01739210.3390/ijgi7030092ijgi7030092Augmented Virtuality for Coastal Management: A Holistic Use of In Situ and Remote Sensing for Large Scale Definition of Coastal DynamicsSandro Bartolini0Alessandro Mecocci1Alessandro Pozzebon2Claudia Zoppetti3Duccio Bertoni4Giovanni Sarti5Andrea Caiti6Riccardo Costanzi7Filippo Catani8Andrea Ciampalini9Sandro Moretti10Department of Information Engineering and Mathematical Sciences, University of Siena, Via Roma 56, 53100 Siena, ItalyDepartment of Information Engineering and Mathematical Sciences, University of Siena, Via Roma 56, 53100 Siena, ItalyDepartment of Information Engineering and Mathematical Sciences, University of Siena, Via Roma 56, 53100 Siena, ItalyDepartment of Information Engineering and Mathematical Sciences, University of Siena, Via Roma 56, 53100 Siena, ItalyDepartment of Earth Sciences, University of Pisa, Via Santa Maria 53, 56126 Pisa, ItalyDepartment of Earth Sciences, University of Pisa, Via Santa Maria 53, 56126 Pisa, ItalyDepartment of Information Engineering, University of Pisa, Via Girolamo Caruso 16, 56122 Pisa, ItalyDepartment of Information Engineering, University of Pisa, Via Girolamo Caruso 16, 56122 Pisa, ItalyDepartment of Earth Sciences, University of Florence, Via Giorgio La Pira 4, 50121 Firenze, ItalyDepartment of Earth Sciences, University of Pisa, Via Santa Maria 53, 56126 Pisa, ItalyDepartment of Earth Sciences, University of Florence, Via Giorgio La Pira 4, 50121 Firenze, ItalyIn this paper, the authors describe the architecture of a multidisciplinary data acquisition and visualization platform devoted to the management of coastal environments. The platform integrates heterogeneous data acquisition sub-systems that can be roughly divided into two main categories: remote sensing systems and in situ sensing systems. Remote sensing solutions that are going to be implemented include aerial and underwater data acquisition while in situ sensing solutions include the use of Radio Frequency IDentification (RFID) tracers, Wireless Sensor Networks and imaging techniques. All the data collected by these subsystems are stored, integrated and fused on a single platform that is also in charge of data visualization and analysis. This last task is carried out according to the paradigm of Augmented Virtuality that foresees the augmentation of a virtually reconstructed environment with data collected in the real world. The described solution proposes a novel holistic approach where different disciplines concur, with different data acquisition techniques, to a large scale definition of coastal dynamics, in order to better describe and face the coastal erosion phenomenon. The overall framework has been conceived by the so-called Team COSTE, a joint research team between the Universities of Pisa, Siena and Florence.http://www.mdpi.com/2220-9964/7/3/92coastal monitoringremote sensingin situ sensingaugmented virtualityAUVdronesRFIDWireless Sensor Networks3D imaging
collection DOAJ
language English
format Article
sources DOAJ
author Sandro Bartolini
Alessandro Mecocci
Alessandro Pozzebon
Claudia Zoppetti
Duccio Bertoni
Giovanni Sarti
Andrea Caiti
Riccardo Costanzi
Filippo Catani
Andrea Ciampalini
Sandro Moretti
spellingShingle Sandro Bartolini
Alessandro Mecocci
Alessandro Pozzebon
Claudia Zoppetti
Duccio Bertoni
Giovanni Sarti
Andrea Caiti
Riccardo Costanzi
Filippo Catani
Andrea Ciampalini
Sandro Moretti
Augmented Virtuality for Coastal Management: A Holistic Use of In Situ and Remote Sensing for Large Scale Definition of Coastal Dynamics
ISPRS International Journal of Geo-Information
coastal monitoring
remote sensing
in situ sensing
augmented virtuality
AUV
drones
RFID
Wireless Sensor Networks
3D imaging
author_facet Sandro Bartolini
Alessandro Mecocci
Alessandro Pozzebon
Claudia Zoppetti
Duccio Bertoni
Giovanni Sarti
Andrea Caiti
Riccardo Costanzi
Filippo Catani
Andrea Ciampalini
Sandro Moretti
author_sort Sandro Bartolini
title Augmented Virtuality for Coastal Management: A Holistic Use of In Situ and Remote Sensing for Large Scale Definition of Coastal Dynamics
title_short Augmented Virtuality for Coastal Management: A Holistic Use of In Situ and Remote Sensing for Large Scale Definition of Coastal Dynamics
title_full Augmented Virtuality for Coastal Management: A Holistic Use of In Situ and Remote Sensing for Large Scale Definition of Coastal Dynamics
title_fullStr Augmented Virtuality for Coastal Management: A Holistic Use of In Situ and Remote Sensing for Large Scale Definition of Coastal Dynamics
title_full_unstemmed Augmented Virtuality for Coastal Management: A Holistic Use of In Situ and Remote Sensing for Large Scale Definition of Coastal Dynamics
title_sort augmented virtuality for coastal management: a holistic use of in situ and remote sensing for large scale definition of coastal dynamics
publisher MDPI AG
series ISPRS International Journal of Geo-Information
issn 2220-9964
publishDate 2018-03-01
description In this paper, the authors describe the architecture of a multidisciplinary data acquisition and visualization platform devoted to the management of coastal environments. The platform integrates heterogeneous data acquisition sub-systems that can be roughly divided into two main categories: remote sensing systems and in situ sensing systems. Remote sensing solutions that are going to be implemented include aerial and underwater data acquisition while in situ sensing solutions include the use of Radio Frequency IDentification (RFID) tracers, Wireless Sensor Networks and imaging techniques. All the data collected by these subsystems are stored, integrated and fused on a single platform that is also in charge of data visualization and analysis. This last task is carried out according to the paradigm of Augmented Virtuality that foresees the augmentation of a virtually reconstructed environment with data collected in the real world. The described solution proposes a novel holistic approach where different disciplines concur, with different data acquisition techniques, to a large scale definition of coastal dynamics, in order to better describe and face the coastal erosion phenomenon. The overall framework has been conceived by the so-called Team COSTE, a joint research team between the Universities of Pisa, Siena and Florence.
topic coastal monitoring
remote sensing
in situ sensing
augmented virtuality
AUV
drones
RFID
Wireless Sensor Networks
3D imaging
url http://www.mdpi.com/2220-9964/7/3/92
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