Environmental Engineering Reference
In-Depth Information
[19] Dirksen, C., Dasberg, S.: Improved calibration of time-domain reflectometry soil water
content measurements. Soil Sci. Soc. Am. J. 57, 660-667 (1993)
[20] Dobson, M.C., Hallikainen, M.T.: Microwave dielectric behavior of wet soil-part ii:
dielectric mixing models. IEEE Trans. Geosci. Remote Sens. 23(1), 35-46 (1985)
[21] 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)
[22] Giese, K., Tiemann, R.: Determination of complex permittivity from thin-sample time
domain reflectometry: improved analysis of the step response waveform. Mol. Relax.
Process. 7, 45-59 (1975)
[23] Greco, R.: Soil water content inverse profiling from single TDR waveforms. J. Hy-
drol. 317(3-4), 325-339 (2006)
[24] Gregory, A.P., Clarke, R.N.: Traceable measurements of the static permittivity of di-
electric reference liquids over the temperature range 5-50
◦
C. Meas. Sci. Technol. 15(7),
1506-1516 (2005)
[25] Hamed, Y., Persson, M., Berndtsson, R.: Soil solution electrical conductivity measure-
ments using different dielectric techniques. Soil. Sci. Soc. Am. J. 67(4), 1071-1078
(2003)
[26] Hasted, J.B.: Aqueous dielectric. Chapman and Hall, UK (1973)
[27] 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)
[28] Heimovaara, T.J., Focke, A.G., Bouten, W., Verstraten, J.M.: Assessing temporal varia-
tion in soil water composition with time domain reflectometry. Soil. Sci. Soc. Am. J. 59,
689-698 (1995)
[29] 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)
[30] Hendrickx, J.M.H., Borchers, B., Corwin, D.L., Lesch, S.M., Hilgendorf, A.C., Schlue,
J.: Inversion of soil conductivity profiles from electromagnetic induction measurements:
theory and experimental verification. Soil. Sci. Soc. Am. J. 66, 673-685 (2002)
[31] Hilhorst, M.A., Dirksen, C., Kampers, F.W.H., Feddes, R.A.: New dielectric mixture
equation for porous materials based on depolarization factors. Soil Sci. Soc. Am. J. 64,
1581-1587 (2000)
[32] Huisman, J.A., Weerts, A.H., Heimovaara, T.J., Bouten, W.: Comparison of travel time
analysis and inverse modeling for soil water content determination with time domain
reflectometry. Water Resour. Res. 38(6), 13.1-13.8 (2002)
[33] 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)
[34] ISO, Guide to expression of uncertainty in measurement (1995)
[35] Kaatze, U.: Complex permittivity of water as a function of frequency and temperature.
J. Chem. Eng. Data 34(4), 371-374 (1989)
[36] Kachanoski, R.G., Pringle, E., Ward, A.: Field measurement of solute travel times using
time domain reflectometry. Soil Sci. Soc. Am. J. 56, 47-52 (1992)
[37] Kumar, G., Ray, K.P.: Broadband microstrip antennas. Artech House, London (2003)
[38] Lin, C.P.: Analysis of nonuniform and dispersive time domain reflectometry measure-
ment systems with application to the dielectric spectroscopy of soils. Water Resour.
Res. 39(1), art. no. 1012 (2003)
Search WWH ::
Custom Search