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INSTFIZ ATMOSFERY AN SSSR

Overview
  • Total Patents
    16
About

INSTFIZ ATMOSFERY AN SSSR has a total of 16 patent applications. Its first patent ever was published in 1979. It filed its patents most often in USSR (Union of Socialist Soviet Republics) and Russian Federation. Its main competitors in its focus markets environmental technology and chemical engineering are SAKURAI KENZAI SANGYO KK, MO I INZH GEO AEROFOTOKARTOGR and FOKIN IVAN M.

Patent filings in countries

World map showing INSTFIZ ATMOSFERY AN SSSRs patent filings in countries

Patent filings per year

Chart showing INSTFIZ ATMOSFERY AN SSSRs patent filings per year from 1900 to 2020

Focus industries

Focus technologies

Top inventors

# Name Total Patents
#1 Gurvich Aleksandr S 2
#2 Myakinin Vladimir A 2
#3 Bezverkhnij Vyacheslav A 2
#4 Bogdanov Leonid V 2
#5 Dvoryashin Sergej V 2
#6 Shefov Nikolaj N 2
#7 Bedulin Andrej N 1
#8 Solovev Aleksandr V 1
#9 Vorobev V V 1
#10 Gurvich A S 1

Latest patents

Publication Filing date Title
RU1779933C Method for determining angle difference of planet refraction on two wavelengths
SU1700443A1 Device for obtaining stratified liquid
SU1689908A1 Method of determining moisture content of atmosphere
SU1657935A1 Reflecting prism for rotating polarization plane
SU1695250A1 Method of remote determination of water reserve of drop clouds
SU1563646A1 Driving lifting deep water to surface layers of water body
SU1451628A1 Method of radioacoustic probing of atmosphere
SU1448838A1 Opto-acoustic method of measuring energy parameters of pulsed laser radiation
SU1481846A1 Digital information magnetic recording device
SU1326961A1 Method of measuring structural characteristic of refractive index of atmosphere
SU1337859A1 Method of remote determination of water content of water clouds
SU1310827A1 Interface for linking information source and receiver
SU1067449A1 Two-dimensional signal spatial spectrum coherent optical analyzer
SU885950A1 Upper atmosphere temperature measuring method
SU868619A1 Coherent optical analyzer of spectra of two-dimensional signals
SU773556A1 Method of determining height of upper-atmosphere radiating layers