His primary areas of investigation include Geodesy, Seismology, Interferometric synthetic aperture radar, GNSS augmentation and Remote sensing. His studies examine the connections between Geodesy and genetics, as well as such issues in Fault, with regards to Geodetic datum and Sampling. His study in the field of Volcano is also linked to topics like Fault model, von Mises yield criterion and Double fault.
GNSS augmentation overlaps with fields such as Synthetic aperture radar, Image resolution and Displacement in his research. His Synthetic aperture radar study deals with Interferometry intersecting with Pixel, Algorithm and Amplitude. His study explores the link between Remote sensing and topics such as Surface that cross with problems in Focus, Geospatial analysis and Time series.
Antonio Pepe spends much of his time researching Synthetic aperture radar, Remote sensing, GNSS augmentation, Geodesy and Interferometry. When carried out as part of a general Synthetic aperture radar research project, his work on Interferometric synthetic aperture radar is frequently linked to work in Displacement, therefore connecting diverse disciplines of study. His Interferometric synthetic aperture radar study incorporates themes from Inverse synthetic aperture radar and Radar imaging.
Antonio Pepe has researched Remote sensing in several fields, including Focus, X band, Satellite data and Scale. His work in Geodesy addresses subjects such as Deformation, which are connected to disciplines such as Subsidence. His research in the fields of Caldera, Tectonics and Fault overlaps with other disciplines such as Series.
His main research concerns Synthetic aperture radar, Remote sensing, Interferometry, Interferometric synthetic aperture radar and GNSS augmentation. He merges Synthetic aperture radar with Displacement in his study. In his research, Geometry is intimately related to Satellite data, which falls under the overarching field of Remote sensing.
His work in Interferometry tackles topics such as Algorithm which are related to areas like Sequence. His Interferometric synthetic aperture radar research is multidisciplinary, incorporating elements of Geospatial analysis, Search engine, Noise, Flood myth and Thesaurus. His Geodesy research integrates issues from Surface deformation and Seismology.
Antonio Pepe focuses on Remote sensing, Interferometric synthetic aperture radar, Synthetic aperture radar, Interferometry and GNSS augmentation. His studies in Remote sensing integrate themes in fields like Flood mapping and Satellite data. His Interferometric synthetic aperture radar research incorporates themes from Data mining, Search engine, Geodesy, Flood myth and Thesaurus.
His work carried out in the field of Synthetic aperture radar brings together such families of science as Mean squared error, Ground truth, Ground subsidence and Multi sensor. The study incorporates disciplines such as Aperture and Ionosphere in addition to Interferometry. GNSS augmentation is intertwined with Terrain and Deformation in his research.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
An Overview of the Small BAseline Subset Algorithm: a DInSAR Technique for Surface Deformation Analysis
Riccardo Lanari;Francesco Casu;Francesco Casu;Mariarosaria Manzo;Mariarosaria Manzo;Giovanni Zeni;Giovanni Zeni.
Pure and Applied Geophysics (2007)
On the Extension of the Minimum Cost Flow Algorithm for Phase Unwrapping of Multitemporal Differential SAR Interferograms
A. Pepe;R. Lanari.
IEEE Transactions on Geoscience and Remote Sensing (2006)
SLC7A7, encoding a putative permease-related protein, is mutated in patients with lysinuric protein intolerance.
Giuseppe Borsani;Maria Teresa Bassi;Maria Pia Sperandeo;Alessandro De Grandi.
Nature Genetics (1999)
Gravity and magma induced spreading of Mount Etna volcano revealed by satellite radar interferometry
P. Lundgren;F. Casu;M. Manzo;A. Pepe.
Geophysical Research Letters (2004)
A Review of Interferometric Synthetic Aperture RADAR (InSAR) Multi-Track Approaches for the Retrieval of Earth’s Surface Displacements
Antonio Pepe;Fabiana Calò.
Applied Sciences (2017)
Deformation Time-Series Generation in Areas Characterized by Large Displacement Dynamics: The SAR Amplitude Pixel-Offset SBAS Technique
F. Casu;A. Manconi;A. Pepe;R. Lanari.
IEEE Transactions on Geoscience and Remote Sensing (2011)
Geodetic model of the 2016 Central Italy earthquake sequence inferred from InSAR and GPS data
D. Cheloni;V. De Novellis;M. Albano;A. Antonioli.
Geophysical Research Letters (2017)
Analysis of seven maternal polymorphisms of genes involved in homocysteine/folate metabolism and risk of Down syndrome offspring
Iris Scala;Barbara Granese;Maria Sellitto;Serena Salomè.
Genetics in Medicine (2006)
On the generation of ERS/ENVISAT DInSAR time-series via the SBAS technique
A. Pepe;E. Sansosti;P. Berardino;R. Lanari.
IEEE Geoscience and Remote Sensing Letters (2005)
Analysis of Ground Deformation Detected Using the SBAS-DInSAR Technique in Umbria, Central Italy
Fausto Guzzetti;Michele Manunta;Michele Manunta;Francesca Ardizzone;Antonio Pepe.
Pure and Applied Geophysics (2009)
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