Environmental Engineering Reference
In-Depth Information
[11] Artacho, J.M., Fornies-Marquina, J.M., Letosa, J., Garcia, M., Bottreau, A.M.: Direct
deconvolution signal in time domain reflectometry. IEEE Trans. Magn. 31(3), 1610-
1613 (1995)
[12] Ball, J.A.R.: Characteristic impedance of unbalanced TDR probes. IEEE Trans. In-
strum. Meas. 51(3), 532-536 (2002)
[13] Blonquist, J.M., Jones, S.B., Robinson, D.A.: Standardizing characterization of elec-
tromagnetic water content sensors: part 2. evaluation of seven sensing systems. Vadose
Zone J. 4, 1059-1069 (2005)
[14] Callegaro, L.: The metrology of electrical impedance at high frequency: a review. Meas.
Sci. Technol. 20(2), 1-14 (2009)
[15] Cataldo, A., Catarinucci, L., Tarricone, L., Attivissimo, F., Trotta, A.: A frequency-
domain method for extending TDR performance in quality determination of fluids.
Meas. Sci. Technol. 18(3), 675-688 (2007)
[16] Cataldo, A., Cannazza, G., De Benedetto, E., Tarricone, L., Cipressa, M.: Metrological
assessment of TDR performance for moisture evaluation in granular materials. Mea-
surement 42(2), 254-263 (2009)
[17] Cataldo, A., Catarinucci, L., Tarricone, L., Attivissimo, F., Piuzzi, E.: A combined
TD-FD method for enhanced reflectometry measurements in liquid quality monitoring.
IEEE Trans. Instrum. Meas 58(10), 3534-3543 (2009)
[18] Cataldo, A., Monti, G., De Benedetto, E., Cannazza, G., Tarricone, L.: A noninvasive
resonance-based method for moisture content evaluation through microstrip antennas.
IEEE Trans. Instrum. Meas. 58(5), 1420-1426 (2009)
[19] Cataldo, A., Monti, G., De Benedetto, E., Cannazza, G., Tarricone, L., Catarinucci,
L.: Assessment of a TD-based method for characterization of antennas. IEEE Trans.
Instrum. Meas. 58(5), 1412-1419 (2009)
[20] Feng, W., Lin, C.P., Deschamps, R.J., Drnevich, V.P.: Theoretical model of a multisec-
tion time domain reflectometry measurement system. Water Resour. Res. 35(8), 2321-
2331 (1999)
[21] Friel, R., Or, D.: Frequency analysis of time-domain reflectometry (TDR) with applica-
tion to dielectric spectroscopy of soil constituents. Geophysics 64(3), 707-718 (1999)
[22] Heimovaara, T.J.: Frequency domain analysis of time domain reflectometry waveforms:
1. measurement of the complex dielectric permittivity of soils. Water Resour. Res. 30(2),
189-199 (1994)
[23] Heimovaara, T.J.: Frequency domain modeling of TDR waveforms in order to obtain
frequency dependent dielectric properties of soil samples: a theoretical approach. In:
Proceedings of the 2nd International Symposium and Workshop on Time Domain Re-
flectometry for Innovative Geotechnical Applications (2001)
[24] Heimovaara, T.J., Bouten, W., Verstraten, J.M.: Frequency domain analysis of time do-
main reflectometry waveforms: 2. a four-component complex dielectric mixing model
for soils. Water Resour. Res. 30, 201-209 (1994)
[25] Heimovaara, T.J., Huisman, J.A., Vrugt, J.A., Bouten, W.: Obtaining the spatial dis-
tribution of water content along a TDR probe using the SCEM-UA bayesian inverse
modeling scheme. Vadose Zone J. 3, 1128-1145 (2004)
[26] Huisman, J.A., Bouten, W., Vrugt, J.A., Ferre, P.A.: Accuracy of frequency domain
analysis scenarios for the determination of complex permittivity. Water Resour. Res. 40
(2004)
[27] Huisman, J.A., Lin, C.P., Weihermuller, L., Vereecken, H.: Accuracy of bulk electrical
conductivity measurements with time domain reflectometry. Vadose Zone J. 7(2), 426-
433 (2008)
Search WWH ::
Custom Search