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Titel |
Terrestrial Laser Scanning (TLS) over volcanic areas: experiments on Vesuvius, Stromboli and Vulcano (Italy) |
VerfasserIn |
Alessandro Bonforte, Francesco Calvagna, Massimo Cantarero, Giuseppe Casula, Orazio Consoli, Salvatore Consoli, Mario Marturano, Arianna Pesci, Giuseppe Puglisi, Benedetto Saraceno |
Konferenz |
EGU General Assembly 2011
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Medientyp |
Artikel
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Sprache |
Englisch
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Digitales Dokument |
PDF |
Erschienen |
In: GRA - Volume 13 (2011) |
Datensatznummer |
250055963
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Zusammenfassung |
Geomorphological changes of areas affected by crustal deformation, eruptive events,
gravitative instabilities, landslide and glacier evolution, and other phenomena, can be
detected and quantified using high-accuracy digital surface models. The comparison between
multitemporal models provides a space-time description of geophysical processes, and can be
used to estimate deformation patterns, displacements, surface variations, volumes involved in
mass movements, and other physical features. Several techniques, including GPS kinematic
methodology, digital aerial and terrestrial photogrammetry, airborne and terrestrial laser
scanning, satellite-based and ground-based interferometric radar and optical satellite
imagery systems, are suitable surveying methods that provide appropriate spatial
resolution.
Terrestrial Laser Scanning (TLS) allows an accurate and cost-effective representation of
the topographical details of the observed surface. For this reason, TLS is currently used in
geologic survey, engineering practice, cultural heritage, and mobile mapping. Besides the
geometric data, the point cloud provided by a TLS observation contains radiometric
information, i.e. the intensity of the received pulses, that can be used for classification
purposes. Moreover, some instruments are equipped with a calibrated camera to add RGB
color data to the intensity data. Since a TLS survey, including the corresponding data
processing and analysis, can be carried out in relatively short time, an operational procedure
can be planned and executed. The TLS and other remote sensing techniques, like digital
photogrammetry, can be integrated to profit from the strength of each single technique and
overcome the corresponding weakness, leading to a better modeling of the observed
system.
We show the results of observations on three Italian volcanoes by using a TLS recently
implemented in the monitoring system of the INGV. The most complete set has been acquired
on Mt. Vesuvius crater in May 2005, October 2006 and June 2009. The whole crater was
measured with several overlapped scans and the corresponding digital surface models were
generated and registered into the UTM-WGS84 reference frame. The comparison between
the models leads to an evaluation of the occurred changes. The deformation maps showed a
progressive mass loss due to rock-falls in an area of about 5000 m2 with a corresponding
accumulation at the bottom of the crater. The volume loss which occurred from 2005 to 2009,
was computed by subtraction of volumes defined with respect to reference planes parallel
to the caldera walls and was estimated to be 20300 m3. Some results were also
interpreted on the basis of micro-seismic and meteorological data in order to plan a
monitoring technique where seismic signals related to rock-fall and/or signals of
intense rainfalls are used as alarms for fast TLS surveys able to characterize the
corresponding changes of the caldera walls. The proposed methodology, in particular the
simple but effective approach used in the estimation of volume uncertainties, can
be applied to each rock slope instability phenomenon, regardless to the particular
environment.
Two measurements were carried out at Vulcano in April 2009, by surveying the
whole “La Fossa” crater and the “La Forgia” unstable slope, and in April 2010, by
re-surveying again the “La Forgia” slope. All measurements were acquired with several
overlapped scans. The comparison between the two measurements at “La Forgia”
shows small change in the morphology that will be further investigated by new
measurements; new measures will also be carried out to image again the “La Fossa”
crater.
Measurements at Stromboli were aimed at testing the capability of the technique in very
difficult surveying conditions: the 2007 lava fan in the Sciara del Fuoco, an inaccessible and
unstable area of the Stromboli volcano. In such a condition, TLS observes the fan
only with high incidence angles and from distances longer than La Fossa case. In
addition, the lava fan consists in black porous lavas, characterized by a bad reflectivity. |
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