Title :
Temperature dependent dielectric model at 1.4 GHz for an agricultural soil thawed and frozen
Author :
Mironov, V.L. ; Karavaysky, A.Yu.
Author_Institution :
Radiophys. of Remote Sensing Lab., Kirensky Inst. of Phys., Krasnoyarsk, Russia
Abstract :
A mono-frequency dielectric model for the agricultural soil both thawed and frozen has been developed. The model is based on the soil dielectric measurements carried out in the ranges of volumetric moisture from 0,03 to 0,51 cm3/ cm3, dry soil density from 1.12 to 1.64 g/cm3, and temperature from -30 to 25°C (heating run), at the frequency of 1.4 GHz used in the SMOS mission. To fit the results of measurements of the soil complex refractive index (CRI) as a function of soil moisture, the refractive mixing model was applied. As a result, the parameters of the refractive mixing model linked to soil solids, as well as the bound, transient, and free soil water components were derived as a function of temperature. The error of the proposed dielectric model was shown to be in the order of the dielectric measurement error itself.
Keywords :
dielectric measurement; moisture; refractive index measurement; soil; SMOS mission; agricultural soil; dielectric measurement error; dry soil density; free soil water component; frequency 1.4 GHz; frozen soil; monofrequency dielectric model; refractive mixing model; soil complex refractive index measurement; soil dielectric measurement; soil moisture; soil solid; soil temperature; temperature -30 degC to 25 degC; temperature dependent dielectric model; thawed soil; volumetric moisture; Dielectrics; Remote sensing; Soil; Soil measurements; Temperature distribution; Temperature measurement; Temperature sensors; agricultural soil; dielectric model; moisture; remote sensing; temperature; thawed and frozen soil;
Conference_Titel :
Control and Communications (SIBCON), 2015 International Siberian Conference on
Conference_Location :
Omsk
Print_ISBN :
978-1-4799-7102-2
DOI :
10.1109/SIBCON.2015.7147092
