Design, realization, surveying and statistical analysis of
classical and GPS control networks for the study of crustal
deformations or monitoring of glacial bodies.
Measurement of the velocity-fields of glacial bodies through the
integration between GPS and satellite images. Design of control
points fixed on rocky outcrops, or on glacial bodies (coffee-can
systems).
Use of the GPS for altimetry and study of surveying techniques
for the monitoring of land subsidence.
Design and realization of local-ties measurements within
co-located geodetic observatories.
GPS kinematics surveys (aerial and terrestrial); integration of
sensors (GPR/GPS);
Verticality check and movements control of historical buildings
and of manmade structures.
Close-range and aerial digital photogrammetry. Realization of
remote systems for kite/balloon-based high resolution
photogrammetric surveys.
Integration of surveying methodologies in the field of Cultural
Heritage.
Aerial, terrestrial and underwater photogrammetric surveys using unmanned vehicles.
