Vol. 28, issue 12, article # 10

Abstract:

The status of the ground-based microwave radiometry in view of determining atmospheric temperature and moisture profiles, water vapor, cloud liquid, and rainfall intensity is discusses. Approaches to solving inverse problems of microwave radiometry of the atmosphere, the results of experimental research of atmospheric water vapor and cloud liquid with the help of dual-frequency radiometer are described. The promising directions of the practical application of the method and means of microwave radiometry of the atmosphere are formulated.

Keywords:

brightness temperature, water vapor, cloud liquid, profiles of humidity, profiles of temperature, wet delay, validation

References:

1. Stepanenko V.D., Shhukin G.G., Bobylev L.P., Matrosov S.Ju. Radioteplolokacija v meteorologii. L.: Gidrometeoizdat, 1987. 283 p.
2. Westwater Ed.R. Ground-based microwave remote sensing of meteorological variables: Atmospheric Remote Sensing by Microwave Radiometry / Ed. by M. Janssen. N.Y.: John Wiley, 1993. P. 145–213.
3. Shifrin K.S., Rabinovich Ju.I., Shhukin G.G. Issledovanie polja mikrovolnovogo izluchenija v atmosfere // Trudy GGO. 1968. Issue 222. P. 5–18.
4. Basharinov A.E., Gurvich A.S., Egorov S.T. Radioizluchenie Zemli kak planety. M.: Nauka, 1974. 118 p.
5. Karavaev D.M., Shhukin G.G. SVCh-radiometricheskie issledovanija vlago-vodosoderzhanija atmosfery v period razvitija konvektivnyh oblakov i groz // Izv. vuzov. Severo-Kavkazskij region. Estestvennye nauki. Fizika atmosfery. 2010. Specvypusk. P. 53–58.
6. Karavaev D.M., Kuleshov Ju.V., Shhukin G.G., Uspenskij A.B. Validacija informacionnyh produktov sputnikovyh radiometrov mikrovolnovogo diapazona // Sovremennye problemy distancionnogo zondirovanija Zemli iz kosmosa. 2014. V. 11, N 3. P. 259–267.
7. Kadygrov E.N., Gorelik A.G., Miller E.A., Nekrasov V.V., Troickij A.V., Tochilkina T.A., Shaposhnikov A.N. Rezul'taty monitoringa termodinamicheskogo sostojanija troposfery mnogokanal'nym mikrovolnovym radiometricheskim kompleksom // Optika atmosf. i okeana. 2013. V. 26, N 6. P. 459–465.
8. Obrazcov S.P., Shhukin G.G. SVCh-radiometricheskoe opredelenie vysotnyh raspredelenij temperatury i harakteristik vlagosoderzhanija atmosfery // Trudy NIC DZA. 1997. Issue 1(546). P. 20–32.
9. Timofeev Ju.M., Vasil'ev A.V. Teoreticheskie osnovy atmosfernoj optiki. SPb.: Nauka, 2003. 474 p.
10. Shhukin G.G., Bulkin V.V. Meteorologicheskie passivno-aktivnye radiolokacionnye sistemy. Murom: IPC MI VlGU, 2009. 166 p.
11. Shhukin G.G., Vylegzhanin I.A., Karavaev D.M., Zhukov V.Ju. Razrabotka meteorologicheskogo passivno-aktivnogo radiolokatora na baze DMRL-S: Trudy konferencii // V Armandovskie chtenija: Prakticheskaja radiolokacija. Murom, 29.06–1.07.2015. Murom: IPC MI VlGU, 2015. P. 120–124.
12. Il'jushin Ja.A., Kutuza B.G. Komp'juternoe modelirovanie poljarizacionnyh harakteristik teplovogo radioizluchenija dozhdevyh osadkov: Trudy konferencii // XXIV Vseros. nauch. konf. po rasprostraneniju radiovoln. Irkutsk, ijun', 2014. Irkutsk: ISZF SO RAN, 2014. P. 181–183.
13. Matrosov S.Ju., Shhukin G.G. Poljarizacija radioteplovogo izluchenija moshhnyh konvektivnyh oblakov // Meteorol. i gidrol. 1990. N 1. P. 24–29.
14. Troickij A.B., Osharin A.M., Korolev A.B., Strapp V., Ajzik Zh. Issledovanie poljarizacionnyh harakteristik teplovogo mikrovolnovogo izluchenija oblachnoj atmosfery // Izv. vuzov. Radiofiz. 2001. V. 44, N 12. P. 1203–1217.
15. Shhukin G.G., Karavaev D.M. Primenenie distancionnyh metodov zondirovanija atmosfery v zadachah koordinatno-vremennogo i navigacionnogo obespechenija // Trudy IPA. 2012. Issue 23. P. 411–414.
16. Kulikov Ju.Ju., Demkin V.M., Krasil'nikov A.A., Ryskin V.G., Frolov V.L., Shanin V.N. Vlijanie na variacii ozona srednej atmosfery estestvennyh i antropogennyh faktorov (po dannym nazemnoj mikrovolnovoj radiometrii): Trudy konferencii // XXIII Vseros. konf. po rasprostraneniju radiovoln. Joshkar-Ola, may, 2011. Joshkar-Ola: MarGTU, 2011. P. 245–249.