:
2016 .
  • .., .., .., .., .. . . 2016. . 59. № 12-2. . 39-45
  • .., .., .., .. . 2016. . 61. № 2. . 122.
  • SPACE-BASED RADAR SYSTEMS INTENDED FOR SUBSURFACE SOUNDING OF MARS AND MOON SOILS Smirnov V.M., Yushkova O.V., Marchuk V.N., Andreev V.Y. Journal of Communications Technology and Electronics. 2016. . 61. № 2. . 112-119.
  • - .., .. 2016. . 46. №3, .31-33
  • .., .., .. , 2016, №9, .19-25
  • DISTRIBUTION OF THE SURFACE RADIO BRIGHTNESS OF ASTEROID GOLEVKA CONSTRUCTED FROM THE RADAR DATA Gavrik Y.A., Gavrik A.L., Smyslov A.A. Journal of Communications Technology and Electronics. 2016. V. 61. № 12. P. 1347-1353.
  • .., .., .., .. 2016. №9. .54-59.
2017 .
  • .., .., .., .., .., .., .., .., .., .., .. RU 2626404 C1, 27.07.2017. № 2016128443 12.07.2016
  • .., .., .., .., .., .., .., .., .., .., .. RU 168736 U1, 17.02.2017. № 2016130579 25.07.2016.
  • .., .., .., .., .., .., .., .., .., .., .. RU 169567 U1, 23.03.2017. № 2016130608 25.07.2016
  • .., .., .., .., .., .. . . 2017. . 51. № 5. . 417-431. RADIOSOUNDING IN THE PLANNED MISSION TO PHOBOS Zakharov A.V., Eismont N.A., Gotlib V.M., Smirnov V.M., Yushkova O.V., Marchuk V.N. Solar System Research. 2017. . 51. № 5. . 386-399.
  • .., .., .., .., .. . 2017. . 62. № 12. . 1182-1189. PROCEDURE FOR EXTRACTION OF SMALL-SCALE VARIATIONS IN THE TOTAL ELECTRON CONTENT OF THE IONOSPHERE WITH THE USE OF TRANSIONOSPHERIC SOUNDING DATA Pashintsev V.P., Peskov M.V., Smirnov V.M., Smirnova E.V., Tynyankin S.I. Journal of Communications Technology and Electronics. 2017. . 62. № 12. . 1336-1342.
  • - . ., . ., .. Journal of Russian Laser Research V.38, №4, July 2017, pp.344-348.
  • .., .. . . 2017. . 60. № 9. . 763-769.
  • .., .. . 2017. . 55. № 3. . 201-206.
  • .., .., .. . 2018. № 3. . 35-39. . 160-162.
2018 .
  • . .., .., .., .., .., .., .., .., .. RU 2693842 C1, 05.07.2019. № 2018127892 30.07.2018
  • . .., .., .., .., .., .., .. RU 2667695 C1, 24.09.2018. № 2017126782 25.07.2017
  • . .., .., .., .., .., .., .. RU 2656617 C1, 06.06.2018. № 2017111411 04.04.2017
  • 2010 . .., .., .., .. . 2018. . 56. № 4. . 283-292.
  • SEISMO-IONOSPHERIC VARIATIONS DURING STRONG EARTHQUAKES BASED ON THE EXAMPLE OF THE 2010 EARTHQUAKE IN CHILE Smirnov V.M., Smirnova E.V., Tsidilina M.N., Gaponova M.V. Cosmic Research. 2018. . 56. № 4. . 267-275
  • – .., .., .., .., .., .., .., .., .., .., .. . . 2018. . 52. № 4. . 291-304.
  • BISTATIC RADAR DETECTION IN THE LUNA-RESURS MISSION Yushkova O.V., Gavrik A.L., Marchuk V.N., Yushkov V.V., Smirnov V.M., Laptev M.A., Chernyshev B.V., Dutyshev I.N., Lebedev V.P., Medvedev A.V., Petrukovich A.A. Solar System Research. 2018. . 52. № 4. . 287-300
  • .., .., .. . 2018. . 56. № 3. . 199-208.
  • USING THE SUBSURFACE SOIL SOUNDING RADAR FOR INVESTIGATING THE STRUCTURE AND TOTAL ELECTRON CONTENT OF THE MARTIAN IONOSPHERE. Smirnov V.M., Yushkova O.V., Marchuk V.N. Cosmic Research. 2018. . 56. № 3. . 180-189.
  • .., .., .., .., .., .. . 2018. . 19. № 9. . 21-28
  • - "--1" .., .., .. . 2018. № 11. . 4
  • . ., . ., .. , 2018, .15, №1, .71-74
  • RADIO SCIENCE EXPERIMENT ON THE MISSION VENERA-D: A CONCEPT OF THE RF SUBSYSTEM AND RADIO OCCULTATION MEASUREMENTS Gavrik A., Kolomiets S., Gavrik Yu, Kopnina T., Lukanina L., Ilyushin Y.A. The 40th PIERS in Toyama, JAPAN 1 - 4 August 2018.
2019 .
  • 23- 24- . .., .. - . 2019. . 5. № 2. . 82-88.
  • IONOSPHERIC EFFECTS OF TWO SOLAR FLARES AT THE MAXIMUM OF SOLAR CYCLE 23 AND AT THE MINIMUM OF SOLAR CYCLE 24. Smirnov V.M., Smirnova E.V. Solar-Terrestrial Physics. 2019. . 5. № 2. . 76-80
  • .., .., .., .., .., . . 2019. . 57. № 6. . 440-450
  • /GPS. .., .., .. . 2019. . 64. № 9. . 881-886.
  • FORECASTING HIGH-FREQUENCY RADIO COMMUNICATIONS BASED ON GLONASS/GPS NAVIGATION SYSTEM DATA. Smirnov V.M., Smirnova E.V., Tynyankin S.I. Journal of Communications Technology and Electronics. 2019. . 64. № 9. . 952-957
  • . .., .. . 2019. . 16. № 5. . 327-335
  • . .. .., .. . . . 2019. . 11. № 1. . 3-4.
  • . .., .., .., .., .. . . . 2019. . 11. № 1. . 57-64
  • MONITORING EARTH’S IONOSPHERE BY MEANS OF HARDWARE-SOFTWARE COMPLEX USING THE GPS/GLONASS SATELLITE SYSTEMS. Smirnov, V. M., & Smirnova, E. Resources Environment and Information Engineering, 1(1), 29-35. https://doi.org/10.25082/REIE.2019.01.004
  • THE INFLUENCE OF SOLAR ILLUMINATION ON THE SENSITIVITY OF PASSIVE LIDAR FOR RECEPTION OF THE SCATTERED LASER RADIATION Grigorievsky V. I. Radiophysics and Quantum Electronics, Vol. 62, No. 2, July, 2019, P. 108-113
  • SCATTERING OF HIGH-POWER LASER RADIATION IN THE EARTH’S ATMOSPHERE AND ITS INFLUENCE ON THE OPERATION OF ACTIVE AND PASSIVE LIDARS. GrigorievskyV. I., Tezadov Y. A. Journal of Optical TechnologyFebruary 2019, Volume 86, Issue 2, P. 92-95
  • ON A METHOD FOR MEASURING METHANE CONCENTRATION ON EXTENDED ATMOSPHERIC PATHS USING A REMOTE GAS ANALYZER WITH A POWERFUL RAMAN AMPLIFIER Akimova G. A., Grigorievsky V. I., Syrykh Yu. P., Sadovnikov V. P., Tezadov Y. A., Fedenev A. V. Journal of Communications Technology and Electronics, 2019, Vol. 64, No. 11, P. 1251–1255
  • RADIO OCCULTATION ON THE VENERA-D MISSION: A CONCEPT OF RADIO FREQUENCY SUBSYSTEM AND RADIO SCIENCE TECHNIQUE Anatoly L. Gavrik, Sergey F. Kolomiets, Yaroslav A. Ilyushin, Mikhail I. Bondarenko, Lyudmila A. Lukanina, Tatiana F. Kopnina. RENSIT, 2019, 11(1). P.5-12
2020 .
  • MODELING AND EXPERIMENTAL STUDY OF LIDAR RESOLUTION TO DETERMINE METHANE CONCENTRATION IN THE EARTH’S ATMOSPHERE V. I. Grigorievsky, Ya. A. Tezadov. Cosmic Research, 2020, Vol. 58, No. 5, P. 330–337
  • MULTICHANNEL FIBER-OPTIC AMPLIFIER AT THE WAVELENGTH OF 1653 NM FOR LIDAR REMOTE SENSING OF ATMOSPHERIC METHANE CONCENTRATIONS V. I. Grigorevsky, Ya. A. Tezadov J. Opt. Technol. 2020, 87(7), P.430-433
  • - 1640-1660 . .. 2020, .17, №3, C.66-72