Giuseppe Masetti received an M.S. degree in Ocean Engineering (Ocean Mapping option) from the University of New Hampshire in 2012, and a Master in Marine Geomatics (with honors) and a Ph.D. degree in System Monitoring and Environmental Risk Management from the University of Genoa, Italy, in 2008 and 2013, respectively. In addition, he graduated (with honors) in Political Sciences from the University of Pisa, Italy, in 2003 and in Diplomatic and International Sciences from the University of Trieste, Italy.
He has served with Italian Navy since 1999, and he has been Operation Officer aboard the hydrographic vessels ITN Aretusa and ITN Magnaghi. In 2004. he achieved the FIG/IHO Category A certification in 2010. From August 2013, he was a Tyco Post-Doctoral Fellow with the Center, where he focused on signal processing for marine target detection. He joined the faculty as a Research Assistant Professor in January 2016. His current areas of interest include methods to improve quality and speed in survey data acquisition and processing, acoustic seafloor characterization, and identification of fixed and transient features of the seafloor. He is the lead developer of the HydrOffice framework.
Ph.D., System Monitoring and Environmental Risk Management, University of Genoa
M., International Science & Diplomatic Relations, University of Trieste
M., Political Science, University of Pisa
M., Marine Geomatics, University of Genoa
M.S., Ocean Engineering, University of New Hampshire
Masetti, G., Kelley, J. G. W., Johnson, P., & Beaudoin, J. (2018). A Ray-Tracing Uncertainty Estimation Tool for Ocean Mapping. IEEE Access, 6, 2136-2144. doi:10.1109/access.2017.2781801
Masetti, G., Gallagher, B., Calder, B. R., Zhang, C., & Wilson, M. (2017). Sound Speed Manager: An open-source application to manage sound speed profiles. International Hydrographic Review, 17, 31-40.
Cocchi, L., Masetti, G., Muccini, F., & Carmisciano, C. (2016). Geophysical mapping of Vercelli Seamount: Implications for Miocene evolution of the Tyrrhenian back arc basin. Geoscience Frontiers, 7(5), 835-849. doi:10.1016/j.gsf.2015.06.006
Masetti, G., & Calder, B. R. (2015). Huddl: the Hydrographic Universal Data Description Language. International Hydrographic Review, (13), 17-32. Retrieved from internal-pdf://0657401392/
Masetti, G., & Calder, B. (2014). A risk index methodology for potentially polluting marine sites. Environment Systems and Decisions, 34(3), 391-405. doi:10.1007/s10669-014-9504-7
Masetti, G., & Calder, B. (2014). Design of a standardized geo-database for risk monitoring of potentially polluting marine sites. Environment Systems and Decisions, 34(1), 138-149. doi:10.1007/s10669-013-9486-x
Masetti, G., & Calder, B. (2012). Remote identification of a shipwreck site from MBES backscatter. Journal of Environmental Management, 111, 44-52. doi:10.1016/j.jenvman.2012.06.037
Masetti, G., Calder, B., & Alexander, L. (2012). Potentially Polluting Marine Sites GeoDB: An S-100 Geospatial Database as an Effective Contribution to the Protection of the Marine Environment. International Hydrographic Review, (8), 27-40. Retrieved from internal-pdf://0231826941/
Masetti, G., Sacile, R., & Trucco, A. (2011). Remote characterization of seafloor adjacent to shipwrecks using mosaicking and analysis of backscatter response. Italian Journal of Remote Sensing, 77-92. doi:10.5721/itjrs20114326
Masetti, G., Mayer, L., & Ward, L. (n.d.). A Bathymetry- and Reflectivity-Based Approach for Seafloor Segmentation. Geosciences, 8(1), 14. doi:10.3390/geosciences8010014