On the efficiency of statistical decision procedures in remote environmental monitoring

封面

如何引用文章

全文:

开放存取 开放存取
受限制的访问 ##reader.subscriptionAccessGranted##
受限制的访问 订阅存取

详细

The basis of a multichannel remote monitoring system has been developed, which uses new methods and algorithms for processing remote sensing data and the formation of updated databases and knowledge based on modern computer technologies and using high-performance computing systems. A structural diagram of the multichannel remote monitoring system (RMS) is given. The main parameters of the RMS are calculated. The RMS “solver” block is analyzed. Analytical estimates of the efficiency of statistical decision-making procedures in remote environmental monitoring are obtained. Experimental verification of the efficiency of the RMS and algorithms considered is based on the data of the Kosmos-1500 satellite for the Arctic regions.

全文:

受限制的访问

作者简介

F. Mkrtchyan

Fryazino branch Kotelnikov Institute of Radio Engineering and Electronics RAS

编辑信件的主要联系方式.
Email: ferd47@mail.ru
俄罗斯联邦, Vvedenskogo sq., 1, Fryazino, Moscow region, 141190

参考

  1. Арманд Н.А., Крапивин В.Ф., Мкртчян Ф.А. Методы обработки данных радиофизического исследования окружающей среды. М.: Наука, 1987.
  2. Арманд Н.А., Крапивин В.Ф., Мкртчян Ф.А. // Проблемы окружающей среды и природных ресурсов. № 3. 1997. С. 31.
  3. Крапивин В.Ф., Мкртчян Ф.А., Шутко А.М. // Экологические системы и приборы. № 1. 2015. С. 10.
  4. Мкртчян Ф.А. Оптимальное различение сигналов и задачи контроля. М.: Наука, 1982.
  5. Мкртчян Ф.А. // Проблемы окружающей среды и природных ресурсов.1999. № 5. С. 2.
  6. Mkrtchyan F.A.// Proc. PIERS. Cambridge MA. 5-8 Jul. 2010. Cambridge MA: The Electromagnetic Academy, 2010. P. 361.
  7. Mkrtchyan F.A., Shapovalov S.M. // Rus. J. Earth Sci. 2018. V. 18. Article No. ES-4001.
  8. Mkrtchyan F.A., Varotsos C.A. // Water Air Soil Pollut. 2018. V. 229. № 8. Article No.273.
  9. Mkrtchyan F.A. // Proc. 2019 Photonics & Electromagnetics Research Symp. – Spring (PIERS-Spring). Rome.17–20 Jun. N.Y.: IEEE, 2019. P. 3398.
  10. Mkrtchyan F.A., Krapivin V.F., Shapovalov S.M. // Proc. 2019 Photonics & Electromagnetics Research Symp. – Spring (PIERS-Spring). Rome.17–20 Jun. N.Y.: IEEE, 2019. P. 3393.
  11. Nitu C., Krapivin V.F., Mkrtchyan F.A. Advanced Ecology. Monitoring, diagnostics, prognosis. Bucharesti: Matrix Rom, 2020. V. 1.
  12. Nitu C., Krapivin V.F., Mkrtchyan F.A. Advanced Ecology. Monitoring, diagnostics, prognosis. Bucharesti: Matrix Rom, 2021. V. 2.
  13. Varotsos, C.A., Mkrtchyan, F.A., Soldatov V.Y., Xue Y. // Water, Air &Soil Pollutuion. 2022. V. 233. Article No.114.
  14. Varotsos C.A., Mkrtchyan F.A., Soldatov V.Yu. // Remote Sensing. 2022. V.14. № 15. Article No.3527.
  15. Афанасьев Ю.А., Нелепо Б.А., Селиванов А.С. и др. // Изучение Земли из космоса. 1985. № 3. С. 3.
  16. Башаринов А.Е., Курская А.А. // Радиотехника. 1979. Т. 34. № 4. С.31.
  17. Вальд А. Последовательный анализ. М.: Физматгиз, 1960.
  18. Кэмпбелл К.И., Оранж А.С. // Полярный рекорд. 1974. Т.17. № 106. С.31.

补充文件

附件文件
动作
1. JATS XML
下载
2. Fig. 1. Block diagram of the VHI.

下载 (90KB)
索引源数据
3. Fig. 2. Efficiency of multichannel versus single-channel case for m = 5 (a, b) and 10 (c, d).

下载 (224KB)
索引源数据
4. Fig. 3. Maps of radio brightness temperatures of the Arctic regions for the λ1 = 0.8 cm channel.

下载 (155KB)
索引源数据

版权所有 © Russian Academy of Sciences, 2024