1. Science
  2. Publications
  3. Systems of Arms and Military Equipment
  4. 4(60)'2019
  5. Development of general requirements for multi-position phasometric trajectory measurement system

Development of general requirements for multi-position phasometric trajectory measurement system

V. Lyashenko, Yu. Dobrishkin, V. Zozulya, K. Kulahin
Annotations languages:


Description: An analysis of open sources of information indicates that active work has been carried out in the developed countries of the world regarding the search for new technologies, methods and means of precise positioning, and determination of the motion parameters of highly dynamic objects, including armaments and military equipment (AME). There is a special interest in such a direction as information and measuring support for pilot tests of highly dynamic special-purpose aircraft, such as cruise missiles, attack and reconnaissance unmanned aerial vehicles, anti-aircraft missile systems, etc. Radio engineering, optical and optical-electronic systems for external trajectory measurements are the means of high-precision coordinate-time and navigation support for tiled experiments, and are combined into a range measuring and computing complex (RMCC) of the test range. The temporary loss of the test range on the territory of the Autonomous Republic of Crimea with the onset of aggression of the Russian Federation and its reconstruction on the south-west coast of the Black Sea caused an urgent need for the creation of modern trajectory measurements instrumentation of the RMCC of the State Test Range of the Armed Forces of Ukraine. The creation of multi-position phasometric trajectory measurement systems by domestic manufacturers on the basis of the general requirements proposed by the authors of the article will make it possible to increase the RMCC efficiency of a new test range and improve the quality of testing new and modernized armaments and military equipment.


Keywords: tests, test object, controlled object, highly dynamic aircraft, trajectory measurements, trajectory parameters, phase-measuring system of trajectory measurements, testing ground, range measuring and computing complex, facilities of external tracking measurements, satellite radio navigation systems

References

1.Resolution of the Verkhovna Rada of Ukraine (1993), “Voyenna doktrina Ukrainy vіd 19 zhovtnya 1993 roku №3529-XII z dopovnennyami vіd 21 grudnya 2000 roku № 2171-III” [Military doctrine of Ukraine dated October, 19, 1993 No. 3529-XII with additions dated December, 21, 2000], available at: www.iac.dod.ua.
2.Decree of the President of Ukraine (2016), “Strategіchnij oboronnij byuleten' (Oboronna Bіla Kniga Ukrayni) vіd27.02.2016” [Strategic defensive bulletin (Defensive White-book of Ukraine), dated 27.02.2016], 38 p.
3.Decree of the President of Ukraine (2016), “Pro zatverdzhennya Derzhavnoy cіl'ovoyi programi rozvitku ozbroennya tavіjs'kovoyi tekhnіki na perіod do 2020 roku” [About claim of the Government having a special purpose program of development of armament and military technique on a period to 2020 year].
4.Order of the General Staff of the Armed Forces of Ukraine (2018), “Pro zatverdzhennya Polozhennya pro derzhavnijviprobuval'nij polіgon Zbrojnih Sil Ukraini vіd 05.03.2018 № 99” [On Approval of the Regulation of the State Testing Range of the Armed Forces of Ukraine dated March 05, 2018 No. 99].
5.Litus, Yu.P., Malafeev, E.E. and Mikhailov, Yu.V. (2006), “Vysokotochnaya mnogoparametricheskaya sistemavneshnetraektornyh izmerenij parametrov dvizheniya letatel'nyh apparatov ”Vega” [High-precision multi-parameter system of external path measurements of the motion parameters of the aircraft “Vega”], Applied Radio Electronics, Vol. 5, No. 4, pp. 448-453.
6.AO NYYRY, “Radiotekhnicheskie mnogoparametricheskie sistemy vysokotochnyh izmerenij parametrov traektoriidvizhushchihsya ob'ektov” [Radiotechnical multi-parameter systems of high-precision measurements of the parameters of the trajectory of moving objects], available at: www.niri.com.ua/Rus/rmsvi_nv.htm.
7.Ehling, Ernest H. (1967), Range Instrumentation, Prentice-Hall, Englewood Cliffs, N.J., 634 p.
8.A Precision, Operational, Automatik Tracking System, available at: www.maps.thefullwiki.org/AZUSA,www.chemeurope.com/en/encyclopedia/AZUSA, www.en.wiki 2.org/wiki/AZUSA.
9.MISTRAM – Missile Trajektory Measurement Sustem, available at: www.maps. thefullwiki.org/MISTRAM,https://en.wikipedia.org/wiki/MISTRAM.
10.Kudryashov, V.A. (2011), “Izmiritel'nomu kompleksu kosmodroma Bajkonur – 50 let (1957–2007). Istoricheskijocherk” [The measuring complex of the Baikonur Cosmodrome is 50 years old (1957–2007). Historical essay], St. Petersburg, 319 p.
11.Gladkov, I. (2018), “Udary po “Bulave” (Poligon degradacii)” [Strikes on the “Mace” (Landfill degradation)],Military-industrial courier, No. 48(761), available at: www.vpk.name/news/237703_udaryi_po_bulave.html.
12.Soloviev, Yu.A. (2003), “Sputnikovaya navigaciya i ee prilozheniya” [Satellite navigation and its applications], Eco-Trends, Moscow, 326 p .
13.Zhalilo, A.A., Dokhov, A.I., Katyushina, E.V., Vasilyeva, E.M., Yakovchenko, A.I. and Lukyanova, O.A. (2017),“Razrabotka vysokotochnoj sistemy opredeleniya traektorij kosmicheskih apparatov i drugih vysokodinamichnyh ob'ektov” [Development of a high-precision system for determining the trajectories of spacecraft and other highly dynamic objects], Applied Radioelectronics, Vol. 16, No. 3–4, pp. 112-116.
14.Jalilo, A.A., Zhelanov, A.A. and Ditsky, I.V. (2013), “Eksperymentaljnaja otrabotka proghrammno-matematycheskogho ynstrumentaryja dlja ocenky y modelyrovanyja polnogho elektronnogho soderzhanyja yonosfery po dannym sety nazemnykh permanentnykh referencnykh GhNSS stancyj Ukrayny” [Experimental development of software and mathematical tools for assessing and modeling the total electronic content of the ionosphere according to the network of ground permanent reference GNSS stations of Ukraine], Ionosat-Micro Space Project, pp. 200-209.

Reference:
 Liashenko, V.A., Dobryshkin, Yu.M., Zozulia, V.M. and Kulahin, K.K. (2019), “Rozrobka zahalnykh vymoh do bahatopozytsiinoi fazometrychnoi systemy traiektornykh vymiriuvan” [Development of general requirements for multi-position phasometric trajectory measurement system], Systems of Arms and Military Equipment, No. 4(60), pp. 86-93. https://doi.org/10.30748/soivt.2019.60.12.