AHCI RESEARCH GROUP
Publications
Papers published in international journals,
proceedings of conferences, workshops and books.
OUR RESEARCH
Scientific Publications
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You can expand the Abstract, Links and BibTex record for each paper.
2020
Scianna, Andrea; Gaglio, Giuseppe Fulvio; Guardia, Marcello La
DIGITAL PHOTOGRAMMETRY, TLS SURVEY and 3D MODELLING for VR and AR APPLICATIONS in CH Proceedings Article
In: N., Lafarge F. Mallet C. Paparoditis (Ed.): International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences - ISPRS Archives, pp. 901–909, International Society for Photogrammetry and Remote Sensing, 2020, (Issue: B2).
Abstract | Links | BibTeX | Tags: 3D model reconstruction, 3D modeling, 3D Modelling, Antennas, Augmented Reality, Digital Photogrammetry, Geometric information, Global Navigation Satellite Systems, Global positioning system, Ground control points, Image Reconstruction, Mini unmanned aerial vehicles, Photogrammetry, Rock mechanics, Surveying instruments, Surveys, Terrestrial Laser Scanners, Three dimensional computer graphics, Unmanned Aerial Vehicles, Unmanned aerial vehicles (UAV), Virtual Reality, Virtual representations
@inproceedings{scianna_digital_2020,
title = {DIGITAL PHOTOGRAMMETRY, TLS SURVEY and 3D MODELLING for VR and AR APPLICATIONS in CH},
author = {Andrea Scianna and Giuseppe Fulvio Gaglio and Marcello La Guardia},
editor = {Lafarge F. Mallet C. Paparoditis N.},
url = {https://www.scopus.com/inward/record.uri?eid=2-s2.0-85091094351&doi=10.5194%2fisprs-archives-XLIII-B2-2020-901-2020&partnerID=40&md5=02cb4e9119a689d19125360cf3c388de},
doi = {10.5194/isprs-archives-XLIII-B2-2020-901-2020},
year = {2020},
date = {2020-01-01},
booktitle = {International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences - ISPRS Archives},
volume = {43},
pages = {901–909},
publisher = {International Society for Photogrammetry and Remote Sensing},
abstract = {The world of valorization of Cultural Heritage is even more focused on the virtual representation and reconstructions of digital 3D models of monuments and archaeological sites. In this scenario the quality and the performances offered by the virtual reality (VR) and augmented reality (AR) navigation take primary importance, improving the accessibility of cultural sites where the real access is not allowed for natural conditions or human possibilities. The creation of a virtual environment useful for these purposes requires a specific workflow to follow, combining different strategies in the fields of survey, 3D modelling and virtual navigation. In this work a specific case of study has been analyzed as a practical example, the church of ĝ€ San Giorgio dei Genovesi', settled in the Historic Centre of Palermo (Italy). The acquisition of geometric information has been obtained with the integration of Terrestrial Laser Scanner (TLS) technologies and the photogrammetric reconstruction from mini Unmanned Aerial Vehicle (UAV) equipment. The obtained point cloud has been georeferred considering a network of Ground Control Points (GCP) acquired by a Global Navigation Satellite System (GNSS) receiver. The final point cloud has been processed and properly simplified through 3D modelling procedures, to obtain a realistic and light 3D model reconstruction. The model has hence employed into a VR WEB navigation system and will be used for AR outdoor application in the future, allowing to obtain different solutions for empowering the accessibility of the cultural good. The strategy of 3D CH model reconstruction, followed in this work, could be considered a reference methodology for the development of VR gaming applications finalized to CH valorization and AR applications, applied to museums or touristic paths in historical centres. © 2020 International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences - ISPRS Archives.},
note = {Issue: B2},
keywords = {3D model reconstruction, 3D modeling, 3D Modelling, Antennas, Augmented Reality, Digital Photogrammetry, Geometric information, Global Navigation Satellite Systems, Global positioning system, Ground control points, Image Reconstruction, Mini unmanned aerial vehicles, Photogrammetry, Rock mechanics, Surveying instruments, Surveys, Terrestrial Laser Scanners, Three dimensional computer graphics, Unmanned Aerial Vehicles, Unmanned aerial vehicles (UAV), Virtual Reality, Virtual representations},
pubstate = {published},
tppubtype = {inproceedings}
}
The world of valorization of Cultural Heritage is even more focused on the virtual representation and reconstructions of digital 3D models of monuments and archaeological sites. In this scenario the quality and the performances offered by the virtual reality (VR) and augmented reality (AR) navigation take primary importance, improving the accessibility of cultural sites where the real access is not allowed for natural conditions or human possibilities. The creation of a virtual environment useful for these purposes requires a specific workflow to follow, combining different strategies in the fields of survey, 3D modelling and virtual navigation. In this work a specific case of study has been analyzed as a practical example, the church of ĝ€ San Giorgio dei Genovesi', settled in the Historic Centre of Palermo (Italy). The acquisition of geometric information has been obtained with the integration of Terrestrial Laser Scanner (TLS) technologies and the photogrammetric reconstruction from mini Unmanned Aerial Vehicle (UAV) equipment. The obtained point cloud has been georeferred considering a network of Ground Control Points (GCP) acquired by a Global Navigation Satellite System (GNSS) receiver. The final point cloud has been processed and properly simplified through 3D modelling procedures, to obtain a realistic and light 3D model reconstruction. The model has hence employed into a VR WEB navigation system and will be used for AR outdoor application in the future, allowing to obtain different solutions for empowering the accessibility of the cultural good. The strategy of 3D CH model reconstruction, followed in this work, could be considered a reference methodology for the development of VR gaming applications finalized to CH valorization and AR applications, applied to museums or touristic paths in historical centres. © 2020 International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences - ISPRS Archives.
2019
Scianna, Andrea; Gaglio, Giuseppe Fulvio; Guardia, Marcello
Augmented reality for cultural heritage: The rebirth of a historical square Proceedings Article
In: P., Macher H. Murtiyoso A. Grussenmeyer (Ed.): International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences - ISPRS Archives, pp. 303–308, International Society for Photogrammetry and Remote Sensing, 2019, (Issue: 2/W17).
Abstract | Links | BibTeX | Tags: 3-D printing, 3D model reconstruction, 3D modeling, 3D Modelling, 3D printers, 3D Printing, Augmented Reality, Cultural heritage, Cultural heritages, Data acquisition, Data handling, Image Reconstruction, Mobile Applications, Photogrammetry, Rapid prototyping, Rapid prototyping technology, Repair, Reverse engineering, Reverse engineering techniques, Surveying instruments, Terrestrial Laser Scanners, Thallium, Three dimensional computer graphics, Virtual heritage, Visualization
@inproceedings{scianna_augmented_2019,
title = {Augmented reality for cultural heritage: The rebirth of a historical square},
author = {Andrea Scianna and Giuseppe Fulvio Gaglio and Marcello Guardia},
editor = {Macher H. Murtiyoso A. Grussenmeyer P.},
url = {https://www.scopus.com/inward/record.uri?eid=2-s2.0-85078130517&doi=10.5194%2fisprs-archives-XLII-2-W17-303-2019&partnerID=40&md5=7c28c9b8bf88d7a1af810aeca9c2cff9},
doi = {10.5194/isprs-archives-XLII-2-W17-303-2019},
year = {2019},
date = {2019-01-01},
booktitle = {International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences - ISPRS Archives},
volume = {42},
pages = {303–308},
publisher = {International Society for Photogrammetry and Remote Sensing},
abstract = {The case study, faced in this paper, arises in the context of Interreg Italia-Malta European project named I-Access, dedicated to the improvement of accessibility to Cultural Heritage (CH). Accessibility considered not only as the demolition of physical architectural barriers, but also as the possibility of fruition of CH through technological tools that can increase its perception and knowledge. Last achievements in photogrammetry and terrestrial laser scanner (TLS) technology offered new methods of data acquisition in the field of CH, giving the possibility of monitoring and processing big data, in the form of point clouds. Ever in this field, reverse engineering techniques and computer graphics are even more used for involving visitors to discover CH, with navigation into 3D reconstructions, empowering the real visualization adding further 3D information through the Augmented Reality (AR). At the same time, recent advances on rapid prototyping technologies grant the automated 3D printing of scaled 3D model reconstructions of real CH elements allowing the tactile fruition of visitors that suffer from visual defects and the connection with 3D AR visualizations. The presented work shows how these technologies could revive an historical square, the Piazza Garraffo in Palermo (Italy), with the virtual insertion of its baroque fountain, originally placed there. The final products of this work are an indoor and an outdoor AR mobile application, that allow the visualization of the historical original asset of the square. This study case shows how the mixing of AR and the rapid prototyping technologies could be useful for the improvement of the fruition of CH. This work could be considered a multidisciplinary experimentation, where different technologies, today still in development, contribute to the same goal aimed at improving the accessibility of the monument for enhancing the fruition of CH. © Authors 2019. CC BY 4.0 License},
note = {Issue: 2/W17},
keywords = {3-D printing, 3D model reconstruction, 3D modeling, 3D Modelling, 3D printers, 3D Printing, Augmented Reality, Cultural heritage, Cultural heritages, Data acquisition, Data handling, Image Reconstruction, Mobile Applications, Photogrammetry, Rapid prototyping, Rapid prototyping technology, Repair, Reverse engineering, Reverse engineering techniques, Surveying instruments, Terrestrial Laser Scanners, Thallium, Three dimensional computer graphics, Virtual heritage, Visualization},
pubstate = {published},
tppubtype = {inproceedings}
}
The case study, faced in this paper, arises in the context of Interreg Italia-Malta European project named I-Access, dedicated to the improvement of accessibility to Cultural Heritage (CH). Accessibility considered not only as the demolition of physical architectural barriers, but also as the possibility of fruition of CH through technological tools that can increase its perception and knowledge. Last achievements in photogrammetry and terrestrial laser scanner (TLS) technology offered new methods of data acquisition in the field of CH, giving the possibility of monitoring and processing big data, in the form of point clouds. Ever in this field, reverse engineering techniques and computer graphics are even more used for involving visitors to discover CH, with navigation into 3D reconstructions, empowering the real visualization adding further 3D information through the Augmented Reality (AR). At the same time, recent advances on rapid prototyping technologies grant the automated 3D printing of scaled 3D model reconstructions of real CH elements allowing the tactile fruition of visitors that suffer from visual defects and the connection with 3D AR visualizations. The presented work shows how these technologies could revive an historical square, the Piazza Garraffo in Palermo (Italy), with the virtual insertion of its baroque fountain, originally placed there. The final products of this work are an indoor and an outdoor AR mobile application, that allow the visualization of the historical original asset of the square. This study case shows how the mixing of AR and the rapid prototyping technologies could be useful for the improvement of the fruition of CH. This work could be considered a multidisciplinary experimentation, where different technologies, today still in development, contribute to the same goal aimed at improving the accessibility of the monument for enhancing the fruition of CH. © Authors 2019. CC BY 4.0 License