POLITECNICO DI TORINODAD - Lab G4CH - PIC4SeR
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ABOUT

PERSONAL DETAILS
Corso Massimo d'Azeglio, 42 - 10125, Torino (TO)
mapiconimg
+39 011 090 4380
Researcher @ Laboratory of Geomatics for Cultural Heritage | Politecnico di Torino

BIO

ABOUT ME

I graduated in Architecture at Politecnico di Torino, with a thesis on the use of UAV for safety application in construction sites and in technical measures for seismic emergency response. I currently work as a researcher in the Department of Architecture and Design.
Along with the Lab G4CH (Laboratory of Geomatics for Cultural Heritage) and the student team DIRECT (DIsaster RECovery Team) I’ve carried out mapping research in earthquake-hit regions in central Italy and other relevant projects in collaboration with the firefighters and first responders.
Since 2017 I have been working at PIC4SeR (PoliTO Interdepartmental Centre for Service Robotics) as industrial representative for DJI, the world’s leader in commercial and civilian drone industry.
From 2019 I am pursuing a PhD in Architectural and Landscape Heritage, with a thesis focused on Photogrammetric application for the documentation of the Underwater Cultural Heritage.
I have an extensive knowledge of drones and their application for research, mapping, humanitarian relief, public safety, built heritage monitoring and damage assessment.

I am qualified as:
• PADI Advanced Open Water Diver (2008UU6234);
• UAV Pilot (attestation N° I.APRA.012801);
• Health & safety at workplaces trainer (crit. 2 of D.M. 6/3/2013);
• Safety coordinator in construction sites (art. 98, par. 4 of D.Lgs. n. 81/2008).

MEMBERSHIPS

What I am part of

• ISPRS WG II/9: Underwater Data Acquisition and Processing (Member).
• ISPRS SC - The International Society for Photogrammetry and Remote Sensing Student Consortium (Member).
• SIFET - Società Italiana di Fotogrammetria E Topografia (Member of the "Communication, Media & Social" commission).
• CIPA EP - Comité International de Photogrammétrie Architecturale - Emerging Professionals (Regular member).
• WFP UAS TWG - World Food Programme Unmanned Aircraft System Technical Working Group (Co-Chair of the Imagery Thematic Area).
• IEDO - International Emergency Drone Organisation (Regular member).
• GEER - Geotechnical Extreme Events Reconnaissance (Regular member).
• AIFES - Associazione Italiana Formatori Esperti in Sicurezza sul Lavoro (Trainer).
• DIRECT - DIsaster RECovery Team (Tutor member).

HONOURS AND AWARDS

National and International recognitions

• ISPRS - Travel Grant for attending the Geospatial Week 2019.
• SIFET - Società Italiana di Fotogrammetria E Topografia. Best Poster Award for "Unconventional Positioning and Mapping".
• AiFOS - Associazione Italiana Formatori ed Operatori della Sicurezza sul lavoro. Best Master Thesis Award for "Health & Safety at workplaces".
• SIFET - Società Italiana di Fotogrammetria E Topografia. Best Poster Award for "Earthquakes and Emergencies".
• PRISTEM centre of Bocconi University. 2nd place - Category L1 - Autumn Games.

WORD CLOUD

My Key-Words

Word Cloud

DIVE LOGS

My Dive Logs

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RESUME

EDUCATION
  • Present
    2019
    Turin | Italy

    PhD student in Architectural and Landscape Heritage

    Politecnico di Torino

    Thesis: Photogrammetric application for the documentation of the Underwater Cultural Heritage.
  • 2021
    2021
    Limassol | Cyprus

    ERASMUS+ Programme

    CUT - Τεχνολογικό Πανεπιστήμιο Κύπρου (Cyprus University of Technology)

  • 2017
    2014
    Turin | Italy

    Master of Science in Architecture City & Construction (110/110 L)

    Politecnico di Torino

    Thesis: Drones application for safety in construction sites and in technical measures for seismic emergency response.
  • 2016
    2015
    Stockholm | Sweden

    ERASMUS+ Programme

    KTH - Kungliga Tekniska Högskolan (Royal Institute of Technology)

  • 2014
    2011
    Turin | Italy

    Bachelor's degree in Architecture

    Politecnico di Torino

ACADEMIC POSITIONS
  • 2019
    2017
    Turin | Italy

    Research Fellow

    Politecnico di Torino

    • Research activities for the Torino 1911 Project: Geomatics and 3D modeling for the development of Web-Based applications for the visualization of point clouds.
    • Research activities in the framework of the Italian PRIN GAMHer: Geomatics Data Acquistion and Management for Landscape and Built Heritage in a European Perspective.
PROFESSIONAL POSITIONS
  • 2020
    2016
    Frankfurt | Germany

    Student Ambassador

    DJI GmbH

    Industrial representative of DJI at Politecnico di Torino.
  • 2017
    2016
    Turin | Italy

    IT staff - Information Technology Area

    Politecnico di Torino

    Support activities in laboratories, vigilance on the correct use of the equipment, support for users and maintenance.
  • 2016
    2016
    Turin | Italy

    Judiciary Police support staff (Internship)

    A.S.L. Torino 1 (S.Pre.S.A.L.)

    Supervision and control in construction sites, for verification of compliance with legislation on health and safety at work.
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TEACHING

CURRENT
  • Present
    2022
    Turin | Italy

    Teaching Assistant

    Politecnico di Torino

    • Restoration and integrated conservation
    - Module of Geomatics (2021/2022)
TEACHING HISTORY
  • 2020
    2014
    Turin | Italy

    Teaching Assistant

    Politecnico di Torino

    • Laboratory of Geomatics for Architecture modeling
    - Prof. Filiberto Chiabrando (2020/2021)
    - Prof. Antonia Teresa Spanò (2019/2020)
    - Prof. Fulvio Rinaudo (2018/2019)
    - Prof. Filiberto Chiabrando (2016/2017)
    - Prof. Antonia Teresa Spanò (2014/2015)
    • Atelier Compatibility and sustainability of architectural restoration
    - Module of Geomatics (2020/2021)
    • Fundamentals of Architectural Technology
    - Prof. Elena Piera Montacchini (2014/2015)
    • Architectural construction Studio
    - Prof. Laura Sasso (2013/2014)
  • 2017
    2017
    Catania | Italy

    Lecturer

    DTN Group S.r.l

    Lecturer of "Health & Safety at workplaces" in training courses accredited to the Sicily Region.
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SKILLS

LANGUAGE SKILLS
English >
LEVEL : Proficient user
IELTS Academic B2 GRE General Test Integration Programme at Greenford High School
Italian >
LEVEL : Mother tongue
Swedish >
LEVEL : Basic user
Swedish A1 for Engineers
DIGITAL SKILLS
> The main digital skills are connected to the knowledge, documentation and monitoring of the architectural, archaeological and environmental heritage. These are mainly related to:
• Survey and 3D modeling and analysis (3DReshaper, CloudCompare, MeshLab)
• Topography and Cartography
• Photogrammetry and image matching processing (MicMac, Photoscan, Pix4D)
• Laser scanner and ToF cameras
• GIS and remote sensing
• UAV - Unmanned Aerial Vehicle (or Drones)
• SLAM - Simultaneously localization mapping
• Rapid Mapping
• Development and analysis of open-source systems for web navigation of 3D meshes and point clouds based on HTML, CSS & JavaScript
LEVEL : Expert user
ECDL Advanced course for computer science Python Deep Learning HTML CSS JavaScript
COMMUNICATION SKILLS
  • 2010
    2009

    Head of the Public Relations Committee and press director

    Provincial Students' Council of Siracusa

  • 2010
    2009

    Member of the Guarantee Committee and Student Representative

    Liceo Scientifico Statale Luigi Einaudi

Organisational / managerial skills

Events

Organizer of the following events:

• Co-organizer of the ISPRS Student Consortium Summer School “SUNRISE” (03-09/09/2022).
• Co-organizer of the course “MicMac in a Nutshell” (08-11/05/2020).
• Organizer and chair of the seminar "La Geomatica e il rilievo metrico 3D: tecniche avanzate per la documentazione dell'architettura" at RESTRUCTURA 2019 (14/11/2019).
• Co-organizer of the conference “DRONES: Current application and future perspectives” at the Politecnico di Torino (18/05/2018).
• Co-organizer and tutor of the 2nd MicMac course at the Politecnico di Torino (19-22/02/2018).
• Organizer and chair of the seminar “UAV DAY” at the Politecnico di Torino (25/05/2017).

Memorandum of Understanding

Promoter of the MOU signed between:

• Politecnico di Torino & World Food Programme (11/2020 - 07/2022)
• Politecnico di Torino & UNICEF (10/2019 - 10/2022)
• Politecnico di Torino & DJI (11/2018 - 11/2021)
• Politecnico di Torino & ACISMOM (11/2020 - 11/2022)
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RESEARCH

TOP CO-AUTHORS

FILIBERTO CHIABRANDO

ASSOCIATE PROFESSOR

ANDREA LINGUA

FULL PROFESSOR

FULVIO RINAUDO

FULL PROFESSOR

INTERNATIONAL RESEARCH PROJECTS

UP4DREAM - UAV Photogrammetry for Developing Resilience and Educational Activities in Malawi

Co-Investigator in the ISPRS Educational and Capacity Building Initiative

UAV Photogrammetry for Developing Resilience and Educational Activities in Malawi is a cooperative project between the Polytechnic University of Turin (PI) and the United Nations Children Fund (UNICEF) Malawi (Co-Is), with the support of local Universities (Lilongwe University of Agriculture and Natural Resources, Mzuzu University) and Agisoft LLC (for the use of their photogrammetry and computer vision software suite). Malawi is a flood-prone landlocked country constantly facing natural and health challenges, which prevent from sustainable socio-economic development of the country. Frequent naturals shocks leave vulnerable communities food-insecure. UNICEF Malawi, in partnership with the Government of Malawi, was the first UNICEF office in the world to establish a segregated air space, which would serve as a sandbox for drone manufacturers, service companies, academia and other entities to test their drones in a real-life humanitarian and development cooperation context. The UP4DREAM project focuses on one of the key priorities of drone project in Malawi (Imagery), and has the ambitious aim of starting a capacity building initiative, in order to become one of the biggest mapping mission in developing countries, focusing on the realization and management of cartography at a big scale and high level of detail (using GIS - Geographic Information Systems) and on the generation of 3D products based on the UAV-acquired data. The principal aim of UP4DREAM is to ensure that local institutions, universities, researchers, and service companies and manufacturers operating in the drone corridor will have the right knowledge and understanding of the photogrammetry and spatial information best practices, in order to perform big-scale aerial data acquisition, processing, share and manage in the most efficient, cost-effective and scientifically-rigorous way.

Image-processing experimentation of shipwrecks datasets in Biscayne National Park

Collaboration with the Submerged Resource Center of the US National Park Service and the University of California San Diego

One of the final aims of this work is to provide an image enhancement method functional to the virtualization and visualization of the generated products (both point clouds and textured meshes) that can be used in online repositories and/or for VR and AR tours, providing a sustainable, affordable, and reliable way of studying submerged artefacts and sites.

UnderwaterMuse - Interreg Italy-Croatia project

Involvement for the valorization, promotion and fruition of the underwater archaeological heritage in the Adriatic Sea

Sustained UAV Operations Malawi

Member of the Steering Committe for the UK Department For International Development - DFID

The purpose of the Steering Group is to provide expert advice on the ‘Sustained UAV Operations Malawi’ pilot on the Frontier Technology Livestreaming programme. Feedback will be fed directly into the scope of work of the pilot via the sprint plans, the reporting tool used on the FTL programme, as well as in the UAV technology partner selection process.

The Complete Geophysical Survey of the Valley of the Kings

Involvement for the realization of multi-sensor and multi scale 3D models of The Valley of the Kings in Luxor, Egypt.

In October 2018, a team of geomatics and geophysics researchers coordinated by the Polytechnic University of Turin worked side by side in the VOK. Topographic measurements in support of geophysical surveys and the achievement of a very large-scale 3D map of the Eastern VOK were the two main objectives of the geomatics campaign. Innovative 3D metric technologies and methods, based on terrestrial laser scanning (both static and mobile) and close-range photogrammetry were employed by the Geomatics team. The geophysical campaign focused on the acquisition of Electrical Resistivity Tomography (ERT), Ground Penetrating Radar (GPR) and high spatial density Geomagnetic (GM) data. ERT new data around KV62, both inverted in 2D sections and added to the previous ones to perform a new global 3D inversion, confirm the previous results showing both conductive and resistive anomalies that have to be explained. GPR timeslices showed some interesting features in the area in front of the KV2 entrance where GM gradient map also presents localized anomalies. In the area SSW of the KV2 the GM gradient maps evidenced also a large semicircular anomaly which, up to now, has no explanation. The potentialities of using magnetic techniques as a complement to other non-invasive techniques in the search for structures of archeological significance have been explored. The application of modern and innovative methods of 3D metric survey enabled to achieve a complete 3D mapping of what is currently visible in the valley. The integration of 2D/3D mapping data concerning visible elements and hypothetical anomalies, together with the recovering in the same global reference system of underground documentation pertaining to the Theban Mapping Project, prefigure the enhancement of multi-temporal site representation. This strategy enables the fruition development of the already discovered archaeological heritage, using modern criteria of valorization and conservation.

GEMINI - Graphically Enhanced MicMac's New Interface

Collaboration with IGN (French National Geographic Institute) and ENSG (French national school for geographic sciences) for the realization of a GUI for the free and open-source photogrammetry suite MicMac

GEMINI is the new Graphical User Interface for MICMAC. Developed by Alessio Calantropio of Politecnico di Torino under the GAMHer Italian Research Project.

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PUBLICATIONS

RESEARCHER DETAILS

Author

ID available at the following platforms (click on the ID to open a new tab):

• ORCID (ID: 0000-0002-4524-3693)
• Web of Science (ID: AAD-7014-2020)
• Scopus (ID: 57201197823)
• Google Scholar (ID: LVsPG8oAAAAJ)

Reviewer

Reviewer for the following journals (click on the ISSN to display metrics):

[Elsevier] ISPRS Journal of Photogrammetry and Remote Sensing
(ISSN 0924-2716)
SCImago Journal & Country Rank
[MDPI] Remote Sensing (ISSN 2072-4292) SCImago Journal & Country Rank
[MDPI] Applied Science (ISSN 2076-3417) SCImago Journal & Country Rank
[Elsevier] Environmental Research (ISSN 1096-0953) SCImago Journal & Country Rank
[SISEF] iForest (ISSN 1971-7458) SCImago Journal & Country Rank
[MDPI] Buildings (ISSN 2075-5309) SCImago Journal & Country Rank
PUBLICATIONS LIST

2021

  • [DOI] A. Calantropio, F. Chiabrando, M. Codastefano, and E. Bourke, “DEEP LEARNING FOR AUTOMATIC BUILDING DAMAGE ASSESSMENT: APPLICATION IN POST-DISASTER SCENARIOS USING UAV DATA,” in V-1-2021, 2021, p. 113–120.
    [Bibtex]
    @conference{11583_2934969,
    author = {Calantropio, A. and Chiabrando, F. and Codastefano, M. and Bourke, E.},
    title = {DEEP LEARNING FOR AUTOMATIC BUILDING DAMAGE ASSESSMENT: APPLICATION IN POST-DISASTER SCENARIOS USING UAV DATA},
    year = {2021},
    publisher = {ISPRS},
    volume = {V-1-2021},
    booktitle = {V-1-2021},
    abstract = {During the last few years, the technical and scientific advances in the Geomatics research field have led to the validation of new mapping and surveying strategies, without neglecting already consolidated practices. The use of remote sensing data for damage assessment in post-disaster scenarios underlined, in several contexts and situations, the importance of the Geomatics applied techniques for disaster management operations, and nowadays their reliability and suitability in environmental emergencies is globally recognized. In this paper, the authors present their experiences in the framework of the 2016 earthquake in Central Italy and the 2019 Cyclone Idai in Mozambique. Thanks to the use of image-based survey techniques as the main acquisition methods (UAV photogrammetry), damage assessment analysis has been carried out to assess and map the damages that occurred in Pescara del Tronto village, using DEEP (Digital Engine for Emergency Photo-analysis) a deep learning tool for automatic building footprint segmentation and building damage classification, functional to the rapid production of cartography to be used in emergency response operations. The performed analyses have been presented, and the strengths and weaknesses of the employed methods and techniques have been outlined. In conclusion and based on the authors' experience, some operational suggestions and best practices are provided and future research perspectives within the same research topic are introduced.},
    keywords = {Emergency response, Building damage assessment, deep learning, UAV photogrammetry, automatic segmentation, automatic classification},
    url = {https://www.isprs-ann-photogramm-remote-sens-spatial-inf-sci.net/V-1-2021/113/2021/},
    doi = {10.5194/isprs-annals-V-1-2021-113-2021},
    pages = {113--120}
    }
  • R. Auriemma, A. Calantropio, F. Chiabrando, and L. Coluccia, “Photogrammetric techniques for digitalization of underwater cultural assets: The case study of the Torre Santa Sabina’s Shipwreck,” in Book of Abstracts of the 2nd International Conference on the Promotion of Accessible Underwater Cultural Heritage Sites “Dive in Blue Growth”, 2021, p. 63–63.
    [Bibtex]
    @conference{11583_2911853,
    author = {Auriemma, Rita and Calantropio, Alessio and Chiabrando, Filiberto and Coluccia, Luigi},
    title = {Photogrammetric techniques for digitalization of underwater cultural assets: The case study of the Torre Santa Sabina’s Shipwreck},
    year = {2021},
    publisher = {MeDryDive project, COSME Programme},
    booktitle = {Book of Abstracts of the 2nd International Conference on the Promotion of Accessible Underwater Cultural Heritage Sites “Dive in Blue Growth”},
    abstract = {Underwater cultural sites are, for their intrinsic nature, among the most difficult-to-reach heritage. The difficulty of operating in underwater environments derives not only from the reduced stay time of the operator on the site but also to environmental condition that might affect the survey (such as light condition, turbidity of the water, etc.) reducing its overall quality. The possibility offered nowadays by the adoption of digital photogrammetry techniques allows one to virtually reconstruct the surveyed underwater assets to make it accessible also remotely, via visualization and dissemination platforms (online or offline). In order to improve the study of the documented cultural heritage artefacts and sites, it is crucial to adopt the right photogrammetric principles, such as carefully planning the acquisition geometry, opportunely calibrating the camera before the final acquisition, correctly acquire the images with satisfying the optimal overlap and sidelap, using metric scale bars and or Ground Control Points in order to achieve 3D metric and georeferenced products that are geometrically consistent and coherent with the real object of the survey. This paper is related to the photogrammetric survey of the late-imperial era roman shipwreck, located in Baia dei Camerini, Torre Santa Sabina (BR), Italy, in the framework of the project UnderwaterMuse (Italia-Croatia 2014-2020 Cooperation Programme).
    An integrated topographic and photogrammetric (underwater and UAV) survey has been conducted, and in the present research the last advancements in the underwater photogrammetry data acquisition and processing will be addressed in combination with the UAV achievable products. More in detail a focus on camera calibration and quality assessment of the achieved results will be presented.},
    keywords = {Underwater Photogrammetry, Digital archaeology, Geomatics, Underwater Cultural Heritage Documentation, UCH Enhancement},
    url = {https://static.livemedia.gr/livemedia/documents/al40591_u1292_20210708103429145_2nd20diveinbluegrowth_2021_book_of_abstracts.pdf},
    pages = {63--63}
    }
  • [DOI] A. Calantropio, F. Chiabrando, and R. Auriemma, “PHOTOGRAMMETRIC UNDERWATER AND UAS SURVEYS OF ARCHAEOLOGICAL SITES: THE CASE STUDY OF THE ROMAN SHIPWRECK OF TORRE SANTA SABINA,” INTERNATIONAL ARCHIVES OF THE PHOTOGRAMMETRY, REMOTE SENSING AND SPATIAL INFORMATION SCIENCES, vol. XLIII-B2-2021, p. 643–650, 2021.
    [Bibtex]
    @article{11583_2934967,
    author = {Calantropio, A. and Chiabrando, F. and Auriemma, R.},
    title = {PHOTOGRAMMETRIC UNDERWATER AND UAS SURVEYS OF ARCHAEOLOGICAL SITES: THE CASE STUDY OF THE ROMAN SHIPWRECK OF TORRE SANTA SABINA},
    year = {2021},
    publisher = {Copernicus},
    journal = {INTERNATIONAL ARCHIVES OF THE PHOTOGRAMMETRY, REMOTE SENSING AND SPATIAL INFORMATION SCIENCES},
    volume = {XLIII-B2-2021},
    abstract = {The 2020 underwater archaeological research in the inlet of Torre Santa Sabina – Baia dei Camerini (Municipality of Carovigno, Brindisi, Italy) represented the first phase of the pilot intervention of the Interreg Italia-Croatia UnderwaterMuse project. The project aims to enhance and make accessible the vast underwater heritage of the areas involved; this will be done by creating submerged archaeological parks and using virtual reality's narrative and communicative tools and platforms. During the 2020 campaign, different survey activities were carried out using several techniques and methodology to produce the area's multi-scale documentation. First of all, the entire stretch of coast was mapped with UASs (Uncrewed Aerial Systems) flights to reconstruct the coastal landscape in various phases. Furthermore, an underwater photogrammetric survey carried out by expert scuba divers has been achieved in the wreck's aft area (the site analyzed during the 2020 excavation activities). The fruitful synergy between the various actors involved and the support of the territory and the community has allowed the achievement of this campaign's objectives, preliminary to the broader and more articulated intervention foreseen for the following year.},
    keywords = {Underwater Photogrammetry, Digital archaeology, Cultural Heritage Documentation, UAS, Camera Calibration},
    url = {https://www.int-arch-photogramm-remote-sens-spatial-inf-sci.net/XLIII-B2-2021/643/2021/},
    doi = {10.5194/isprs-archives-XLIII-B2-2021-643-2021},
    pages = {643--650}
    }
  • [DOI] A. Calantropio, D. Rissolo, and E. Kovacs, “Pre- and Self-calibration of underwater cameras for photogrammetric documentation of archaeological sites,” in Proceedings of the ARQUEOLÓGICA 2.0 – 9th International Congress & 3rd GEORES – GEOmatics and pREServation Lemma: Digital Twins for Advanced Cultural Heritage Semantic Digitization., Valencia, 2021, p. 512–514.
    [Bibtex]
    @conference{11583_2898172,
    author = {Calantropio, Alessio and Rissolo, Dominique and Kovacs, Evan},
    title = {Pre- and Self-calibration of underwater cameras for photogrammetric documentation of archaeological sites},
    year = {2021},
    publisher = {Editorial Universitat Politècnica de València},
    address = {Valencia},
    volume = {Proceedings of the ARQUEOLÓGICA 2.0 - 9th International Congress & 3rd GEORES - GEOmatics and pREServation Lemma: Digital Twins for Advanced Cultural Heritage Semantic Digitization.},
    booktitle = {Proceedings of the ARQUEOLÓGICA 2.0 - 9th International Congress & 3rd GEORES - GEOmatics and pREServation Lemma: Digital Twins for Advanced Cultural Heritage Semantic Digitization.},
    abstract = {Underwater photogrammetry has become one of the most affordable and adopted methods for the documentation and the 3D reconstruction of submerged archaeological assets. In digital photogrammetry, images are captured to exploit (using computer vision-based procedures) their intrinsic metric contents. To preserve the metric consistency and to obtain reliable 3D metric products, this process must be followed according to photogrammetric principles that are even more important in underwater photogrammetry. The wide diffusion of low-cost and non-metric sensors requires that some attention be given to proper geometric calibration of the employed cameras. Via calibration, it is possible to opportunely describe geometric distortions that are observable on final images due to lens shapes and construction characteristics of the cameras and the optics used in the survey operations.
    This research addresses the importance of pre-calibration in underwater cameras, and for this purpose, three calibration datasets are acquired and compared: the first (A) where the camera is pre-calibrated without any addition (flat or dome ports); the second (B) in which the camera is used in combination with a dome port; and the third (C) where the camera setup has been employed in an underwater environment. For both scenarios (dry and wet), self-calibration and pre-calibration procedures are compared. Moreover, is possible to notice how the use of the right camera and lens combinations, specifically designed for underwater survey purposes, are functional to lower the distortion of the images and consequently improve the accuracy of the final 3D products. Different tests have been performed, and preliminary results are presented and discussed in this work-in-progress paper.},
    keywords = {underwater photogrammetry; 3D reconstruction; camera calibration; radial distortion},
    url = {http://ocs.editorial.upv.es/index.php/arqueologica20/arqueologica9/paper/view/12085},
    doi = {10.4995/arqueologica9.2021.13259},
    isbn = {978-84-9048-872-0},
    pages = {512--514}
    }
  • R. Auriemma, A. Antonazzo, A. Calantropio, F. Chiabrando, L. Coluccia, D. Leone, P. F. Maschio, M. Turchiano, and G. Volpe, “Shipwrecks stories in a “trap bay”: Research and valorization in Torre S. Sabina (Brindisi, Italy),” in DEGUWA Annual Meeting on Underwater Archaeology IN POSEIDON’S REALM XXVI “Safety and Waterways”, 2021, p. 7–7.
    [Bibtex]
    @conference{11583_2911857,
    author = {Auriemma, Rita and Antonazzo, Antonella and Calantropio, Alessio and Chiabrando, Filiberto and Coluccia, Luigi and Leone, Danilo and Maschio, Paolo Felice and Turchiano, Maria and Volpe, Giuliano},
    title = {Shipwrecks stories in a “trap bay”: Research and valorization in Torre S. Sabina (Brindisi, Italy)},
    year = {2021},
    publisher = {TRANSMARE Institut of the University of Trier},
    booktitle = {DEGUWA Annual Meeting on Underwater Archaeology IN POSEIDON’S REALM XXVI "Safety and Waterways"},
    abstract = {The 2020 underwater archaeological research in the inlet of Torre Santa Sabina - Baia dei Camerini (Municipality of Carovigno, Brindisi, Italy ) represented the first phase of the pilot intervention of the Interreg Italia-Croatia UnderwaterMuse project, which aims to enhance and make accessible the huge underwater heritage of the areas involved through the creation of submerged archaeological parks and the narrative and communicative use of the virtual reality. The Puglia Region - Department of Tourism, Economics of Culture and Valorization of the Territory, partner of the UnderwaterMuse project, launching these researches aimed at valorisation, has involved the three regional Universities thanks to an agreement.
    The fruitful synergy between the various actors involved and the support of the territory and the community have allowed the achievement of the objectives of this campaign, preliminary to the broader and more articulated intervention foreseen for the next year.
    Thanks to the collaboration with the Polytechnic of Turin, the entire stretch of coast was mapped with drone flights, in order to reconstruct the coastal landscape in the various phases, starting from the Bronze Age.
    Targeted interventions were carried out on the Roman wreck of the imperial age, beached and abandoned at the ancient shore and now submerged due to the relative rise in sea level, and on the remains of on-board equipment of a ship of the Serenissima, the Galea Magna (1598).
    Another important focus was represented by the stratigraphy of cargos resulting from the various shipwreck episodes, accumulated at the foot of the western cliff.},
    keywords = {underwater cultural heritage, in situ protection and valorization, underwater archaeological park, VR, seascapes archaeology, wrecks, Roman ship, galley, cargo.},
    url = {http://www.deguwa.org/data/File/IPR XXVI/IPR XXVI Tagungsmappe CF 210418.pdf},
    pages = {7--7}
    }
  • R. Auriemma, A. Calantropio, F. Chiabrando, L. Coluccia, M. Rugge, P. D’Ambrosio, M. Buccolieri, and A. Picciolo, “Underwater archaeological surveys in Salento waters: results and methods,” in FOG special volume: Proceedings of the 6th European Conference on Scientific Diving 2021, Freiberg, 2021, p. 96–105.
    [Bibtex]
    @conference{11583_2909734,
    author = {Auriemma, Rita and Calantropio, Alessio and Chiabrando, Filiberto and Coluccia, Luigi and Rugge, Michela and D’Ambrosio, Paolo and Buccolieri, Mino and Picciolo, Andrea},
    title = {Underwater archaeological surveys in Salento waters: results and methods},
    year = {2021},
    publisher = {Broder Merkel & Mandy Hoyer},
    address = {Freiberg},
    journal = {FREIBERG ONLINE GEOSCIENCE},
    volume = {FOG special volume: Proceedings of the 6th European Conference on Scientific Diving 2021},
    booktitle = {FOG special volume: Proceedings of the 6th European Conference on Scientific Diving 2021},
    abstract = {This paper is related to the survey carried out in several coastal sites of Puglia in 2020, within the project UnderwaterMuse. The core of the activities took place at the Torre S. Sabina site, on the Adriatic Sea, where an integrated topographic and photogrammetric survey has been conducted on the late-imperial Roman shipwreck. Another activity, always on the Adriatic Sea, are been conducted in the “Le Cesine” Natural Reserve how led to the identification of a big pier from the Augustan period. On the Ionian Sea, furthermore, in Porto Cesareo Marine Protected Area, new evidence has been added to the numerous ones already known, such as some spectacular formations composed uniquely by cemented sherds of Tripolitanian amphorae (2nd cent. AD). This evidence seems to be significant markers of sea-level changes and the evolution of the seascape.},
    url = {https://tu-freiberg.de/sites/default/files/media/institut-fuer-geologie-718/pdf/fog_volume_58.pdf},
    pages = {96--105}
    }
  • [DOI] A. Calantropio, F. Chiabrando, J. Comino, A. M. Lingua, P. F. Maschio, and T. Juskauskas, “UP4DREAM CAPACITY BUILDING PROJECT: UAS BASED MAPPING IN DEVELOPING COUNTRIES,” INTERNATIONAL ARCHIVES OF THE PHOTOGRAMMETRY, REMOTE SENSING AND SPATIAL INFORMATION SCIENCES, vol. XLIII-B5-2021, p. 65–72, 2021.
    [Bibtex]
    @article{11583_2934965,
    author = {Calantropio, A. and Chiabrando, F. and Comino, J. and Lingua, A. M. and Maschio, P. F. and Juskauskas, T.},
    title = {UP4DREAM CAPACITY BUILDING PROJECT: UAS BASED MAPPING IN DEVELOPING COUNTRIES},
    year = {2021},
    publisher = {Copernicus},
    journal = {INTERNATIONAL ARCHIVES OF THE PHOTOGRAMMETRY, REMOTE SENSING AND SPATIAL INFORMATION SCIENCES},
    volume = {XLIII-B5-2021},
    abstract = {UP4DREAM (UAV Photogrammetry for Developing Resilience and Educational Activities in Malawi) is a cooperative project cofounded by ISPRS between the Polytechnic University of Turin and the United Nations Children Fund (UNICEF) Malawi, with the support of two local Universities (Lilongwe University of Agriculture and Natural Resources, and Mzuzu University), and Agisoft LLC (for the use of their photogrammetry and computer vision software suite). Malawi is a flood-prone landlocked country constantly facing natural and health challenges, which prevent the country's sustainable socio-economic development. Frequent naturals shocks leave vulnerable communities food insecure. Moreover, Malawi suffers from high rates of HIV, as well as it has endemic malaria. The UP4DREAM project focuses on one of the drone project's critical priorities in Malawi (Imagery). It aims to start a capacity-building initiative in line with other mapping missions in developing countries, focusing on the realization and management of large-scale cartography (using GIS - Geographic Information Systems) and on the generation of 3D products based on the UAV-acquired data. The principal aim of UP4DREAM is to ensure that local institutions, universities, researchers, service companies, and manufacturers operating in the humanitarian drone corridor, established by UNICEF in 2017, will have the proper knowledge and understanding of the photogrammetry and spatial information best practices, to perform large-scale aerial data acquisition, processing, share and manage in the most efficient, cost-effective and scientifically rigorous way.},
    keywords = {Education and Capacity Building, Developing Countries, UAV Photogrammetry, International Cooperation},
    url = {https://www.int-arch-photogramm-remote-sens-spatial-inf-sci.net/XLIII-B5-2021/65/2021/},
    doi = {10.5194/isprs-archives-XLIII-B5-2021-65-2021},
    pages = {65--72}
    }

2020

  • [PDF] A. Calantropio, F. Chiabrando, and D. Einaudi, “UAV multi-image matching approach for architectural survey in complex environments,” D-SITE | Drones – Systems of Information on culTural hEritage. For a spatial and social investigation, p. 98–105, 2020.
    [Bibtex]
    @article{calantropio2020uav, url = {http://www.paviauniversitypress.it/catalogo/d-site/5639}, PDF = {http://archivio.paviauniversitypress.it/oa/9788869521294.pdf}, title={UAV multi-image matching approach for architectural survey in complex environments}, author={Calantropio, Alessio and Chiabrando, Filiberto and Einaudi, Davide}, journal={D-SITE | Drones - Systems of Information on culTural hEritage. For a spatial and social investigation}, pages={98--105}, year={2020}, publisher={Pavia: Pavia University Press}}
  • [PDF] E. Pontoglio, I. Aicardi, A. Calantropio, E. Colucci, V. Di Pietra, N. Grasso, A. M. Lingua, and P. F. Maschio, “UAV data acquisition and analysis for a Cultural Landscape Heritage: the emergency area of the Vallone d’Elva,” D-SITE | Drones – Systems of Information on culTural hEritage. For a spatial and social investigation, p. 296–305, 2020.
    [Bibtex]
    @article{pontoglio2020uav, url = {http://www.paviauniversitypress.it/catalogo/d-site/5639}, PDF = {http://archivio.paviauniversitypress.it/oa/9788869521294.pdf}, title={UAV data acquisition and analysis for a Cultural Landscape Heritage: the emergency area of the Vallone d’Elva}, author={Pontoglio, Emanuele and Aicardi, Irene and Calantropio, Alessio and Colucci, Elisabetta and Di Pietra, Vincenzo and Grasso, Nives and Lingua, Andrea Maria and Maschio, Paolo Felice}, journal={D-SITE | Drones - Systems of Information on culTural hEritage. For a spatial and social investigation}, pages={296--305}, year={2020}, publisher={Pavia: Pavia University Press}}
  • [PDF] [DOI] A. Calantropio, F. Chiabrando, B. Seymour, E. Kovacs, E. Lo, and D. Rissolo, “Image pre processing strategies for enhancing photogrammetric 3D reconstruction of underwater shipwreck datasets,” The International Archives of Photogrammetry, Remote Sensing and Spatial Information Sciences, vol. 43, p. 941–948, 2020.
    [Bibtex]
    @article{calantropio2020image, doi = {10.5194/isprs-archives-XLIII-B2-2020-941-2020}, url = {https://www.int-arch-photogramm-remote-sens-spatial-inf-sci.net/XLIII-B2-2020/941/2020/}, PDF = {https://www.int-arch-photogramm-remote-sens-spatial-inf-sci.net/XLIII-B2-2020/941/2020/isprs-archives-XLIII-B2-2020-941-2020.pdf}, title={Image pre processing strategies for enhancing photogrammetric 3D reconstruction of underwater shipwreck datasets}, author={Calantropio, A and Chiabrando, F and Seymour, B and Kovacs, E and Lo, E and Rissolo, D}, journal={The International Archives of Photogrammetry, Remote Sensing and Spatial Information Sciences}, volume={43}, pages={941--948}, year={2020}, publisher={Copernicus GmbH}}
  • [PDF] A. Calantropio, “L’impiego dei droni per la sicurezza nei cantieri post-sisma,” Quaderni della Sicurezza AIFOS, vol. 11, iss. n. 2, p. 39–45, 2020.
    [Bibtex]
    @article{calantropio2020impiego, url = {https://aifos.org/home/news/pubblicazioni/quaderni/quaderni/nuove_tecnologie_per_la_formazione_e_la_sicurezza-q2-demo}, PDF = {https://aifos.org/inst/aifos/public/data/general/sfogliabili/Quaderni-sicurezza/2020/Q2/demo/files/assets/common/downloads/Quaderno%20della%20Sicurezza%201.pdf}, title={L'impiego dei droni per la sicurezza nei cantieri post-sisma}, author={Calantropio, Alessio}, journal={Quaderni della Sicurezza AIFOS}, volume={11}, number={n. 2}, pages={39--45}, year={2020}, publisher={AiFOS - Associazione Italiana Formatori ed Operatori della Sicurezza sul~…}}
  • [PDF] [DOI] F. Porcelli, L. Sambuelli, C. Comina, A. Spanò, A. Lingua, A. Calantropio, G. Catanzariti, F. Chiabrando, F. Fischanger, P. Maschio, A. Ellaithy, G. Airoldi, and V. D. Ruvo, “Integrated Geophysics and Geomatics Surveys in the Valley of the Kings,” Sensors, vol. 20, iss. 6, p. 1552, 2020.
    [Bibtex]
    @article{Porcelli_2020,
    doi = {10.3390/s20061552},
    url = {https://doi.org/10.3390%2Fs20061552},
    pdf = {https://www.mdpi.com/1424-8220/20/6/1552/pdf},
    year = 2020,
    publisher = {{MDPI} {AG}},
    volume = {20},
    number = {6},
    pages = {1552},
    author = {Francesco Porcelli and Luigi Sambuelli and Cesare Comina and Antonia Span{\`{o}} and Andrea Lingua and Alessio Calantropio and Gianluca Catanzariti and Filiberto Chiabrando and Federico Fischanger and Paolo Maschio and Ahmed Ellaithy and Giulia Airoldi and Valeria De Ruvo},
    title = {Integrated Geophysics and Geomatics Surveys in the Valley of the Kings},
    journal = {Sensors}
    }
  • [PDF] [DOI] A. Calantropio, F. Chiabrando, V. De Ruvo, A. Lingua, P. Maschio, and A. Spanò, “Il rilievo metrico integrato della Valle dei Re: software open-source per la documentazione del patrimonio archeologico in Egitto,” IV Convegno italiano su Software e Dati Geografici Free e Open Source (FOSS4G-IT 2020), 2020.
    [Bibtex]
    @article{calantropio_alessio_2020_3723379,
    author = {Calantropio, Alessio and
    Chiabrando, Filiberto and
    De Ruvo, Valeria and
    Lingua, Andrea and
    Maschio, Paolo and
    Spanò, Antonia},
    title = {Il rilievo metrico integrato della Valle dei Re:
    software open-source per la documentazione del
    patrimonio archeologico in Egitto},
    year = 2020,
    journal = {IV Convegno italiano su Software e Dati Geografici Free e Open Source (FOSS4G-IT 2020)},
    doi = {10.5281/zenodo.3723379},
    pdf = {https://zenodo.org/record/3647630/files/Raccolta%20Abstract%20FOSS4G%202020.pdf},
    url = {https://doi.org/10.5281/zenodo.3723379}
    }

2019

  • [PDF] G. Patrucco, A. Calantropio, G. Sammartano, and L. Teppati Losé, “Tecniche di acquisizioni fotogrammetriche per il rilievo speditivo utilizzando una Steadycam commerciale,” A&RT – Atti e Rassegna Tecnica, vol. 73, iss. 3, p. 212–216, 2019.
    [Bibtex]
    @article{patrucco2019tecniche, url = {http://art.siat.torino.it/lxxiii-n-3/}, PDF = {http://art.siat.torino.it/wp-content/uploads/2020/07/A_RT_LXXIII_3.pdf}, title={Tecniche di acquisizioni fotogrammetriche per il rilievo speditivo utilizzando una Steadycam commerciale}, author={Patrucco, Giacomo and Calantropio, Alessio and Sammartano, Giulia and Teppati Los{\'e}, Lorenzo.}, journal={A&RT - Atti e Rassegna Tecnica}, volume={73}, number={3}, pages={212--216}, year={2019}, publisher={Societ{\`a} degli Ingegneri e degli Architetti in Torino}}
  • [PDF] A. Calantropio, F. Chiabrando, and A. T. Spanò, “Fotogrammetria digitale speditiva a supporto degli interventi di realizzazione di opere provvisionali,” A&RT – Atti e Rassegna Tecnica, vol. 73, iss. 3, p. 198–201, 2019.
    [Bibtex]
    @article{calantropio2019fotogrammetria, url = {http://art.siat.torino.it/lxxiii-n-3/}, PDF = {http://art.siat.torino.it/wp-content/uploads/2020/07/A_RT_LXXIII_3.pdf}, title={Fotogrammetria digitale speditiva a supporto degli interventi di realizzazione di opere provvisionali}, author={Calantropio, Alessio and Chiabrando, Filiberto and Span{\`o}, Antonia Teresa}, journal={A&RT - Atti e Rassegna Tecnica}, volume={73}, number={3}, pages={198--201}, year={2019}, publisher={Societ{\`a} degli Ingegneri e degli Architetti in Torino}}
  • [PDF] [DOI] A. Calantropio, “The Use of UAVs for Performing Safety-Related Tasks at Post-Disaster and Non-Critical Construction Sites,” Safety, vol. 5, iss. 4, p. 64, 2019.
    [Bibtex]
    @article{Calantropio_2019,
    doi = {10.3390/safety5040064},
    url = {https://doi.org/10.3390%2Fsafety5040064},
    pdf = {The Use of UAVs for Performing Safety-Related Tasks at Post-Disaster and Non-Critical Construction Sites},
    year = 2019,
    publisher = {{MDPI} {AG}},
    volume = {5},
    number = {4},
    pages = {64},
    author = {Alessio Calantropio},
    title = {The Use of {UAVs} for Performing Safety-Related Tasks at Post-Disaster and Non-Critical Construction Sites},
    journal = {Safety}
    }
  • [PDF] [DOI] A. Calantropio, F. Chiabrando, D. Einaudi, and L. Teppati Losè, “360° Images for UAV Multisensor Data Fusion: First Tests and Results,” ISPRS – International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, vol. XLII-2/W13, p. 227–234, 2019.
    [Bibtex]
    @Article{isprs-archives-XLII-2-W13-227-2019,
    AUTHOR = {Calantropio, A. and Chiabrando, F. and Einaudi, D. and Teppati Los\`e, L.},
    TITLE = {360° Images for UAV Multisensor Data Fusion: First Tests and Results},
    JOURNAL = {{ISPRS} - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences},
    VOLUME = {XLII-2/W13},
    YEAR = {2019},
    PAGES = {227--234},
    URL = {https://www.int-arch-photogramm-remote-sens-spatial-inf-sci.net/XLII-2-W13/227/2019/},
    PDF = {https://www.int-arch-photogramm-remote-sens-spatial-inf-sci.net/XLII-2-W13/227/2019/isprs-archives-XLII-2-W13-227-2019.pdf},
    DOI = {10.5194/isprs-archives-XLII-2-W13-227-2019}
    }
  • [PDF] A. Calantropio, F. Chiabrando, and A. Spanò, “Impiego di tecniche di fotogrammetria digitale speditiva a supporto delle opere provvisionali negli interventi tecnici in emergenza sismica,” Boll. SIFET Soc. Ital. Fotogramm. e Topogr., vol. 2018, iss. 3, p. 10, 2019.
    [Bibtex]
    @article{calantropio2019impiego,
    title={Impiego di tecniche di fotogrammetria digitale speditiva a supporto delle opere provvisionali negli interventi tecnici in emergenza sismica},
    pdf={https://www.sifet.org/sitoweb_old/phocadownloadpap/abstract/Paper2018/sifetn3_2018_calantropio_abs.pdf},
    author={Calantropio, Alessio and Chiabrando, Filiberto and Span{\`o}, Antonia},
    journal={Boll. SIFET Soc. Ital. Fotogramm. e Topogr.},
    volume={2018},
    number={3},
    pages={10},
    year={2019},
    publisher={SIFET}
    }
  • [PDF] [DOI] A. Alaoui M’Darhri, V. Baillet, B. Bourineau, A. Calantropio, G. Carpentiero, M. Chayani, L. De Luca, I. Dudek, B. Dutailly, H. Gautier, E. Grilli, V. Grimaud, C. Hoffmann, A. Joffres, N. Jončić, M. Jordan, J. Kimball, A. Manuel, McInerney, I. Muñoz Pandiella, A. Neroulidis, E. Nocerino, A. Pamart, C. Papadopoulos, M. Potenziani, E. Saubestre, R. Scopigno, D. Seillier, S. Tournon-Valiente, M. Trognitz, J. Vallet, and C. Zuanni, “PARTHENOS White Paper II: Share — Publish — Store — Preserve. Methodologies, Tools and Challenges for 3D Use in Social Sciences and Humanities.,” PARTHENOS Workshop, Marseilles, 2019.
    [Bibtex]
    @article{alaoui_m_darhri_anas_2019_3258316,
    author = {Alaoui M'Darhri, Anas and
    Baillet, Vincent and
    Bourineau, Bastian and
    Calantropio, Alessio and
    Carpentiero, Gabriella and
    Chayani, Mehdi and
    De Luca, Livio and
    Dudek, Iwona and
    Dutailly, Bruno and
    Gautier, Hélène and
    Grilli, Eleonora and
    Grimaud, Valentin and
    Hoffmann, Christoph and
    Joffres, Adeline and
    Jončić, Nenad and
    Jordan, Michel and
    Kimball, Justin and
    Manuel, Adeline and
    McInerney and
    Muñoz Pandiella, Imanol and
    Neroulidis, Ariane and
    Nocerino, Erica and
    Pamart, Anthony and
    Papadopoulos, Costas and
    Potenziani, Marco and
    Saubestre, Emilie and
    Scopigno, Roberto and
    Seillier, Dorian and
    Tournon-Valiente, Sarah and
    Trognitz, Martina and
    Vallet, Jean-Marc and
    Zuanni, Chiara},
    title = {{PARTHENOS} White Paper {II}: Share — Publish — Store
    — Preserve. Methodologies, Tools and Challenges
    for {3D} Use in Social Sciences and Humanities.},
    year = 2019,
    journal = {PARTHENOS Workshop, Marseilles},
    doi = {10.5281/zenodo.3258316},
    pdf = {https://zenodo.org/record/3258316/files/PARTHENOS-White-Paper-II_Challenges-for-3D-Use-in-Social-Sciences-and-Humanities_02-2019.pdf}
    url = {https://doi.org/10.5281/zenodo.3258316}
    }
  • [PDF] A. Calantropio, F. Matrone, and A. Lingua, “L’integrazione di tecniche fotogrammetriche e MMS nel rilievo metrico dei Beni Culturali,” Atti della Conferenza Nazionale #ASITA2019, vol. 23, p. 157–164, 2019.
    [Bibtex]
    @article{calantropio2019integrazione,
    title={L'integrazione di tecniche fotogrammetriche e {MMS} nel rilievo metrico dei Beni Culturali},
    pdf={http://atti.asita.it/ASITA2019/Pdf/168.pdf},
    author={Calantropio, A. and Matrone, F and Lingua, A},
    journal={Atti della Conferenza Nazionale #ASITA2019},
    volume={23},
    pages={157--164},
    year={2019},
    organization={Federazione delle Associazioni Scientifiche per le Informazioni Territoriali e Ambientali}
    }
  • A. Calantropio, F. Matrone, and A. Lingua, “Data Integration of Photogrammetric and Laser-Visual-Inertial Odometry based sensors in the Metric Survey of Cultural Heritage,” Proceedings of the International Workshop “R3 in GEOMATICS: Research, Results and Review”, p. 6, 2019.
    [Bibtex]
    @article{calantropio2019data,
    title={Data Integration of Photogrammetric and Laser-Visual-Inertial Odometry based sensors in the Metric Survey of Cultural Heritage},
    url={http://hdl.handle.net/11583/2776852},
    author={Calantropio, A. and Matrone, F and Lingua, A},
    journal={Proceedings of the International Workshop "R3 in GEOMATICS: Research, Results and Review"},
    pages={6},
    year={2019},
    organization={IOS Press}
    }

2018

  • [PDF] [DOI] A. Calantropio, F. Chiabrando, G. Sammartano, A. Spanò, and L. Teppati Losè, “UAV strategies validation and remote sensing data for damage assessment in post-disaster scenarios,” ISPRS – International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, vol. XLII-3/W4, p. 121–128, 2018.
    [Bibtex]
    @Article{isprs-archives-XLII-3-W4-121-2018,
    AUTHOR = {Calantropio, A. and Chiabrando, F. and Sammartano, G. and Span\`o, A. and Teppati Los\`e, L.},
    TITLE = {UAV strategies validation and remote sensing data for damage assessment in post-disaster scenarios},
    JOURNAL = {{ISPRS} - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences},
    VOLUME = {XLII-3/W4},
    YEAR = {2018},
    PAGES = {121--128},
    URL = {https://www.int-arch-photogramm-remote-sens-spatial-inf-sci.net/XLII-3-W4/121/2018/},
    PDF = {https://www.int-arch-photogramm-remote-sens-spatial-inf-sci.net/XLII-3-W4/121/2018/isprs-archives-XLII-3-W4-121-2018.pdf},
    DOI = {10.5194/isprs-archives-XLII-3-W4-121-2018}
    }
  • [PDF] [DOI] A. Calantropio, F. Chiabrando, F. Rinaudo, and L. Teppati Losè, “Use and evaluation of a short range small quadcopter and a portable imaging laser for built heritage 3D documentation,” ISPRS – International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, vol. XLII-1, p. 71–78, 2018.
    [Bibtex]
    @Article{isprs-archives-XLII-1-71-2018,
    AUTHOR = {Calantropio, A. and Chiabrando, F. and Rinaudo, F. and Teppati Los\`e, L.},
    TITLE = {Use and evaluation of a short range small quadcopter and a portable imaging laser for built heritage 3D documentation},
    JOURNAL = {{ISPRS} - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences},
    VOLUME = {XLII-1},
    YEAR = {2018},
    PAGES = {71--78},
    URL = {https://www.int-arch-photogramm-remote-sens-spatial-inf-sci.net/XLII-1/71/2018/},
    PDF = {https://www.int-arch-photogramm-remote-sens-spatial-inf-sci.net/XLII-1/71/2018/isprs-archives-XLII-1-71-2018.pdf},
    DOI = {10.5194/isprs-archives-XLII-1-71-2018}
    }
  • [PDF] [DOI] A. Calantropio, M. P. Deseilligny, F. Rinaudo, and E. Rupnik, “Evaluation of photogrammetric block orientation using quality descriptors from statistically filtered tie points,” ISPRS – International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, vol. XLII-2, p. 185–191, 2018.
    [Bibtex]
    @Article{isprs-archives-XLII-2-185-2018,
    AUTHOR = {Calantropio, A. and Deseilligny, M. P. and Rinaudo, F. and Rupnik, E.},
    TITLE = {Evaluation of photogrammetric block orientation using quality descriptors from statistically filtered tie points},
    JOURNAL = {{ISPRS} - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences},
    VOLUME = {XLII-2},
    YEAR = {2018},
    PAGES = {185--191},
    URL = {https://www.int-arch-photogramm-remote-sens-spatial-inf-sci.net/XLII-2/185/2018/},
    PDF = {https://www.int-arch-photogramm-remote-sens-spatial-inf-sci.net/XLII-2/185/2018/isprs-archives-XLII-2-185-2018.pdf},
    DOI = {10.5194/isprs-archives-XLII-2-185-2018}
    }
  • L. Dezzani, E. Maggi, and A. Calantropio, “Ricostruzione della struttura tardo antica della Porta Piemonte a Susa supportata da tecniche image-based di rilievo 3D,” SEGUSIUM, iss. 56, p. 282–294, 2018.
    [Bibtex]
    @article{dezzani2018ricostruzione,
    title={Ricostruzione della struttura tardo antica della Porta Piemonte a Susa supportata da tecniche image-based di rilievo {{{3D}}}},
    url={http://www.segusium.org/indici/articles/644},
    author={Dezzani, Livio and Maggi, Enrico and Calantropio, Alessio},
    journal={SEGUSIUM},
    number={56},
    pages={282--294},
    year={2018},
    publisher={Societ{\`a} di Ricerche e Studi Valsusini}
    }
  • [PDF] A. Calantropio, F. Chiabrando, and A. Spanò, “UAV photogrammetry and thematic maps for environmental risk assessment in construction safety,” EGU General Assembly Conference Abstracts, vol. 20, p. 19692, 2018.
    [Bibtex]
    @article{calantropio2018uav,
    title={{UAV} photogrammetry and thematic maps for environmental risk assessment in construction safety},
    pdf={https://meetingorganizer.copernicus.org/EGU2018/EGU2018-19692-1.pdf},
    author={Calantropio, Alessio and Chiabrando, Filiberto and Span{\`o}, Antonia},
    journal={EGU General Assembly Conference Abstracts},
    volume={20},
    pages={19692},
    year={2018}
    }

2017

  • [PDF] [DOI] A. Calantropio, G. Patrucco, G. Sammartano, and L. T. Losè, “Low-cost sensors for rapid mapping of cultural heritage: first tests using a COTS Steadicamera,” Applied Geomatics, vol. 10, iss. 1, p. 31–45, 2017.
    [Bibtex]
    @article{Calantropio_2017,
    doi = {10.1007/s12518-017-0199-6},
    url = {https://doi.org/10.1007%2Fs12518-017-0199-6},
    pdf = {https://link.springer.com/content/pdf/10.1007/s12518-017-0199-6.pdf},
    year = 2017,
    publisher = {Springer Science and Business Media {LLC}},
    volume = {10},
    number = {1},
    pages = {31--45},
    author = {Alessio Calantropio and Giacomo Patrucco and Giulia Sammartano and Lorenzo Teppati Los{\`{e}}},
    title = {Low-cost sensors for rapid mapping of cultural heritage: first tests using a {{COTS}} Steadicamera},
    journal = {Applied Geomatics}
    }
  • [PDF] [DOI] A. Calantropio, E. Colucci, and L. Teppati Losè, “Rapid Mapping for Built Heritage at Risk Using Low-Cost and Cots Sensors. a Test in the Duomo Vecchio of San Severino Marche,” ISPRS – International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, vol. XLII-2/W8, p. 59–66, 2017.
    [Bibtex]
    @Article{isprs-archives-XLII-2-W8-59-2017,
    AUTHOR = {Calantropio, A. and Colucci, E. and Teppati Los\`e, L.},
    TITLE = {Rapid Mapping for Built Heritage at Risk Using Low-Cost and Cots Sensors. a Test in the Duomo Vecchio of San Severino Marche},
    JOURNAL = {{ISPRS} - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences},
    VOLUME = {XLII-2/W8},
    YEAR = {2017},
    PAGES = {59--66},
    URL = {https://www.int-arch-photogramm-remote-sens-spatial-inf-sci.net/XLII-2-W8/59/2017/},
    PDF = {https://www.int-arch-photogramm-remote-sens-spatial-inf-sci.net/XLII-2-W8/59/2017/isprs-archives-XLII-2-W8-59-2017.pdf},
    DOI = {10.5194/isprs-archives-XLII-2-W8-59-2017}
    }
  • [PDF] A. Calantropio, G. Patrucco, G. Sammartano, and L. Teppati Losé, “Sensori LOW-COST per il Mapping Speditivo di Beni Culturali. Primi test su di una Steadycam LOW-COST,” Bollettino SIFET, vol. 2017, iss. 3, p. 10, 2017.
    [Bibtex]
    @article{calantropio2017sensori,
    pdf={https://www.sifet.org/sitoweb_old/phocadownloadpap/abstract/Paper2017/sifetn3_2017_calantropiook_abs.pdf},
    title={Sensori LOW-COST per il Mapping Speditivo di Beni Culturali. Primi test su di una Steadycam LOW-COST},
    author={Calantropio, Alessio and Patrucco, Giacomo and Sammartano, Giulia and Teppati Los{\'e}, Lorenzo.},
    journal={Bollettino SIFET},
    volume={2017},
    number={3},
    pages={10},
    year={2017},
    publisher={Boll. SIFET Soc. Ital. Fotogramm. e Topogr.}
    }
  • [PDF] A. Calantropio, “L’utilizzo dei droni per la sicurezza nei cantieri e negli interventi tecnici in emergenza sismica,” PhD Thesis, 2017.
    [Bibtex]
    @phdthesis{calantropio2017utilizzo,
    title={L’utilizzo dei droni per la sicurezza nei cantieri e negli interventi tecnici in emergenza sismica},
    pdf={https://www.fondazioneaifos.org/images/files/premio-tesi-laurea/2017/01_Tesi_Alessio_Calantropio.pdf},
    author={Calantropio, Alessio},
    year={2017},
    school={Politecnico di Torino}
    }

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