References
- Al Hagrey, S.A. 2006. Electrical resistivity imaging of tree trunks. Near Surface Geophysics 4: 179–187.
- Balestrieri, E., L. De Vito, S. Rapuano, and D. Slepicka. 2012. Estimating the uncertainty in the frequency domain characterization of digitizing waveform recorders. IEEE Transactions on Instrumentation and Measurement 61 no. 6: 1613–1624.
- Baranski, J., A. Suchta, S. Baranska, I. Klement, T. Vilkovská, and P. Vilkovský. 2021. Wood moisture-content measurement accuracy of impregnated and nonimpregnated wood sensors. Sensors 21: 7033. doi:10.3390/s21217033.
- Cataldo, A., E. De Benedetto, and G. Cannazza. 2011. Broadband reflectometry for enhanced diagnostics and monitoring applications. Springer Verlag. ISBN 978-3-642-20232-2.
- Cataldo, A., G. Cannazza, E. De Benedetto, L. Tarricone, and M. Cipressa. 2009. Metrological assessment of TDR performance for moisture evaluation in granular materials. Measurement 42 no. 2: 254–263.
- Daniels, D.J. 2004. Ground penetrating radar. 2nd ed. London: Institution of Electrical Engineers.
- EN 13183-1:2002. 2002. Moisture content of a piece of sawn timber - Part 1: Determination by oven dry method. European Committee for Standardization CEN, Brussels, Belgium.
- EN 13183-3:2005. 2005. Moisture content of a piece of sawn timber - Part 3: Estimation by capacitance method. European Committee for Standardization CEN, Brussels, Belgium.
- Giannino, F., and G. Leucci. 2021. Electromagnetic methods in geophysics: applications in GeoRadar, FDEM, TDEM, and AEM, 352. Wiley. ISBN: 978-1-119-77098-5.
- Jol, H. 2009. Ground penetrating radar: theory and applications. Amsterdam: Elsevier.
- Kollmann, F., and W.A. Coté. 1968. Principles of wood science and technology I: solid wood. Berlin: Springer.
- Lambot, S., E.C. Slob, I. van den Bosch, B. Stockbroeckx, and M. Vanclooster. 2004. Modeling of ground-penetrating radar for accurate characterization of subsurface electric properties. IEEE Transaction on Geoscience and Remote Sensing 42: 2555–2568.
- Leucci, G. 2019. Nondestructive testing for archaeology and cultural heritage: A practical guide and new perspective, 217. Fg: Springer editore. ISBN 978-3-030-01898-6.
- Leucci, G., R. Persico, and F. Soldovieri. 2007. Detection of fracture from GPR data: the case history of the cathedral of Otranto. Journal of Geophysics and Engineering 4: 452–461.
- Mai, T.C., S. Razafindratsima, Z.M. Sbartaï, D. Demontoux, and F. Bos. 2015. Non-destructive evaluation of moisture content of wood material at GPR frequency. Construction and Building Materials 77: 213–217.
- Niemz, P. 2003. Physik des Holzes und der Holzwerkstoffe. Leinfelden-Echterdingen: DRW-Verlag.
- Robinson, D.A., M. Schaap, S.B. Jones, S.P. Friedman, and C.M.K. Gardner. 2003. Considerations for improving the accuracy of permittivity measurement using time domain reflectometry: air-water calibration, effects of cable length. Soil Science Society of America Journal 67: 62–70.
- Soldovieri, F., G. Prisco, and R. Persico. 2008. Application of microwave tomography in hydrogeophysics: e examples. Vadose Zone Journal 7: 160–170.
- Soldovieri, F., G. Prisco, and R. Persico. 2009. A strategy for the determination of the dielectric permittivity of a lossy soil exploiting GPR surface measurements and a cooperative target. Journal of Applied Geophysics 67 no. 4: 288–295.
- Topp, G.C., J.L. Davis, and A.P. Annan. 1980. Electromagnetic determination of soil water content: measurements in coaxial transmission lines. Water Resources Research 16 no. 3: 574–582.