Microwave radiometry in monitoring and emergency mapping of water seepage and dangerously high groundwaters

• Autorzy: Shutko A. M. , Haldin A. , Krapivin V. , Novichikhin E. , Sidorov I. , Tishchenko Y. , Haarbrink R. , Georgiev G. , Kancheva R. , Nikolov H. , Coleman T. , Archer F. , Pampaloni P. , Paloscia S. , Krissilov A. , Camps Carmona A.
• Języki publikacji: EN

Abstrakty

EN

Detailed and geo-referenced maps identifying the locations of saturated and dry levees can be produced using microwave radiometric measurements from a light aircraft or helicopter, and integrated with GPS for positioning and orientation. The development of synergetic remote sensing technology for raised groundwater and seepage detection by the joint use of microwave and optical data along with GIS databases is an effective and most contemporary way of supporting risk assessment and facilitating disaster prevention and management. In this paper we present a remote sensing microwave technology for monitoring and detection of areas of water seepage through irrigation constructions, levees and dykes as well as for revealing areas with dangerously high groundwater level. The possibility for emergency response mapping, integrated with GPS and GIS data, facilitates the risk assessment and management services. The passive microwave radiometry (PMR) is based on spectral measurements in the millimetre to decimetre range of wavelengths. Compared to other remote sensing techniques, such as colour and infrared photography, thermal images and lidar, PMR is the only technology taking measurements under the earth's surface and therefore is very well suited for water seepage and underground water monitoring in a fast and reliable way.

Słowa kluczowe

EN

remote sensing; passive microwave radiometry; soil moisture; water seepage; risk assessment

• Wydawca: Instytut Łączności - Państwowy Instytut Badawczy
• Czasopismo: Journal of Telecommunications and Information Technology
• Rocznik: 2007
• Tom: nr 1
• Strony: 76--82
• Opis fizyczny: Bibliogr. 8 poz., rys., il.

Twórcy

autor

Shutko A. M.

autor

Haldin A.

autor

Krapivin V.

autor

Novichikhin E.

autor

Sidorov I.

autor

Tishchenko Y.

autor

Haarbrink R.

autor

Georgiev G.

autor

Kancheva R.

autor

Nikolov H.

autor

Coleman T.

autor

Archer F.

autor

Pampaloni P.

autor

Paloscia S.

autor

Krissilov A.

autor

Camps Carmona A.

• Institute of Radioengineering and Electronics, Russian Academy of Sciences, 141190 Moscow region, Fryazino, Acad. Vvedenskogo Sq. 1, Russia,

Bibliografia

• [1] A. M. Shutko, “Remote sensing of soil moisture and moisture related parameters by means of microwave radiometry: instruments, data, and examples of application in hydrology”, in Land Surface Processes in Hydrology, Trials and Tribulations of Modeling and Measuring, S. Sorooshian, H. V. Gupta, and J. C. Rodda, Eds. Berlin: Springer, 1997, pp. 263–273.
• [2] T. J. Jackson, A. Y. Hsu, A. Shutko, Yu. Tishchenko, B. Petrenko, B. Kutuza, and N. Armand, “Priroda microwave radiometer observations in the Southern Great Plains: 1997 hydrology experiment”, Int. J. Rem. Sens., vol. 23, no. 2, pp. 231–248, 2002.
• [3] F. A. Mkrtchan, E. Reutov, A. Shutko, K. Kostov, M. Michalev, N. Nedeltchev, A. Spasov, and B. Vichev, “Experiments in Bulgaria for determination of soil moisture in the top one-meter using microwave radiometry and a priori information”, in Proc. IGARSS’88 Int. Symp., Edinburgh, UK, 1988, pp. 665–666.
• [4] S. P. Golovachev, E. A. Reutov, A. A. Chukhlantsev, and A. M. Shutko, “Experimental investigation of microwave emission of vegetable crops”, Izvestia VUZ’ov, Radiofizika, vol. 32, pp. 551–556, 1989 (in Russian; English Translation: Univ. Dig., Radiophys. Quant. Electron.).
• [5] P. Pampaloni, “Microwave radiometry of forests”, Wav. Rand. Med., vol. 14, pp. S275–S298, 2004.
• [6] R. B. Haarbrink and A. M. Shutko, “Airborne passive microwave radiometry for emergency response”, in Proc. 1st Int. Symp. GeoInform. Disas. Manag., Delft, the Netherlands, 2005.
• [7] A. M. Shutko, A. A. Haldin, E. P. Novichikhin, A. A. Milshin, S. P. Golovachev, A. G. Grankov, V. G. Mishanin, T. J. Jackson, B. J. Logan, G. B. Tilley, E. W. Ramsey III, and H. Pirchner, “Microwave radiometers and their application in field and aircraft campaigns for remote sensing of land and water surfaces”, in Proc. IGARSS ’95 Int. Symp., Florence, Italy, 1995, pp. 734–735.
• [8] B. Kutuza, A. Shutko, V. Pliushchev, E. Ramsey III, B. Logan, DeLoach, A. Haldin, E. Novichikhin, I. Sidorov, and G. Nelson, “Advantages of synchronous multispectral SAR and microwave radiometric observations of land covers from aircraft platforms”, in Proc. EUSAR 2000, Germany, Munich, 2000.