AIRBORNE RADIOMETER AT L- BAND (ARIEL) Dakota Henke EECS 823 12/9/2014
Dakota Henke EECS 823 12/9/2014. Purpose and Applications UAV-Based Radiometer UPC Why UAVs? Pros Cons Soil Moisture and Water Salinity Measurements.
Jan 01, 2016
Welcome message from author
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
AIRBORNE RADIOMETER AT L-
BAND (ARIEL)
Dakota Henke
EECS 823
12/9/2014
Purpose and Applications UAV-Based Radiometer
UPC Why UAVs?
ProsCons
Soil Moisture and Water Salinity MeasurementsAgriculturalCoastal
System Design L-Band (1.4 GHz) Altitude (< 300 m) Max Air Speed - 45 m/s GPS and IMU Dicke Radiometer
Balanced - Tref ~ 315 K Hexagonal Antenna
Beamwidth - 22°Gain - 15.88 dBEfficiency - 96.5%
Nadir Looking Bandwidth - 27 MHz Rcv Noise Temp ~ 790 K Integration Time ~ 100 ms Theoretical Temperature
Resolution ~ 1.27 K Calibration (Hot/Cold) Sampling Rate - 50 Hz
System Analysis/Data Processing Multiple Passes
Weighted SumsVarying Resolutions
Pre/Post-Flight Calibration ‘a(t)’ and ‘b(t)’Hot Sensitivity 0.84 KCold Sensitivity 1.22 K
Ignore Cosmic & Downwelling Atmosphere Radiation (relatively constant)
Upwelling and Scattered Radiation ~ 0 K, L ~ 0 dB
Soil Moisture
Dielectric constant vs. Water ContentTransisition Point
First 5 cm of soil Surface Roughness Incidence Angle Contribution from vegetation (b-factor)
Experimental Results
References Kerr, Y.H.; Waldteufel, P.; Wigneron, J.; Martinuzzi, J.; Font, J.; Berger, M. Soil Moisture
Retrieval from Space: The Soil Moisture and Ocean Salinity (SMOS) Mission. IEEE Trans. Geosci. Remote Sens. 2001, 39, 1729-1735.
Valencia, E.; Acevo, R.; Bosch-Lluis, X.; Aguasca, A.; Rodriquez-Alvarez, N.; Ramos-Perez, I.; Marchan-Hernandez, J.F.; Glenat, M.; Bou, F.; Camps, A. Initial Results of an Airborne Light-Weight L-Band Radiometer. Proceedings of the IEEE International Geoscience and Remote Sensing Syposium 2008, Boston, MA. USA, 2008; pp. II-1176-II-1179
Van de Griend, A.A.; Wigneron, J. The b-Factor as a Function of Frequeycny and Canopy Type at H-Polarization. IEEE Trans. Geosci. Remote Sens. 2004, 42, 786-794.
Acevo-Herrera, R.; Aguasca, A.; Bosch-Lluis, X.; Camps, A. On the Use of Compact L-Band Dicke Radiometer (ARIEL) and UAV for Soil Moisture and Salinity Map Retrieval: 2008/2009 Field Experiments. In Proceedings of the IEEE International Geoscience and Remote Sensing Symposium 2009, Cape Town, South Africa, 2009; pp IV729-IV732.
Wang, J.R.; Schmugge, T.J. An Empirical Model for the Complex Dielectric Permittivity of Soils as a Function of Water Content. IEEE Trans. Geosci. Remote Sens. 1980, 18, 288-296.
Escorihuela, M.J.; Kerr, Y.H.; de Rosney, P.; Wigneron, J.; Calvet, J.; Lemaitre, F. A Simple Model of the Bare Soil Microwave Emission at L-Band. IEEE Trans. Geosci. Remote Sens. 2007, 45, 1978-1987.
Acevo-Herrera R, Aguasca A, Bosch-Lluis X, Camps A, Martínez-Fernández J, Sánchez-Martín N, Pérez-Gutiérrez C. Design and First Results of an UAV-Borne L-Band Radiometer for Multiple Monitoring Purposes. Remote Sensing. 2010; 2(7):1662-1679.
Related Documents
