DOI: 10.17586/1023-5086-2019-86-08-19-24
УДК: 535.343.4, 551.521.3
Taking absorbed infrared radiation into account during the testing and certification of optoelectronic equipment
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Осипов В.М., Борисова Н.Ф. Учёт поглощённой инфракрасной радиации при испытаниях и аттестации оптико-электронной аппаратуры // Оптический журнал. 2019. Т. 86. № 8. С. 19–24. http://doi.org/10.17586/1023-5086-2019-86-08-19-24
Osipov V.M., Borisova N.F. Taking absorbed infrared radiation into account during the testing and certification of optoelectronic equipment [in Russian] // Opticheskii Zhurnal. 2019. V. 86. № 8. P. 19–24. http://doi.org/10.17586/1023-5086-2019-86-08-19-24
V. M. Osipov and N. F. Borisova, "Taking absorbed infrared radiation into account during the testing and certification of optoelectronic equipment," Journal of Optical Technology. 86(8), 471-475 (2019). https://doi.org/10.1364/JOT.86.000471
A brief description of the software designed to take into account the absorption of infrared radiation during the bench testing and certification of optoelectronic equipment is presented. Estimates of the error of calculation of the individual components of the computational algorithm are presented. To estimate the impact of software on the metrological characteristics of measuring instruments, a comparison method based on the use of software of comparable level is used. The executive characteristic values of the algorithm are calculated. The results were used for the certification of software within the system of voluntary certification of software of measuring instruments.
atmospheric attenuation, transmittance function, certification of software for measuring instruments
OCIS codes: 010.1320, 120.3940, 350.4800
References:1. Yu. S. Makushkin, A. A. Mitsel, V. P. Rudenko, and K. M. Firsov, “Building a statistical model of molecular absorption characteristics,” in Optical and Meteorological Studies of the Earth’s Atmosphere, G. M. Krekov and V. S. Komarov, eds. (Nauka, Sib. Otdel., Novosibirsk, 1987), pp. 63–78.
2. V. M. Osipov and N. F. Borisova, “Statistical characteristics of the absorption of laser radiation by atmospheric gases,” J. Opt. Technol. 66(11), 979–983 (1999) [Opt. Zh. 66(11), 65–70 (1999)].
3. V. M. Osipov, N. F. Borisova, and A. M. Malov, “The software for calculating the transmission of the optical path of the test bench,” Certificate of state registration of the computer software No. 2017619236, August17, 2017.
4. GOST R8.654-2015, “GSI. Requirements for software measuring instruments. The main provisions.”
5. GOST R8.883-2015, “GSI. Software measurement tools. Algorithms for processing, storage, protection and transmission of measurement information. Test methods.”
6. S. N. Mikhaı˘lenko, Yu. L. Babikov, and V. L. Golovko, “Information-computing system for atmospheric gas spectroscopy: structure and main functions,” Opt. Atmos. Okeana 18(9), 765–776 (2005).
7. https://spectra.iao.ru.
8. V. E. Zuev and V. S. Komarov, Statistical Models of Temperature and Gas Components of the Atmosphere (Gidrometeoizdat, Leningrad, 1986).
9. K. M. Firsov, “Low-parametric models of molecular absorption and transfer of infrared radiation in the atmosphere of the Earth,” Dissertation (IOA SB RAS, Tomsk, 2000).
10. S. G. Semakin, A. V. Polyakov, and Yu. M. Timofeev, “Comparisons of measured and calculated transmission functions in the A-band of oxygen at 0.76 μm,” Issled. Zemli Kosmosa 1, 37–43 (2008).
11. Yu. S. Sedunov, S. I. Avdyushin, E. P. Borisenkov, O. A. Volkovitsky, N. N. Petrov, R. G. Reitenbakh, V. I. Smirnov, and A. A. Chernikov, eds., Atmosphere (Gidrometeoizdat, Leningrad, 1991).
12. F. X. Kneizys, L. W. Abreu, G. P. Anderson, J. H. Chetwynd, E. P. Shettle, A. Berk, L. S. Bernstein, D. C. Robertson, P. Acharya, L. S. Rothman, J. E. A. Selby, W. O. Gallery, and S. A. Clough, “The MODTRAN 2/3 Report and LOWTRAN 7 Model,” Contract F1962891C0132 (PL/GPOS, Hanscom AFB, MA, 1996).
13. M. V. Makarova, D. K. Arabadzhyan, S. Ch. Foka, N. N. Paramonov, A. V. Poberovskii, Yu. M. Timofeev, N. V. Pankratova, and V. S. Rakutun, “Evaluation of nocturnal emissions of carbon-containing gases in the suburbs of St. Petersburg,” Meteorol. Gidrol. 7, 36–44 (2018).
14. Certificate of compliance of the software “Software for calculating the transmittance of the optical path of the test bench,” No. TP 076-17 (FGUP VNIIMS, May 31, 2017).