G.I. Andreev1, T.A. Mirtalibov2, V.A. Tikhomirov3, M.E. Zamarin4

1,4 JSC “CNIRTI named after academician A.I. Berg” (Moscow, Russia)

2 “Almaz-Antey” Corp. (Moscow, Russia)

3 JSC R&D Production Facility “Development of Innovative Technologies” (Tver, Russia)

1,4 post@cnirti.ru; 2 info@npo-rit.ru 3 info@npo-rit.ru

The current trends in the development of electronic warfare in the world highlight the problem of qualitative improvement of electronic warfare samples. Qualitative improvement consists in ensuring high functional efficiency, cost-effectiveness and guaranteed safety of complex electronic warfare systems and is determined by a system of scientific, technological and organizational problems. The interrelation of these problems can be revealed during the analysis of the management system for the implementation of development programs, within which the creation of electronic warfare samples is carried out. The scale and complexity of the tasks of creating electronic warfare samples is concentrated in a technological process called the life cycle. An important stage of this cycle is testing, a unique type of research that allows us to assess the quality of electronic warfare samples in conditions as close as possible to the real conditions of their operation.

Solving the management task of optimizing the process of testing electronic warfare equipment under given resource, primarily time and price constraints, in order to improve the quality of the tested samples and the level of readiness of the standard equipment used.

An approach to testing electronic warfare technology based on the theory of experimental planning is proposed, aimed at evaluating the effectiveness of the technology at all stages of its life cycle.

Creating prerequisites for increasing the reliability of the test results of electronic warfare equipment and, as a result, increasing the quality of operation and efficiency of planning the use of electronic warfare samples, as well as ensuring timely decision-making for the refinement, modernization and creation of new electronic warfare samples.

Andreev G.I., Mirtalibov T.A., Tikhomirov V.A., Zamarin M.E. Field tests as a special kind of organization and conduct of a field experiment. Radiotekhnika. 2024. V. 88. № 10. P. 57−72. DOI: https://doi.org/10.18127/j00338486-202410-06 (In Russian)

1. Andreev G.I., Sozinov P.A., Tihomirov V.A. Metodologija modelirovanija osnova teorii prinjatija upravlencheskih re-shenij. M.: Radiotehnika. 2018 (in Russian).
2. Martyshhenko L.A., Panov V.V., Filjustin A.E. Metody voenno-nauchnyh issledovanij v zadachah razrabotki i ispyta-nija vooruzhenija. Ch.2. L.: MO. 1985 (in Russian).
3. Tihomirov V.A. Nauchnye osnovy i organizacija teoretiko-jeksperimental'noj ocenki kachestva RSZO na jetapah zhiznen-nogo cikla: Avtoref. diss. … dokt. tehn. nauk. Penza: VAIU. 1996 (in Russian).
4. Olejnik I.I., Suvorov A.V., Piskunov A.A. Naturnaja otrabotka slozhnyh tehnicheskih kompleksov. M.: Nauka. 1990 (in Russian).
5. Nalimov V.V., Chernova N.A. Statisticheskie metody planirovanija jekstremal'nyh jeksperimentov. M.: Nauka. 1965 (in Russian).
6. Nalimov V.V. Teorija jeksperimenta. M.: Nauka. 1971 (in Russian).
7. Krasovskij G.I., Filaretov G.F. Planirovanie jeksperimenta. Minsk: Izd-vo BGU. 1982 (in Russian).
8. Matematicheskaja teorija planirovanija jeksperimenta. Pod red. S.M. Ermakova. M.: Nauka. 1983 (in Russian).
9. Andreev G.I., Sozinov P.A., Tihomirov V.A. Metodologicheskie osnovy nauchnoj raboty i principy dissertacionnogo issledovanija. M.: Radiotehnika. 2018 (in Russian).
10. Andreev G.I., Sozinov P.A., Tihomirov V.A. Upravlencheskie reshenija pri proektirovanii radiotehnicheskih sistem. M.: Radiotehnika. 2018 (in Russian).
11. Andreev G.I., Sozinov P.A., Tihomirov V.A. Metodologicheskie osnovy nauchnoj raboty i principy dissertacionnogo issledovanija. M.: Radiotehnika. 2018 (in Russian).
12. Prokopenko N.Ju. Metody optimizacii: Ucheb. posobie. N. Novgorod: NNGASU. 2018 (in Russian).