FORMATION ALGORITHM OF DYNAMIC TURN FOR UNMANNED AERIAL VEHICLES ON APPROACH

Great interest in using unmanned aerial vehicles has recently been shown, both from economic entities, and from national security, defense and law enforcement agencies. However, for using UAV for the civil purposes there is now a number of problems which are connected with the use of airspace and without solving them it is impossible to use the UAV fully. It should be noted that the level of flight safety, both for regular aircraft, and for the UAV, has the primary value. It is necessary to use modern methods of data processing and to have an opportunity to quickly and effectively control the current flight safety level. For this purpose the fullest information on the current movement of aircraft and unmanned aerial vehicles, and also on the structure of the used airspace has to be used. The problem of procedures and maneuvers development that resolve potential traffic conflict including the UAV, is extremely important for air traffic safety especially in the vicinity of the destination or landing aerodrome. The possibility of creation of an algorithm of dynamic turn formation and the choice of a trajectory on approach of unmanned aerial vehicles is considered in this article. The technology of automatic dependent surveillance broadcast was used when collecting statistical data. Implementation of the landing algorithm is executed based on the criteria of ensuring efficiency and flight safety. The developed software provides the use only of open data on the aircraft movement in terminal airspace. The suggested algorithm can be adapted for air traffic management of the UAV in any selected airspace.

the unmanned aerial vehicle, approach procedure, the software, automatic dependent surveillance broadcast

1. ICAO Doc 4444 ATM/501 Air Traffic Management. Montreal. ICAO, 2007.

2. Annex 11. Air Traffic Services. 13th edition. Montreal. ICAO, 2001.

3. Federalniye aviatsionnye pravila «Organizatsiya vozdushnogo dvizheniya v Rossijskoy Federatsii» [Federal Aviation Regulations of Flight Rules “Air Traffic Management in Russian Federation”] (with the changes from 21.07.2016): Approved by the Russian Minister of Transport from 25.11.2011 № 293. (in Russian)

4. Bochkarev V.V., Kravcov V.F., Kryzhanovskij G.A. Kontseptsiya i sistemy CNS/ATM v grazhdanskoj aviatsii / pod red. G.A. Kryzhanovskogo [The concept and the CNS/ATM systems in civil aviation]. Moscow, Akademkniga, 2003, 414 p. (in Russian)

5. Malygin V.B., Gubenko S.V., Turkov A.N. Noviy metod UVD v zonah ozhidaniya [A new method of controlling air traffic in waiting areas]. The Scientific Bulletin of the MSTUCA, 2014, no. 209. (in Russian)

6. Lebedev G.N., Malygin V.B., Nechaev E.E., Tip Phon Chzho. Ispolzovanie sistemy prioritetnogo obsluzhivanija pri vnedrenii avtomatizirovannogo upravlenija priletom-vyletom v vozdushnom prostranstve Moskovskogo ajerouzla [Use of system of priority service at introduction of automated management of an arrival departure in airspace of the Moscow TMA]. The Scientific Bulletin of MSTUCA, 2012, no. 180. (in Russian)

7. Karpunin A.A., Voronov E.M. Approksimacija uchastka traektorii dvizhenija v ploskosti dinamicheskoj upravljaemoj sistemy pri pomoshhi logarifmicheskoj spirali [Approximation of the phase of trajectory of the movement in the plane of the dynamic operated system by means of a logarithmic spiral]. Nauka i obrazovanie: elektronnoe nauchno-tehnicheskoe izdanie [Science and education. Electronic scientific journal], 2011, no. 11, p. 7. Available at: http://technomag.edu.ru/file/505020.html?__s=1 (accessed 23.01.2017). (in Russian)

8. Lebedev A.A., Chernobrovkin L.S. Dinamika poleta bespilotnyh letatel'nyh apparatov [Flight dynamics of unmanned aerial vehicles]. Moscow, Oborongiz, 1962, 549 p. (in Russian)

9. Lebedev A.A., Karabanov V.A. Dinamika sistem upravlenija bespilotnymi letatel'nymi apparatami [Dynamics of control systems of unmanned aerial vehicles]. Moscow, Mashinostroenie, 1965, 528 p. (in Russian)

10. Plotnikov V.N. Prinyatie resheniy v sistemah upravleniya. Teoriya i proektirovanie algoritmov prinjatiya operativnyih resheniy. [Decision-making in control systems. Theory and design of algorithms of adoption of operational decisions]. Part 1. Moscow, MGTU, 1993, 172 p. (in Russian)

11. Plotnikov V.N. Prinjatie resheniy v sistemah upravleniya. [Decision-making in control systems]. Part 2. Moscow, MGTU, 1994, 142 p. (in Russian)