Anatolii Gurnyk


There is considered and justified the mechanism of estimating the influence
of various factors on the state of the system functioning for the implementation
aviation search and rescue operations (ASRO). The possibility of determining effective
measures for the optimal solution selection of the tasks organization and execution regarding
the search and rescue of objects that suffer or have suffered from disaster is explored.
Based on the results of the study, the calculation model is formed to predict the
proper operation probability of the ASRO system, as well as the calculation and analysis
of the required performance indicator during its operation both in the daily routine and
in the case of an incident with an aircraft or other emergency situations.


aviation search and rescue operations; influence factors; emergency; calculation model; system efficiency indicator; probability of object detection

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Gurnyk, A. V. (2015). On the issue of aviation works for searching using a visual way // Scientific Herald Ukrainian Research Institute of Fire Safety. - №1 (31), P. 99-109.

Gurnyk, A. V., Kozlovsky, V. O. & Shabala, V. I. (2012). Functioning analysis of the aircraft search and rescue in Ukraine using a systematic approach // Scientific bulletin of the Municipal Management Academy: Series “Technology”. - № 5, P. 38-49.

Gurnyk, A. V. & Rogozin, A. S. (2014). Calculation methods of the aviation efficiency during search and rescue emergency // Proceedings of the international sci¬entific conference “Problems of civil protection, control, prevention, rescue and special work.” - Harkiv .: NUTCD Ukraine. - P. 151-153.

Justification of tactical and technical requirements for the automated system for aviation search and rescue in Ukraine / UkrNDITZS, NDR “ASU-search”, Kyiv 2016, 246 p.

Kashtanov, V. A. & Medvedev, A. I. (2010). Theory of Complex Systems Reliability: Text¬book. 2 ed., rewr. / Moscow: FIZMATLIT, 608 p. - ISBN 978-5-9221-1132-4.

Khyzhnyak, V. V. & Gurnyk, A. V. (2015). Automated control system for improving the efficiency of the aviation search and rescue // Proceedings of III All-Ukrainian scientific conference “Problems of civil protection, control, prevention, rescue and special work.” - Harkiv: NUCD Ukraine. - P. 126.

Khyzhnyak, V. V. & Gurnyk, A. V. (2014). Selection of appropriate way for finding the object based on the optimal distribution of forces and search and rescue instruments // Science and Technology of the Ukrainian Air Force - № 4 (17), P. 96-99.

Law of Ukraine from 11.07.2000 N 112-IV «About protocols ratification relating to chang¬es in the Convention about International Civil Aviation (Chicago Convention 1944)”: Annex 12 “Search and Rescue”.

Methody of scientific justification of the resource providing indicators in a unified system of air operations for search and rescue in the Ukraine during the organization and conduct of the aircraft search and rescue / UkrNDI ZS NDZ of aviation “AVIAPOSHUK-resources”. Kyiv -2015. - 265 p.

Rogozin, A. S. & Gurnyk, A. V. (2014). The mathematical description of the aircraft de¬tection during air operations for search and rescue // Information processing systems / Khark. Univ. Air Forces named Ivana Kozheduba. - Kharkiv Science and Technology of the ukrainian Air Force, № 8 (124), P. 191-193.

Rusnak, I. S. (2013). The system of the aircraft search and rescue in Ukraine: state and prospects of development // Science and Defense, № 1, P. 28-37.


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ISSN (Print) : 2449-7320

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