Radiotekhnika
Publishing house Radiotekhnika

"Publishing house Radiotekhnika":
scientific and technical literature.
Books and journals of publishing houses: IPRZHR, RS-PRESS, SCIENCE-PRESS


Тел.: +7 (495) 625-9241

 

Upgrade onboard transceiver systems of unmanned aerial vehicles on the basis of the evolutional approach

Keywords:

A.V. Ananev – Ph. D. (Eng.), Dr. Sc. Candidate, MESC «Zhukovsky–Gagarin Air Force Academy» (Voronezh) B.F. Zmij – Dr. Sc. (Eng.), Professor, MESC «Zhukovsky–Gagarin Air Force Academy» (Voronezh) G.A. Kaschenko – Ph. D. (Eng.), Associate Professor, Senior Research Scientist, MESC «Zhukovsky–Gagarin Air Force Academy» (Voronezh)


Process of phased modernization of transceiver systems of unmanned aerial vehicles on the basis of the developmental approach, ensuring passage from an initial state in finite with reaching of required performance on aggregate of the given quality characteristics is considered. The designed method includes following steps: Step 1. A select of the prototype which is subject to remodeling. Step 2. Creation of the morphological table. Step 3. Ranking of builders every line with usage of a method of the assaying of hierarchies, with the subsequent truncating of «tailings» with usage of unsharp thresholds. Step 4. Generation of possible alternatives of creation of airborne systems of connection with the subsequent excision of incompatible alternatives. Step 5. A select of the alternative ensuring the greatest gain of performance at the running stage of remodeling. Step 6. The select of rationalised alternative of performances of the selected builder by creation of flock of Pareto-optimal solutions among which one the most rationalised is selected is made. The alternative of implementation of a method under condition of changeover anti-alias filter the screen is given.
References:

 

  1. Kurejjchik V.V., Kurejjchik V.M., Skoroletov P.V. Analiz i obzor modelejj ehvoljucii // Izvestija RAN. Teorija i sistemy upravlenija. 2008. № 4. S. 12−18.
  2. Saati Tomas L. Prinjatie reshenijj pri zavisimostjakh i obratnykh svjazjakh: analiticheskie seti / Per. s angl. M.: Lenand. 2015. 360 s.
  3. Kashhenko G.A. i dr. Metodologicheskie osnovy mnogokriterialnogo podkhoda k proektirovaniju sistem svjazi // Teorija i tekhnika radiosvjazi. 2008. № 4. S. 12−18.
  4. Ananev A.V., Kashhenko G.A. Formirovanie i vybor optimalnogo varianta bortovojj sistemy svjazi // Materialy dokladov XIII Vseros. NTK «Nauchnye chtenija po aviacii, posvjashhennye pamjati N.E. ZHukovskogo». M.: Izdatelskijj dom Akademii im. N.E. ZHukovskogo. 2016. S. 345−352.
  5. Ananev A.V., Zmijj B.F. Primenenie metoda analiza ierarkhijj dlja vybora ehlementnojj bazy pri razrabotke filtrovykh ustrojjstv // Materialy dokladov XIV MNTK «Informatika: problemy, metodologija, tekhnologii». VGU. 2016. S. 266−270.
  6. Ananev A.V. Zmi B.F. Synthesis of ARC filter devices with enhanced stability // Telecommunications and Radio Engineering. 2012. V. 71. № 20. P. 1859−1869 (DOI: 10.1615/ TelecomRadEng)
  7. Alimov A.P., Ananev A.V., Zmijj B.F. Algoritm rascheta i modelirovanija rezonansnykh usilitelejj // Materialy dokladov XVI MNTK «Kibernetika i vysokie tekhnologii XXI veka». Voronezh: Voronezhskijj gosudarstvennyjj universitet. 2015. S. 213−219.
  8. Ananev A.V., Zmijj B.F. Metod sinteza polosovykh LC-filtrov s povysheniem urovnja vkhodnogo signala // Materialy dokladov XX MNTK «Radiolokacija navigacija svjaz». Voronezh. 2016. S. 1911−1917.

 

© Издательство «РАДИОТЕХНИКА», 2004-2017            Тел.: (495) 625-9241                   Designed by [SWAP]Studio