Marco BALDO

Personale Tecnico
Collaboratore Tecnico E.R.
+39 011 3977821
+39 011 3977821
marco.baldo (at) irpi.cnr.it
Strada delle Cacce, 73 10135, Torino
Torino


geo-monitoraggio

MAIN JOURNAL PUBBLICATIONS:

• Giordan D.; Adam M. S.; Aicardi I.; Alicandro M.; Allasia P.; Baldo M.; De Bernardinis P.; Dominici D.; Godone D.; Hobbs P.; Lechner V.; Niedzielski T.; Piras M.; Rotilio M.; Salvini R.; Segor V.; Sotier B.; Troilo F., (2020) The use of unmanned aerial vehicles (UAVs) for engineering geology applications. Bulletin of Engineering Geology and the Environment (ISSN: 1435-9537), 10.1007/s10064-020-01766-2.

• Santangelo M., Alvioli M., Baldo M., Cardinali M., Giordan D., Guzzetti F., Marchesini I., Reichenbach P., (2019) Brief communication: Remotely piloted aircraft systems for rapid emergency response: Road exposure to rockfall in Villanova di Accumoli (central Italy) Natural Hazards and Earth System Sciences, DOI: 10.5194/nhess-19-325-2019.

• Godone D., Giordan D., Baldo M., (2018), Rapid mapping application of vegetated terraces based on high resolution airborne LiDAR, Geomatics, Natural Hazards and Risk (ISSN: 1947-5713), 10.1080/19475705.2018.1478893.

• Giordan D.,Cignetti M., Baldo M., Godone D., (2017),Relationship between man-made environment and slope stability: the case of 2014 rainfall events in the terraced landscape of the Liguria region (northwestern Italy), Geomatics, Natural Hazards and Risk (ISSN: 1947-5713), 10.1080/19475705.2017.1391129.

• Civico R., Blumetti A.M., Chiarini E., Romana Cinti F., La Posta E., Papasodaro F., Sapia V., Baldo M., Lollino G., Pantosti D. (2016) Traces of the active Capitignano and San Giovanni faults (Abruzzi Apennines, Italy), Journal of Maps, 12:sup1, 453-459, DOI: 10.1080/17445647.2016.1239229.

• Giordan D., Manconi A., Facello A., Baldo M., Dell’Anese F., Allasia P., Dutto F. 2015 Brief Communication: The use of an unmanned aerial vehicle in a rockfall emergency scenario. Nat. Hazards Earth Syst. Sci., 15, 163–169.

• Giordan D., Allasia P., Manconi A., Baldo M., Santangelo M., Cardinali M., Corazza A., Albanese V., Lollino G., Guzzetti F. (2013) Morphological and kinematic evolution of a large earthflow: The Montaguto landslide, southern Italy – Geomorphology - 01/2013; DOI:10.1016/j.geomorph.2012.12.035

• Allasia P., Manconi A., Giordan D., Baldo M., Lollino G. (2013) A New Approach for Near-Real-Time Monitoring of Surface Displacements in Landslide Hazard Scenarios. - Sensors 01/2013; 13(7):8285-8302. DOI:10.3390/s130708285

• Manconi A., Giordan D., Allasia P., Baldo M., Lollino G. (2011) Surface displacements following the Mw 6.3 L’Aquila earthquake: One year of continuous monitoring via Robotized Total Station. Italian Journal of Geosciences – Special issue “Understanding the April 6th 2009 L’Aquila earthquake: the geological contribution” – Italian Journal of Geosciences 01/2012; 131(3):403-409

• Turitto O., Baldo M., Audisio C., Lollino G. (2010)  A LiDAR application to assess long-term bed-level changes in a cobble-bed river: the case of the Orco river (North West Italy). Geografia Fisica e Dinamica  Quaternaria, 33: 61-76.

• Baldo M., Bicocchi C., Chiocchini U., Giordan D., Lollino G. (2009) LIDAR monitoring of mass wasting processes: the Radicofani landslide, Province of Siena, central Italy. Geomorphology, 105:193 – 201.

• Giordan D., Manconi A., Facello A., Baldo M., Dell’Anese F., Allasia P., Dutto F. 2014 Brief Communication: The use of an unmanned aerial vehicle in a rockfall emergency scenario. Nat. Hazards Earth Syst. Sci. Discuss., 2, 4011–4029.

PROCEEDINGS:

• Stroppiana D., Pepe M., Boschetti M., Candiani G., Giordan D., Baldo M., Monopoli L. (2019), Estimating crop density from multispectral uav magery in maize crop. The International Archives of the Photogrammetry, Remote Sensind and Spatial Information Sciences, Volume XLII-2/W13, 2019 ISPRS Geospatial Week 2019, 10-14 june 2019, Enschede, The Netherlands.

• Guenzi D., Baldo M., Allasia P., Giordan D. (2019)  Open source, low-cost and modular fixed-wing UAV with BVLOS flight capabilities for geohazards monitoring and surveying Conference: 2019 IEEE International Workshop on Metrology for AeroSpace. Torino, Italy. https://ieeexplore.ieee.org/document/8869630;DOI: 10.1109/MetroAeroSpace.2019.8869630.

• Allasia P., Baldo M., Giordan D., Godone D., Wrzesniak A., Lollino G. (2019) Near Real Time Monitoring Systems and Periodic Surveys Using a Multi Sensors UAV: The Case of Ponzano Landslide. In: Shakoor A., Cato K. (eds) IAEG/AEG Annual Meeting Proceedings, San Francisco, California, 2018 - Volume 1. Springer, Cham.

• Antronico L., Allasia P., Baldo M.,Greco R., Robustelli G.,Sorriso-Valvo M., (2014) The use od Airborne LiDAR Data in Basin-Fan System Monitoring: An Example from Southern Calabria (Italy). IAEG 2014 – Proceedings – Volume 2. DOI: 10.1007/978-3-319-09057-3_71.

• Allasia P., Manconi A., Giordan D., Baldo M., Lollino G. (2013) Efficient near-real-time monitoring of 3D surface displacements in complex landslide scenarios In proceeding of: EGU General Assembly Conference Abstracts.

• Manconi A., Allasia P., Giordan D., Baldo M., Lollino G., Corazza A., Albanese V. (2011) Landslide 3D surface deformation model obtained via RTS measurements. Second World Landslide Forum, 3-7 October 2011, Rome, 5 pp. (submitted and accepted). (Vedasi allegato 53).

• Damiano E., Giordan D., Allasia P., Baldo M., Sciarra N., Lollino G. (2011) Multitemporal study of the San Martino Sulla Marrucina landslide (Central Italy). Second World Landslide Forum, Rome 3-7 October 2011. (submitted and accepted).

• Allasia P., Pensa R.G., Manconi A., Baldo M., Giordan D., Lollino G. (2011) GeomonWeb: a web-based monitoring system for landslide phenomena. Environmental Geosciences and Engineering Survey for Territory Protection and Population Safety, Moscow 6-7 September 2011. 275-278.

• Giordan D., Manconi A., Allasia P., Baldo M., Lollino G. (2011) L’ Aquila earthquake: feedbacks from one year of surface displacements monitoring. Environmental Geosciences and Engineering Survey for Territory Protection and Population Safety, Moscow 6-7 September 2011, 68-72.

• Lollino G., Pasculli A., Sciarra N., Baldo M., Giordan D. (2007) An integrated methodology based on LIDAR, GPS and photogrammetric surveys applied to large landslide in San Martino sulla Marrucina (Central Italy). In Proceedings of First North American Landslide Conference (Editors: Schaefer V.R., Schuster R.L., Turner A.K.), Vail Colorado, AEG Special Publication, 23: 356-365. 

• Lollino G., Baldo M., Giordan D., Allasia P. (2005) New methodology to evaluate morphological changes of river reaches: the case of Orco River (Piedmont, Italy). International Conference of Reservoir Operation & River Management (ICROM’05), September 17-23, 2005, Guangzhou and Three Gorges, China, 8 pp.

• Lollino G., Allasia P., Baldo M., Giordan D., Rivarossa C. (2005) Monitoring in continuous of landslides phenomena that interest the road network: the case of Gardiola landslide (Turin – Italy) and the Provincial Road N. 169. International Symposium on latest natural disasters -  new challenges for engineering geology, geotechnics and civil protection, 5-8 September 2005, Sofia, Bulgaria, 8 pp.

• Brunamonte F., Lollino G., Baldo M. (2003) An integrated approach to the study of large landslides in the northern apennines: from a historical catalogue to the application of new monitoring techniques.  4° Congresso Europeo sulla cartografia geoscientifica regionale ed i sistemi informativi, Bologna 14-17 Giugno 2003.

BOOK CHAPTERS:

• Lollino G., Manconi A., Giordan D., Allasia p., Baldo M. 2015. Infrastructure in Geohazard Contexts: The Importance of Automatic and Near-Real-Time Monitoring.  E Culshaw, M.G. Osipov, V.I., Booth, S.J., Victorov, A.S. (eds.) Environmental Security of the European Cross-Border Energy Supply Infrastructure. NATO Science for Peace and Security Series C: Environmental Security. Springer, Netherlands, 73-89. DOI: 10.1007/978-94-017-9538-8_6.

• L. Torrero, L. Seoli, A. Molino, D. Giordan, A. Manconi, P. Allasia, and M. Baldo The Use of Micro-UAV to Monitor Active Landslide Scenarios. 2015. In Engineering Geology for Society and Territory, vol. V, G. Lollino, A. Manconi, F. Guzzetti, M. Culshaw, P. Bobrowsky and F. Luino, Eds. Springer International Publishing Switzerland, 2015, pp. 701-704. DOI: 10.1007/978-3-319-09048-1_136.

• Antronico L., Allasia P., Baldo M.,Greco R., Robustelli G.,Sorriso-Valvo M., (2014) The use od Airborne LiDAR Data in Basin-Fan System Monitoring: An Example from Southern Calabria (Italy). G. Lollino et al. (ads.) Engeneering Geology for Society and Territory – Volume 2. DOI: 10.1007/978-3-319-09057-3_71.

• Manconi A., Allasia P., Giordan D., Baldo M., Lollino G. 2013 Monitoring the stability of infrastructures in an emergency: The “Costa Concordia” vessel wreck. Wu & Qi (eds). Global View of Engineering Geology and the Environment –Taylor & Francis Group, London, 587-591. ISBN 978-1-138-00078-0.

• Manconi A., Allasia P., Giordan D., Baldo M., Lollino G., Corazza A., Albanese V. 2013 Landslide 3D surface deformation model obtained via RTS measurements. In: Margottini, C., Canuti, P., Sassa, K. (eds.), C. Margottini et al. (eds.), Landslide Science and Practice, Vol. 2, p. 431-436, Springer-Verlag Berlin Heidelberg. DOI 10.1007/978-3-642-31445-2_56.

• Damiano E., Giordan D., Allasia P., Baldo M., Sciarra N., Lollino G. 2013 Multitemporal Study of the San Martino Sulla Marrucina Landslide (Central Italy). In: Margottini, C., Canuti, P., Sassa, K. (eds.), Landslide Science and Practice, Vol. 2, p. 257-263, Springer-Verlag Berlin Heidelberg. DOI 10.1007/978-3-642-31445-2_33.

• PROGETTO PERMANET – PROGRAMMA ALPINE SPACE: Permafrost in Veneto: Distribuzione, Analisi e Possibili Effetti Ambientali (2011). Contributo scritto.

• Lollino G., Giordan D., Allasia P., Baldo M.  (2010) Landslide monitoring systems based on new instrumentation for the detection of topographic and deep displacement in: Geologically Active – Williams et al. (eds), Taylor & Francis Group, London, 2123 – 2131. ISBN 978-0-415-60034-7.

• Allasia P., Audisio C., Baldo M., Cirio C.G., Lollino G., Giordan D., Godone F., Nigrelli G., Alpe F., Ambrogio S., Giardino M., Perotti L., Sambuelli L., De Renzo G., Fontan D., Barbero T. (2004) Instrumented experimental sites for the control of landslide hazards in mountain environments: the Germanasca and Susa Valleys (NorthWestern Italy). In: Guerrieri L., Rischia I. Serva L. (Series Eds) “Field Trip Guide Books”, 32nd International Geological Conference, Florence 20-28 Agosto 2004, Memorie Descrittive della Carta Geologica d'Italia, Vol. LXIII (5), P - 41, APAT, Roma, 40 pp.

Geodeta con ventennale esperienza nel campo della pianificazione, esecuzione e post processamento di dati provenienti da sistemi a scansione laser aerotrasportati (LiDAR) e nel trattamento / validazione di osservazioni topografiche / geodetiche per lo studio delle problematiche relative al passaggio tra sistemi di riferimento geodetici (Datum). Si occupa inoltre della progettazione, della misura e della compensazione di reti GNSS di alta precisione per il monitoraggio delle deformazioni di versante.

Dal 2011 gestisce il sistema LiDAR aerotrasportato CNR IRPI (testa laser RIEGL LMS-680i + camera HASSELBLAD medio formato H3DII-39 50mm) con responsabilità di:

- supervisione dell'installazione certificata EASA su AIRBUS HELICOPTER / EUROCOPTER AS350 / 355 F2 (Twin engine);

- pianificazione ed 'esecuzione dei rilevamenti aerei con sistema di guida CCNS (Computer Controlled Navigation System);

- completo data processing acquisito.

- http://www.irpi.cnr.it/focus/lidar-aviotrasportato-per-attivita-di-ricerca/ 

http://www.irpi.cnr.it/il-lidar-aerotrasportato-cnr-irpi-ha-ottenuto-la-certificazione-easa-minor/

E' inoltre coinvolto in attività di rilevamento del territorio con velivoli UAV (abilitazione ENAC per VL/MC CRO; VL/Ap e L/Ap CRO) e nello sviluppo di aeromobili unmanned ad ala fissa long-endurance e multipurpose.

- http://www.irpi.cnr.it/uav-fixed-wing-cnr-irpi-gmg-t1/

- http://www.irpi.cnr.it/uav-fixed-wing-cnr-irpi-rilevamento-ottico-rgb-e-multispettrale-della-frana-di-ponzano-te/

- http://www.irpi.cnr.it/nuovo-drone-ad-ala-fissa-per-il-rilevamento-del-territorio/