Research Interests
Geophysical methods for environmental applications, with particular regard to the characterization of hydrological systems, precision agriculture, coastal intrusion, permafrost, and contaminated sites. Methods of choice are Electrical Resistivity Tomography (ERT), Frequency-domain Electromagentic (FDEM) and Time-domain Electromagentic (TDEM).
Development of low-cost and robust autonomous ERT (A-ERT) monitoring set-up and processing tool for detailed environmental studies.
Integration of non-invasive geophysical techniques and invasive point-scale measurements for in-situ and laboratory calibrations for soil properties mapping/monitoring,
Integration of hydrological measurements/modeling with evidence from geophysical methods for calibrating the hydraulic parameters.
Geophysical methods for environmental applications, with particular regard to the characterization of hydrological systems, precision agriculture, coastal intrusion, permafrost, and contaminated sites. Methods of choice are Electrical Resistivity Tomography (ERT), Frequency-domain Electromagentic (FDEM) and Time-domain Electromagentic (TDEM).
Development of low-cost and robust autonomous ERT (A-ERT) monitoring set-up and processing tool for detailed environmental studies.
Integration of non-invasive geophysical techniques and invasive point-scale measurements for in-situ and laboratory calibrations for soil properties mapping/monitoring,
Integration of hydrological measurements/modeling with evidence from geophysical methods for calibrating the hydraulic parameters.