V.S. Kalinin¹, А.A. Koziratsky², A.N. Shmarov³

1,3 MESC AF «N.E. Zhukovsky and Y.A. Gagarin Air Force Academy» (Voronezh, Russian)

2  Voronezh State University  (Voronezh, Russian)

The basis of most of the works devoted to the transmission of information from unmanned aerial vehicles [1−3] is the organization of communication, which implements an active data transmission channel, which, in a difficult electromagnetic environment and destructive influences, does not always provide timely and stable information transmission, and carries an increased weight and size load to the media. Therefore, it is promising to build a passive laser information transmission channel.

To develop a methodology for substantiating the main characteristics of the means that are part of a passive laser channel for transmitting information from an unmanned aerial vehicle to a ground control point.

A method is proposed for transmitting information from a small-sized unmanned aerial vehicle to a ground control point, based on reading information (to be transmitted) by a laser beam generated from a consumer. In relation to which, on the basis of the methods of the theory of optimal signal reception and propagation of optical radiation, a technique has been developed for substantiating the characteristics of the means that are part of the passive laser channel. Analytical expressions are obtained for determining the detection threshold and the optimal threshold for discriminating the signals of the receiving channel; the amount of excess of the average number of photoelectrons of one signal over the other, necessary and sufficient for distinguishing two signals, is investigated.

The proposed method of information transmission will provide timely and highly stable information transmission under the influence of intentional and unintentional interference, gain in weight and dimensions of the on-board telecommunication means. The technical implementation of a passive laser channel is characterized by a low degree of complexity.

Kalinin V.S., Koziratsky А.A., Shmarov A.N. Substantiation of the characteristics of a passive laser channel for transmitting information from an unmanned aerial vehicle to a ground control point. Radioengineering. 2021. V. 85. № 1. P. 37−43. DOI: 10.18127/j00338486-

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1. Evstigneev V.G., Sukhachev A.B. Nekotorye voprosy obmena informatsiei v kompleksakh upravleniya sovremennykh letatelnykh apparatov. Tekhnika sredstv svyazi. Ser. Tekhnika televideniya. 2010. № 1. S. 67−71. (in Russian)
2. Sukhachev A.B., Zhalnin A.M. Bocharov A.Yu. Otsenka uslovii vkhozhdeniya v svyaz v kompleksakh upravleniya bespilotnymi letatelnymi apparatami s primeneniem statisticheskikh metodov. Tekhnika sredstv svyazi. Ser. Tekhnika televideniya. 2011. № 1. S. 38−45. (in Russian)
3. Sukhachev A.B., Rukin A.P. Formirovanie veroyatnostnoi modeli protsedury organizatsii obmena informatsiei v sisteme upravleniya bespilotnymi letatelnymi apparatami. Informatsionno-izmeritelnye i upravlyayushchie sistemy. 2016. T. 14. № 2. S. 19−26. (in Russian)
4. Koziratskii A.Yu., Kusakin O.V., Frolov M.M., Koziratskii A.A. Upravlenie bespilotnym letatelnym apparatom tipa «kvadrokopter» v usloviyakh slozhnoi elektromagnitnoi obstanovki. Materialy XIX Mezhdunar. NMK «Informatika: Problemy, metodologiya, tekhnologii». Voronezh 14−15 fevralya 2019. Voronezh: VGU. 2019. S. 368−373. (in Russian)
5. Koziratskii A.Yu., Kusakin O.V., Frolov M.M., Koziratskii A.A. Sposob upravleniya bespilotnym letatelnym apparatom tipa «kvadrokopter» v usloviyakh slozhnoi elektromagnitnoi obstanovki. Sb. nauchnykh statei po materialam 6-i Mezhdunar. NPK «Akademicheskie zhukovskie chteniya» 14−15 noyabrya 2018. Voronezh: VUNTs VVS «VVA». 2019. S. 162−166. (in Russian)
6. Gonorovskii I.S. Radiotekhnicheskie tsepi i signaly: Ucheb. posobie dlya vuzov. Izd-e 5-e, ispr. i dop. M.: Drofa. 2006. 719 s. (in Russian)
7. Sheremetev A.G. Statisticheskaya teoriya lazernoi svyazi. M.: Svyaz. 1971. 264 s. (in Russian)
8. Koziratskii Yu.L., Popelo V.D. Metody eksperimentalnogo issledovaniya kharakteristik otrazheniya optiko-elektronnykh sredstv. Voronezh: 5 TsNIII MO RF. 1998. 186 s. (in Russian)
9. Obnaruzhenie i koordinatometriya optiko-elektronnykh sredstv, otsenka parametrov ikh signalov. Pod red. Yu.L. Koziratskogo. M.: Radiotekhnika. 2013. 456 s. (in Russian)
10. Tikhonov V.I. Optimalnyi priem signalov. M.: Radio i svyaz. 1983. 320 s. (in Russian)