Environmental Engineering Reference
In-Depth Information
[22] Nelson, S.O., Trabelsi, S.: Dielectric spectroscopy of wheat from 10 MHz to 1. 8 GHz.
Meas. Sci. Technol. 17(8), 2294-2298 (2006)
[23] Nelson, S.O., Guo, W., Trabelsi, S., Kays, S.J.: Dielectric spectroscopy of watermelons
for quality sensing. Meas. Sci. Technol. 18(7), 1887-1892 (1999)
[24] Popovic, D., McCartney, L., Beasley, C., Lazebnik, M., Okoniewski, M., Hagness, S.C.,
Booske, J.H.: Precision open-ended coaxial probes for in vivo and ex vivo dielectric
spectroscopy of biological tissues at microwave frequencies. IEEE Trans. Microw. The-
ory Tech. 53(5), 1713-1722 (2005)
[25] Roddy, D.: Microwave technology, 2nd edn. Prentice-Hall, Englewood Cliffs (1986)
[26] Roussy, G., Pearce, J.A.: Foundations and industrial applications of microwaves and
radio freqeuancy fields. J. Wiley & Sons Inc., Chichester (1995)
[27] Venkatesh, M.S., Raghavan, G.S.V.: An overview of microwave processing and dielec-
tric properties of agri-food materials. Biosyst. Eng. 88(1), 1-18 (2004)
[28] de Winter, E.J.G., van Loon, W.K.P., Esveld, E., Heimovaara, T.J.: Dielectric spec-
troscopy by inverse modelling of time domain reflectometry wave forms. J. Food
Eng. 30(3-4), 351-362 (1996)
[29] Witte, R.A.: Spectrum & network measurements. Noble Publishing Corporation, At-
lanta (1993)
[30] Zhang, K., Li, D.: Electromagnetic theory for microwaves and optoelectronics, 2nd edn.
Springer, Heidelberg (2008)
Search WWH ::
Custom Search