|
|
1.
| A temperature-dependent dielectric model for thawed and frozen organic soil at 1.4 GHz/V. L. Mironov [et al.] // IEEE Journal of Selected Topics in Applied Earth Observations and Remote:IEEE-Institute Electrical and Electronics Engineers, 2015. т.Vol. 8,N Is. 9.-С.4470-4477
|
2.
| Brief communication: Classification of thawed/frozen topsoil state by spectral gradient methods based on SMAP and GCOM-W1 radiometric data/K. Muzalevskiy, Z. Ruzicka, A. Roy [et al.] // EGUsphere, 2022
|
3.
| Mironov V. L. A temperature-dependent multi-relaxation spectroscopic dielectric model for thawed and frozen organic soil at 0.05-15 Ghz/V. L. Mironov [et al.] // Geoscience and Remote Sensing Symposium (IGARSS), 2015 IEEE International, 2015.-С.2031-2034
|
4.
| Mironov V. L. A temperature-dependent multi-relaxation spectroscopic dielectric model for thawed and frozen organic soil at 0.05–15 GHz/V. L. Mironov, I. V. Savin // Physics and Chemistry of the Earth, Parts A/B/C:PERGAMON-ELSEVIER SCIENCE LTD, 2015. т.Vol. 83–84:Emerging science and applications with microwave remote sensing data.-С.57-64
|
5.
| Mironov V. L. Impact of a freezing topsoil on determining the Arctic tundra surface deformation using InSAR/V. L. Mironov, K. V. Muzalevskiy ; ed. VL Mironov // International Siberian Conference on Control and Communications (SIBCON-2013):IEEE, 2013.- Ст.6693624
|
6.
| Mironov V. L. Retrieving temperature gradient in frozen active layer of arctic tundra soils from radiothermal observations in L-Band-Theoretical modeling/V. L. Mironov, K. V. Muzalevskiy, I. V. Savin // IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing:IEEE-Institute Electrical and Electronics Engineers, 2013. т.Vol. 6,N Is. 3.- Ст.6520003.-С.1781-1785
|
7.
| Mironov V. L. Spaceborne radar monitoring of soil freezing/thawing processes in the Arctic tundra/V. L. Mironov, K. V. Muzalevskiy // Russian Physics Journal:SPRINGER, 2013. т.Vol. 55,N Is.8.-С.899-902
|
8.
| Mironov V. L. Temperature dependent dielectric model at 1.4 GHz for an agricultural soil thawed and frozen/V. L. Mironov, A. Yu. Karavaysky // International Siberian Conference on Control and Communications (SIBCON-2015):IEEE-Institute Electrical and Electronics Engineers, 2015.-С.1-4
|
9.
| Mironov V. L. Temperature dependent multi-relaxation spectroscopic dielectric model for an arctic silt clay loam soil thawed and frozen at 0.1-15 GHZ/V. L. Mironov, I. P. Molostov, A. Yu. Karavaysky // IEEE International Geoscience and Remote Sensing Symposium (IGARSS), 2016.-С.3122-3125
|
10.
| Mironov V. L. Temperature-dependent spectroscopic dielectric model at 0.05–16 GHz for a thawed and frozen Alaskan organic soil/V. L. Mironov, I. V. Savin // Satellite Soil Moisture Retrieval:Elsevier, 2016. т.Siction III:Microwave Soil Moisture Retrieval Techniques,N Chapter 9.-С.169-186
|
11.
| Modelling the passive microwave signature from land surfaces: A review of recent results and application to the L-band SMOS & SMAP soil moisture retrieval algorithms/J. -P. Wigneron [et al.] // Remote Sensing of Environment:Elsevier, 2017. т.Vol. 192.-С.238-262
|
12.
| Muzalevskiy K. V. A new method for remote sensing of moisture profiles in the arable layer at three frequencies; experimental case study/K. Muzalevskiy // International Journal of Remote Sensing, 2021. т.Vol. 42,N Is. 7.-С.2377-2390
|
13.
| Muzalevskiy K. V. Detection of soil freeze/thaw states in the Arctic region based on combined SMAP and AMSR-2 radio brightness observations/K. Muzalevskiy, Z. Ruzicka // International Journal of Remote Sensing, 2020. т.Vol. 41,N Is. 14.-С.5046-5061
|
14.
| Muzalevskiy K. V. Effects of organo-mineral structure of arctic topsoil on the own thermal radiation in the L-band/K. V. Muzalevskiy, L. Yury // International Siberian Conference on Control and Communications (SIBCON-2015):IEEE-Institute Electrical and Electronics Engineers, 2015
|
15.
| Muzalevskiy K. V. Retrieving soil moisture profiles based on multifrequency polarimetric radar backscattering observations. Theoretical case study/K. Muzalevskiy // International Journal of Remote Sensing, 2021. т.Vol. 42,N Is. 2.-С.506-519
|
16.
| Muzalevskiy K. V. Signatures of Sentinel-1 Radar and SMAP Radiometer Depending on the Temperature of Frozen Arctic Soil in the Cooling and Heating Process of the Active Layer/K. V. Muzalevskiy, Z. Ruzicka // IEEE International Geoscience and Remote Sensing Symposium (IGRASS), 2018.-С.7176-7179
|
17.
| Muzalevskiy K. V. Temperature dependence of the backscattering coefficient measured by ALOS PALSAR during cooling and heating of tundra topsoil/K. V. Muzalevskiy // Журнал радиоэлектроники, 2019,N № 11;Journal of Radio Electronics (Zhurnal Radioelektroniki)
|
18.
| Retrieving Soil Moisture and temperature using SMOS observations at a test site in the Yamal Peninsular/K. V. Muzalevskiy [et al.] // IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing:IEEE-Institute Electrical and Electronics Engineers, 2016.-С.4932 - 4935
|
19.
| Soil moisture retrieval in the North Slope of Alaska from GCOM-W1/AMSR2 and Meteor-M No. 2/MTVZA-GYa radiometers data/K. V. Muzalevskiy [et al.] // Progress in Electromagnetics Research Symposium (PIERS), 2017.-С.1442-1448
|
20.
| Temperature dependent dielectric model at 1.4 GHz for a tundra organic-rich soil thawed and frozen/V. L. Mironov [et al.] // Geoscience and Remote Sensing Symposium (IGARSS), 2015 IEEE International, 2015.-С.2016-2019
|
|
|
|
|
 Стандартный Расширенный Профессиональный Распределенный По словарю ГРНТИ-навигатор УДК-навигатор Тематический навигатор
Другие библиотеки
 Центральная Научная Библиотека КНЦ СО РАН
Библиотека института биофизики
Библиотека института химии и химический технологии
Библиотека института вычислительного моделирования
Библиотека института леса
Библиотека СФУ
Краевая научная библиотека
|
|
|
© Международная Ассоциация пользователей и разработчиков электронных библиотек и новых информационных технологий
(Ассоциация ЭБНИТ)
|
|
Главная
Каталог книг и брошюр библиотеки ИФ СО РАН