DOI 10.17586/0021-3454-2018-61-6-507-512
UDC 621.383.5
PORTABLE GATED-VIEWING DEVICE
Design and Technology Institute of Applied Microelectronics, Branch of the Institute of Semiconductor Physics, Department of Optical-Electronic Devices Modeling;; Head of a Sector;
A. A. Golitsyn
Novosibirsk Division of Rzhanov Institute of Semiconductor Physics of the Siberian Branch of the RAS “Technological Design Institute of Applied Microelectronics”, Department of Electronic Systems; Senior Electronics Engineer
A. V. Golitsyn
Institute of Applied Microelectronics, Institute of Semiconductor Physics, Novosibirsk subsidiary, Russian Academy of Science;; the Head of Department of Modelling of Opto-Electronic Devices
N. A. Seyfi
Novosibirsk Division of Rzhanov Institute of Semiconductor Physics of the Siberian Branch of the RAS “Technological Design Institute of Applied Microelectronics”, Department of Electronic Systems; Engineer
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Abstract. A gated-viewing device intended for detection of optical devices conducting counter observation, by their reflection of probing radiation, is developed. Description of the instrument design and results of its experimental testing are presented. The range-gated viewing method is realized on an interline transfer CCD image sensor.
Keywords: gated viewing, laser locator, range-gated method, surveillance device, CCD image sensor, laser emitter, image processing
References:
References:
- Volkov V.G. Voprosy oboronnoy tekhniki, 1995, no. 1–2(144–145), pp. 3–7. (in Russ.)
- Popov G.N., Golubev P.G., Mordvin N.N., Pitik S.D. Prikladnaya Fizika (Applied Physics), 2007, no. 2, pp. 124–127. (in Russ.)
- Golitsyn A.V., Zhuravlev P.V., Zhurov G.E., Koryakin A.V., Chikhonadskikh A.P., Shlishevskiy V.B., Yashina T.V. Journal of Instrument Engineering, 2009, no. 6(52), pp. 27–34. (in Russ.)
- Belokonev V.M., Volkov V.G., Salikov V.L., Sluchak B.A. Prikladnaya Fizika (Applied Physics), 2013, no. 4, pp. 16–22. (in Russ.)
- Gorobetz V.A., Kabanov V.V., Kabashnikov V.P., Kuntsevich B.F., Metelskaya N.S., Shabrov D.V. Journal of Applied Spectroscopy, 2014, no. 2(81), pp. 279–287.
- Mishchenko N.I., Pustynskiy I.N. Proceedings of TUSUR, 2014, no. 3(35), pp. 47–52. (in Russ.)
- Golitsyn A.A., Seyfi N.A. Materialy XXIII Vserossiyskoy nauchnoy konferentsii studentov-fizikov i molodykh uchenykh(Proceedings of the XXIII All-Russian Scientific Conference of Students-Physicists and Young Scientists), Ekaterinburg, 2017, р. 263. (in Russ.)
- Golitsyn A.A., Seyfi N.A. Journal of Instrument Engineering, 2017, no. 11(60), pp. 1040–1047. (in Russ.)
- Golitsyn A.A., Seyfi N.A.Nauka. Promyshlennost'. Oborona(Science. Industry. Defense), Proceedings of the XVII All-Russian Scientific and Technical Conference, 2016, рр. 195–198. (in Russ.)
- Zhurov G.E., Tsivinskiy M.Yu. Journal of Instrument Engineering, 2014, no. 5(57), pp. 44–46. (in Russ.)
- Golitsyn A.A., Tsivinskiy M.Yu. Prikladnaya Fizika (Applied Physics), 2017, no. 4, pp. 46–50. (in Russ.)
- Kovalev A.M. Journal of optical technology, 1999, no. 6(66), pp. 567-573.
- Golitsyn A.A. Materialy XXI Vserossiyskoy nauchnoy konferentsii studentov-fizikov i molodykh uchenykh(Proceedings of the XXI All-Russian Scientific Conference of Students-Physicists and Young Scientists), Оmsk, 2015, рр. 294–295. (in Russ.)
- Kovalev A.M. Optoelectronics, Instrumentation and Data Processing, 2000, no. 4, pp. 76–81. (in Russ.)
- Golitsyn A.A. Spetstekhnika i svyaz', 2015, no. 1, pp. 17–19. (in Russ.)
- Golitsyn A.A. Proceedings of Universities. Electronics, 2015, no. 3(20), pp. 275–281. (in Russ.)
- Golitsyn A.V. Journal of Instrument Engineering, 2009, no. 6(52), pp. 18–21. (in Russ.)
