Description: Comprehensive and complete support of the combat (actions) of anti-aircraft units and units of the air defense forces of the Ground Forces consists in organizing and implementing measures aimed at maintaining units in high combat readiness, maintaining their combat capability and creating favorable conditions for them to successfully accomplish the tasks. One type of security is tech-nical support, which must meet certain requirements. The requirements for the technical support system are also increasing because the military leadership of Ukraine adheres to the defensive military doctrine, as a result of which there are substantial requirements for high combat readiness of air defense units and subunits and, accordingly, for high combat readiness of armaments and military equipment (IWT). The technical support system of the anti-aircraft units and units of the air defense forces of the SV has the main task - to provide the troops with weapons and equipment, missiles and ammunition, military equipment, creating conditions for achieving maximum efficiency of the air defense system. In the course of the battle (actions), new, equally important tasks arise that are solved in difficult conditions: the restoration of weapons and equipment after combat damage; timely delivery of missiles and ammunition in the unit and division of the air defense forces of the Ground Forces; recovery of missiles after combat damage. This requires commanders at various levels of substantial effort to resolve these issues. The main issues of determining the structure and defining models that are used in the study of the technical support system (technical support), the main ways of their implementation during the educational process, enhancing cognitive activity of students; Some recommendations are offered to the commander of the anti-aircraft unit for the improvement of the technical support system in order to provide high-quality training of specialists in the specialty and to improve the educational process of training specialists to the faculty. This, to some extent, makes it possible to improve questions of the effectiveness of education at the faculty
Keywords: technical support system, model, research
1.Alimpiiev, A.M. and Pievtsov, H.V. (2017), “Osoblyvosti hibrydnoi viiny RF proty Ukrainy. Dosvid, shcho otrymanyiPovitrianymy Sylamy Zbroinykh Syl Ukrainy” [The features of the hybrid war of the Russian Federation against Ukraine. Experience received by the Armed Forces of the Armed Forces of Ukraine], Science and Technology of the Air Force of Ukraine, No. 2(27), pp. 19-25. https://doi.org/10.30748/nitps.2017.27.03.
2.Oriekhov, S.V., Piskynov, S.N. and Akulinin, G.V. (2011), “Zabezpechennya boyovyh diy pidrozdiliv viysk PPO SV.Chastyna 2. Tekhnichne zabezpechennya boyovyh diy pidrozdiliv viysk PPO SV” [Ensuring combat operations of units of air defense units.], KAFU, Kharkiv, 203 p.
3.Oriekhov, S.V., Lezik, A.V. and Samokvit, V.I. (2010), “Boyove zastosyvannya zenitnych raketnych batarey, ozbroenychzenitnym raketnym komplechsom “OSA-AKM” [Fighting the use of anti-aircraft missile batteries armed with the “OSA-AKM” anti-aircraft missile system], KAFU, Kharkiv, 216 p.
4.Yarosh, S.P., Shulezhko, V.V., Zymnytskyi, A.K. and Stepanov, P.O. (2015), “Vyznachennia vazhlyvosti kharakterystykzenitnoho raketnoho kompleksu” [Determination of importance of specification antiaircraft missile system], Science and Tech-nology of the Air Force of Ukraine, No. 1(18), pp. 54-60.
5.(2016), “Boyovyi statyt viysk PPO SV. Chastyna 3 (vzvod, viddilennya, obslyga)” [The combat status of the troops air de-fense of SF(platoon, department, service)], Armed Forces of Ukraine, Kyiv, pp. 11-25.
6.Yarosh, S.P., Zakutin, K.V., Voronin, V.V. and Shulezhko, V.V. (2015), “Porivnyalne ochinyvannya zenitnych raketnychcompleksiv metodom perevirky vidpovidnosty ikh taktyko-tekhnichnyh characterystyk operatyvno-technichnym vymogam” [Com-parative estimation of anti-aircraft rocket complexes method of check of their conformity tactical and technical characteristics to operational and tactical requirements], Science and Technology of the Air Force of Ukraine, No. 3(20), pp. 85-91.
7.Gorodnov, V.P. (1987), “Modelirovanie boevych deystviy chastey, soedineniy i obedineniy viysk PPO” [Simulation ofcombat operation of units, formations of air defense forces], VIRTA, Kharkiv, 380 p.
8.Ermochin, M.O. and Drobacha, G.A. (2004), “Ozinka efectivnosti boyovyh diy zenitnych raketnych viysk” [Assessment ofthe effectiveness of combat operations of anti-aircraft missile troops], HVU, Kharkiv, 259 p.
9.Lezik, O.V., Oriekhov, S.V., Levahin, H.A. and Knysh, D.V. (2018), “Pidvyshchennia efektyvnosti prykryttia vybuk-honebezpechnykh obiektiv za rakhunok sumisnoho zastosuvannia taktyko-vohnevykh pidrozdiliv PPO i taktyko-spetsialnykh pidrozdiliv REB” [Increasing the effectiveness of the coverage of explosive objects due to the joint use of tactical and fire subdi-visions of air defense and tactical and special units of electronic warfare], Science and Technology of the Air Force of Ukraine, No. 2(31), pp. 167-173. https://doi.org/10.30748/nitps.2018.31.22.
10.Sukharevskii, O.І., Vasilets, V.O., Riapolov, І.Ye. and Brechka, M.M. (2017), Scattering characteristics of Mi-8MThelicopter based on measurements of object scale model in an anechoic chamber, Information Processing Systems, No. 1(147), pp. 109-114. https://doi.org/10.30748/soi.2017.147.20.
11.Kamal, M. and Al-SubhiAl-Harb (2001), Application of the AHP in project management, International Journal of Pro-ject Management, Vol. 19, Issue 1, pp. 19-27, https://doi.org/10.1016/S0263-7863(99)00038-1.
12.Sukharevskii, O.І., Vasilets, V.O., Riapolov, І.Ye. and Brechka, M.M. (2017), Scattering characteristics of Mi-8MThelicopter based on measurements of object scale model in an anechoic chamber, Information Processing Systems, Vol. 1(147), pp. 109-114. https://doi.org/10.30748/soi.2017.147.20.
13.Tverdochlib, M.M., Michailova, N.H., Piskynov, S.N. and Oboronov, M.I. (2012), “Rozrachynok zony rozsiyvannya ele-mentyv litaka yrazenogo zenitnoy kerovanoy raketoy” [Calculation of the zone of dispersion of elements of an aircraft affected by an anti-aircraft guided missile], Science and Technology of the Air Force of Ukraine, No. 1(7), pp. 67-69.
14.Piskynov, S.N., Yarosh, S.P. and Chekanov, A.V. (2014), “Zastosyvannya informaziyno-rozrachynkovoy systemy“Аrgyment-2011” dlya vedennya boyivych diy chastyn i pidrozdiliv PPO SV” [Application of the information-calculation system “Argument-2011” for combat operations of parts and subdivisions of air defense], KAFU, Kharkiv, 80 p.