Ghezzi, A.; Schettino, A.; Pierantoni, P.P.; Conyers, L.; Tassi, L.; Vigliotti, L.; Schettino, E.; Melfi, M.; Gorrini, M.E.; Boila, P.
Reconstruction of a Segment of the UNESCO World Heritage Hadrian’s Villa Tunnel Network by Integrated GPR, Magnetic–Paleomagnetic, and Electric Resistivity Prospections. Remote Sens. 2019, 11, 1739.
https://doi.org/10.3390/rs11151739
AMA Style
Ghezzi A, Schettino A, Pierantoni PP, Conyers L, Tassi L, Vigliotti L, Schettino E, Melfi M, Gorrini ME, Boila P.
Reconstruction of a Segment of the UNESCO World Heritage Hadrian’s Villa Tunnel Network by Integrated GPR, Magnetic–Paleomagnetic, and Electric Resistivity Prospections. Remote Sensing. 2019; 11(15):1739.
https://doi.org/10.3390/rs11151739
Chicago/Turabian Style
Ghezzi, Annalisa, Antonio Schettino, Pietro Paolo Pierantoni, Lawrence Conyers, Luca Tassi, Luigi Vigliotti, Erwin Schettino, Milena Melfi, Maria Elena Gorrini, and Paolo Boila.
2019. "Reconstruction of a Segment of the UNESCO World Heritage Hadrian’s Villa Tunnel Network by Integrated GPR, Magnetic–Paleomagnetic, and Electric Resistivity Prospections" Remote Sensing 11, no. 15: 1739.
https://doi.org/10.3390/rs11151739
APA Style
Ghezzi, A., Schettino, A., Pierantoni, P. P., Conyers, L., Tassi, L., Vigliotti, L., Schettino, E., Melfi, M., Gorrini, M. E., & Boila, P.
(2019). Reconstruction of a Segment of the UNESCO World Heritage Hadrian’s Villa Tunnel Network by Integrated GPR, Magnetic–Paleomagnetic, and Electric Resistivity Prospections. Remote Sensing, 11(15), 1739.
https://doi.org/10.3390/rs11151739
