Lorenzo Galleani
Politecnico di Torino
Torino, Italy
Grants for the development of the Galileo navigation system1
Galileo FOC Exploitation (Part 2) (01/2017 - 12/2020)
Improvement of the atomic clock anomaly detection algorithm developed in the Galileo FOC Exploitation Part 1 grant for the validation of the timing aspects of the Galileo system (within the System Engineering Technical Assistance (SETA) activities of the Full Operation Capability (FOC) Exploitation phase of the Galileo navigation system); support to the use and tuning of the detector; support to the interpretation of the detection results.
Galileo FOC Exploitation (Part 1) (01/2015 - 12/2016)
Study, development, and Matlab implementation of an atomic clock anomaly detection algorithm for the validation of the timing aspects of the Galileo system (within the System Engineering Technical Assistance (SETA) activities of the Full Operation Capability (FOC) Exploitation phase of the Galileo navigation system).
The Galileo Time Validation Facility (01/2011 - 12/2014)
Study, development, and Matlab implementation of the algorithm for the synchronization (steering) of the Galileo System Time with the Universal Time Coordinated (UTC), the world reference time generated at the Bureau International des Poids et Mesures (BIPM) in Paris (Sèvres) ; study, development and Matlab implementation of a fast and robust anomaly detector for the space and ground clocks of the Galileo system.
The Galileo Precise Timing Facility (01/2006 - 12/2009)
Study, development, and Matlab implementation of the Galileo System Time (GST) algorithm which generates the time reference for all of the space and ground clocks of the Galileo system; GST is also disseminated worldwide to billions of potential users.
Clock anomaly detection algorithm (01/2009 - 12/2010)
Development and characterization of an automatic and robust anomaly detection algorithm for the atomic clocks of the Galileo system.
Advanced Integrity for Satellite Navigation Systems - ADVENT (01/2008 - 12/2009)
Development of anomaly detection algorithms for the atomic clocks of the Galileo system.
European grants2
Robust Optical Clocks for International Timescales - ROCIT (05/2019 - 04/2022)
Development and characterization of a robust time scale algorithm based on optical clocks.
DEMonstrator of EGNSS services based on Time Reference Architecture - DEMETRA (01/2015 - 12/2016)
Study, development, and Matlab implementation of an anomaly detection algorithm based on the Kalman filter for the Galileo atomic space clocks.
US government agencies grants3
Nonstationary Signal Processing (2005 - 2006)
Grant from the Central Intelligence Agency (CIA), Langley, VA, for the development of a MATLAB software for time-frequency analysis of nonstationary signals.
Signal and Image Processing in Different Representations (2003 - 2006)
Time-Frequency/Scale Signal Analysis (2001 - 2006)
Astronomical Data Analysis (1999 - 2001)
3Role: Scientific consultant for the City University of New York – Hunter College
National and regional grants
Automatic Real-time Clock Anomaly Detection and Identification Algorithm - ARCADIA (01/2007 - 12/2009)
PRIN 2007 project on the development and characterization of an automatic clock anomaly detection algorithm based on the dynamic Allan variance (DAVAR) for the atomic clocks of navigation satellite systems. Role: PI for Politecnico di Torino.
Signal processing for spring protection areas (12/2005 - 06/2007)
Piedmont region grant for the study, development, and Matlab implementation of the VESPA (Vulnerability Estimator for Spring Protection Areas) index, an indicator of the vulnerability of a spring used for the definition of its protection area. Role: PI for the Department of Electronics, Politecnico di Torino.