1. Science
  2. Publications
  3. Systems of Arms and Military Equipment
  4. 4(60)'2019
  5. Approach to achieving aircraft aviation on ground (maritime) targets, taking into guidelines information

Approach to achieving aircraft aviation on ground (maritime) targets, taking into guidelines information

O. Timochko, O. Aroslankin, A. Samokish
Annotations languages:

Description: This paper analyzes the work of advanced aircraft gunner when strike aircraft on ground (sea) targets. Factors influencing the probability of the target. The methods of entering the target based aircraft navigation equipment and conditions for fighting. The effectiveness of air strikes aviation units at ground (sea) targets in the first place depends on finding a guide, especially in the shallow surface. The analysis of the tactics that will fulfill the terms of the surprise release at the target. Determined to attack tactics, which greatly increases the likelihood of overcoming air defense against the enemy. This will ensure maximum probability of target detection and creation of favorable conditions for attack purposes. Pointing errors lead to inaccurate output crew of the aircraft in a given position relative to the benchmark and goals. This is a possible cause of the disruption attack ground (sea) targets. The purpose is to study on analysis and evaluation of the accuracy of the output of the crew of the aircraft in a given position relative to the benchmark and ground (sea) targets. Developing an algorithm of actions of management and crew on aircraft recognition features informative guideline and procedure for their actions or lack undetected. Considered problem solving aiming at changing the characteristics of the observed targets. When conditions change monitoring and functioning under shallow field. The concepts are not identifying landmarks. The process of the emergence and eliminating errors in the absence of guidance or false detection landmark. And an analysis of the situation and take action. Analyzed the types of targets and analysis of error detection required features on the surface and actions of management and crew of the aircraft. Considered cycle of the crew of the aircraft advanced air gunner from the moment of choosing a benchmark on the ground at the beginning of pointing to the ground (sea) target. Proposed to improve problem solving guidance using multi-level (hierarchical) descriptions of procedures using surface analysis situations. An algorithm for solving the problem of guidance, capable of functioning as an informative reference in the presence and in the absence of specific guidelines set out the actions of management and crew of the aircraft.

Keywords: advanced aircraft gunner, the crew of the aircraft, guidance, control units aviation, guidelines


1.Chernov, V.G., Volobuev, V.A. and Jelly, A.K. (2004), “Navedennia litakiv na povitriani ta nazemni tsili” [Aircraftguidance on air and ground targets], KAFU, Kharkiv, 131p.
2.Kamensky, V.N. and Beloghlazov, Y.N. (1972), “Navedeniye na vozdushnyye i nazemnyye tseli” [Guidance on air andground targets], Moscow, 131 p.
3.Alimpіev, A.M., Kornus, Y.M., Petrichenko, O.S. and Kalkamanov, S.A. (2016), “Taktika armіjs'koyi avіacіyi. Ch. 1.Osnovi taktiki armіjs'koyi avіacіyi” [Tactics of the Armenian Aviation. Part 1. The basics of the tactics of the Army Aviation], KNAFU, Kharkiv, 160 p.
4.Beloglazov, I.N., Janjgava, G.I. and Chigin, G.P. (1985), “Osnovy navigacii po geofizicheskim polyam” [Fundamentalsof navigation through geophysical fields], Nauka, Moscow, 328 p.
5.Mubarakshin, R.V., Kim, N.V., Sablin, Y.A. and Shingiriy, I.P. (2003), “Bortovye informacionno-upravlyayushchiesredstva osnashcheniya letatel'nyh apparatov” [Airborne information and control equipment for aircraft equipment], MAI, Mos-cow, 380 p.
6.Gorbatenko, S.A., Makashov, E.M., Polushkin, Y.F. and Sheftel, L.V. (1971), “Raschet i analiz dvizheniya letatel'nyhapparatov” [Calculation and analysis of the movement of aircraft], Mechanical Engineering, Moscow, 352 p.
7.Petrushenko, N.N., Kotov, O.B., Karlov, V.D. and Melenti, E.A. (2010), “Osobennosti izmereniya dal'nosti celej,lociruemyh pod malymi uglami mesta nad morem” [Features of measuring the range of targets located at low elevation angles above the sea], KAFU, Kharkiv, pp. 293.
8.Wagner, C. and Hagras, H. (2010), Toward General Type-2 Fuzzy Logic Systems Based on zSlices, Fuzzy Systems,IEEE Transactions, Vol. 18, No. 4, pp. 637-660.
9.Greenfield, S. and John, R.I. (2009), The Uncertainty Associated with a Type-2 FuzzySet, Views on Fuzzy Sets and Sys-tems from Different Perspectives, Vol. 243, pp. 471-483.
10.Yakhyaeva, G.E. (2016), “Nechetkie mnozhestva i nejronnye seti” [Fuzzy sets and neural networks], Moscow, 187 p.
11.Culloch, J.C. (2016), Novel methods of measuring the similarity and distance between complex fuzzy sets: PhD thesis,University of Nottingham, Nottingham, 267 p.
12.Ryzhov, A.P. (2003), “Elementy teorii nechetkikh mnozhestv i yeye prilozheniy” [Elements of the theory of fuzzy setsand its applications], Moscow, 81 p.

 Tymochko, O.I., Aroslankin, O.O. and Samokish, A.V. (2019), “Pidkhid shchodo navedennia udarnoi aviatsii na nazemni (morski) tsili z urakhuvanniam informatyvnosti oznak oriientyriv” [Approach to achieving aircraft aviation on ground (maritime) targets, taking into guidelines information], Systems of Arms and Military Equipment, No. 4(60), pp. 102-107. https://doi.org/10.30748/soivt.2019.60.14.