Manuel Corti scite author profile

Abstract. Tourists and hikers visiting glaciers all year round face hazards such as sudden terminus collapses, typical of such a dynamically evolving environment. In this study, we analyzed the potential of different survey techniques to analyze hazards of the Forni Glacier, an important geosite located in Stelvio Park (Italian Alps). We carried out surveys in the 2016 ablation season and compared point clouds generated from an unmanned aerial vehicle (UAV) survey, closerange photogrammetry and terrestrial laser scanning (TLS). To investigate the evolution of glacier hazards and evaluate the glacier thinning rate, we also used UAV data collected in 2014 and a digital elevation model (DEM) created from an aerial photogrammetric survey of 2007. We found that the integration between terrestrial and UAV photogrammetry is ideal for mapping hazards related to the glacier collapse, while TLS is affected by occlusions and is logistically complex in glacial terrain. Photogrammetric techniques can therefore replace TLS for glacier studies and UAV-based DEMs hold potential for becoming a standard tool in the investigation of glacier thickness changes. Based on our data sets, an increase in the size of collapses was found over the study period, and the glacier thinning rates went from 4.55 ± 0.24 m a −1 between 2007 and 2014 to 5.20 ± 1.11 m a −1 between 2014 and 2016.

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Technical Aspects Related to the Application of SFM Photogrammetry in High Mountain

Scaioni¹,

Crippa²,

Corti³

et al. 2018

Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci.

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ABSTRACT:Structure-from-Motion (SfM) photogrammetry is a flexible and powerful tool to provide 3D point clouds describing the surface of objects. Due to the easy transportability and low-cost of necessary equipment with respect to laser scanning techniques, SfM photogrammetry has great potential to be applied in harsh high-mountain environment. Here point clouds and derived by-products (DEM's, orthoimages, Virtual-Reality models) are needed to document surface morphology and to investigate dynamic processes such as landslides, avalanches, river and soil erosion, glacier retreat. On the other hand, from both the literature and the direct experience of the authors, there are some technical issues that still deserve thorough investigations. The paper would like to address some open problems and suggest solutions, in particular on regards of the photogrammetric network design, the strategy for georeferencing the final products, and for their comparison within time. The discussion is documented with some examples, mainly from surveying campaigns at the Forni Glacier in Italian Alps.

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Combination of UAV and terrestrial photogrammetry to assess rapid glacier evolution and conditions of glacier hazards

Fugazza

Scaioni

Corti

et al. 2017

Preprint

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11Tourists and hikers visiting glaciers all year round face hazards such as the rapid formation of collapses 12 at the terminus, typical of such a dynamically evolving environment. In this study, we analysed potential 13 hazards of the Forni glacier, an important geo-site located in Stelvio Park (Italian Alps), by describing 14 local surface features and evaluating the glacier melting rate. The analyses were based on point clouds 15and digital elevation models ( respect to the rates of glacier down-wasting, while terrestrial photogrammetry allowed the reconstruction 21 of the glacier terminus, presenting several vertical and sub-vertical surfaces whose modelling was 22 difficult to obtain from airborne UAV images. The integration of UAV and terrestrial photogrammetry 23 provided a detailed and accurate 3D model of the glacier tongue, which we used to identify hazard areas. 24 25

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Local and General Monitoring of Forni Glacier (Italian Alps) Using Multi-Platform Structure-From-Motion Photogrammetry

Scaioni

Corti

Diolaiuti

et al. 2017

Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci.

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ABSTRACT:Experts from the University of Milan have been investigating Forni Glacier in the Italian alps for decades, resulting in the archive of a cumbersome mass of observed data. While the analysis of archive maps, medium resolution satellite images and DEM's may provide an overview of the long-term processes, the application of close-range sensing techniques offers the unprecedented opportunity to operate a 4D reconstruction of the glacier geometry at both global and local levels. In the latest years the availability of high-resolution DEM's from stereo-photogrammetry (2007) and UAV-photogrammetry (2014 and has allowed an improved analysis of the glacier ice-mass balance within time. During summer 2016 a methodology to record the local disruption processes has been investigated. The presence of vertical and sub-vertical surfaces has motivated the use of Structure-from-Motion Photogrammetry from ground-based stations, which yielded results comparable to the ones achieved using a long-range terrestrial laser scanner. This technique may be assumed as benchmarking for accuracy assessment, but is more difficult to be operated in high-mountain areas. Nevertheless, the measurement of GCP's for the terrestrial photogrammetric project has revealed to be a complex task, involving the need of a total station a GNSS. The effect of network geometry on the final output has also been investigated for SfM-Photogrammetry, considering the severe limitations implied in the Alpine environment.

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Integration of Terrestrial and Uav Photogrammetry for the Assessment of Collapse Risk in Alpine Glaciers

Scaioni

Barazzetti

Corti

et al. 2018

Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci.

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<p><strong>Abstract.</strong> The application of Structure-from-Motion photogrammetry with ground-based and UAV-based camera stations can be effectively exploited for modeling the topographic surface of Alpine glaciers. Multi-temporal repeated surveys may lead to geometric models that may be applied to analyze the glacier retreat under global warming conditions. Here the case study of Forni Glacier in the Italian Alps is presented. Thanks to the integration of point clouds obtained from the independent photogrammetric processing of ground-based and UAV blocks of images (captured on 2016), a complete 3D reconstruction also including vertical and sub-vertical surfaces has been achieved. This 3D model, compared to a second model obtained from a ground-based photogrammetric survey on September 2017, has been exploited to understand the precursory signal of a big collapse that might have involved tourists and hikers visiting the glacier ice tongue during summer. In addition to some technical aspects related to the acquisition and processing of photogrammetric data of glaciers, this paper highlights how Structure-from-Motion photogrammetry may help evaluate the risk of collapse in Alpine glaciers.</p>

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Evaluation of NBS Solutions for Climate Resilience and Adaptation in the Sub-saharan Africa: The Case of Ghana’s Ashanti Region

Corti

Assumma

Pittau

2023

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Manuel Corti

Combination of UAV and terrestrial photogrammetry to assess rapid glacier evolution and map glacier hazards

Technical Aspects Related to the Application of SFM Photogrammetry in High Mountain

Combination of UAV and terrestrial photogrammetry to assess rapid glacier evolution and conditions of glacier hazards

Local and General Monitoring of Forni Glacier (Italian Alps) Using Multi-Platform Structure-From-Motion Photogrammetry

Integration of Terrestrial and Uav Photogrammetry for the Assessment of Collapse Risk in Alpine Glaciers

Evaluation of NBS Solutions for Climate Resilience and Adaptation in the Sub-saharan Africa: The Case of Ghana’s Ashanti Region

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