Efficiency index justification while information transmission radio systems design at the stage of scientific and research effort


DOI: 10.34759/trd-2019-108-7

Аuthors

Fomin A. I.*, Malyutina O. A.

Moscow Aviation Institute (National Research University), 4, Volokolamskoe shosse, Moscow, А-80, GSP-3, 125993, Russia

*e-mail: fomigora@jandex.ru

Abstract

A mandatory item of the standard terms of reference for the implementation of scientific and research work (SRW) performing is the “Technical and economic requirements” item, which, in particular:

- establishes the limit value of the research cost;

- determins the stage at which technical and economic justification of the research continuation practicality is carried out;

- establishes the need to determine the estimated costs of implementing the results of research.

Each of items specified in the requirements is associated with evaluation of the technical complexity and efficiency of the designed information transmission radio systems (ITRS). Currently, the most common industry performance indicator of RW is a generalized indicator of the effect/cost. The research effectiveness justification is all the more necessary at the stage of determining the research contractor by the customer.

As a rule, the method of comparing some of the most important from the contractor’s view point characteristics of the designed ITRS with similar characteristics of a prototype is employed while technical effect assessing. With account for the dynamics of the characteristics being compared an inference is being drawn that the SRW performing will lead to the positive effect, and a new more efficient ITRS will be developed while the results of the experimental and development effort implementation. Besides certain voluntarism while the prototype selection and a set of compared characteristics, the drawback of this method consists in complexity of technical efficiency estimation, which may be explained by the necessity of vector indicator application, accounting for the values of individual characteristics.

The purpose of this article consists in developing a methodology for effect/cost calculating, based on the analysis of relative values of ITRS the main technical characteristics, formed by comparing these characteristics values with tmaximum potential values of the reference ITRS.

The relative indicator of technical efficiency, characterizing the effect of the R&D products being developed while the SRW performing, and economic efficiency indicator, characterizing increase of technical effectiveness per unit of the investment in the SRW under development, were suggested for estimating the effect/cost indicator widely used for SRW performing efficiency.

Rejection of subjective indicators of the preceding ITRS samples, which are being selected as prototypes at present, may be assigned to the advantages of the suggested indicator.

Keywords:

information transmission radio system, scientific and research work, performance/cost indicator, system quality indicators, technical specification, technical and economic requirements

References

  1. Mazepa R.B. Radiosistemy i seti peredachi informatsii (Radio systems and information transmission networks), Moscow, Izd-vo MAI, 2002, 568 p.

  2. Penin P.I. Sistemy peredachi tsifrovoi informatsii (Digital information transmission Systems), Moscow, Sovetskoe radio, 1976, 366 p.

  3. Vasin V.A., Kolmykov V.R. et al. Radiosistemy peredachi informatsii (Radio information transmission Systems), Moscow, Goryachaya liniya – Telekom, 2015, 472 p.

  4. Teplyakov I.M. Osnovy postroeniya telekommunikatsionnykh sistem i setei (Fundamentals of telecommunication systems and networks), Moscow, Radio i svyaz’, 2004, 328 p.

  5. Teplyakov I.M., Roshchin B.V., Fomin A.I., Veitsel’ V.A. Radiosistemy peredachi informatsii (Radio information transmission Systems), Moscow, Radio i svyaz’, 1982, 264 p.

  6. Volkov L.M., Nemirovskii M.S., Shinakov Yu.S. Sistemy tsifrovoi radiosvyazi: bazovye metody i kharakteristiki (Digital radiocommunication Systems: basic methods and characteristics), Moscow, Eko-Trendz, 2005, 392 p.

  7. Martirosov V.E., Alekseev G.A. Trudy MAI, 2015, no. 80, available at: http://trudymai.ru/eng/published.php?ID=57051

  8. Kuznetsov V.S., Volkov A.S., Solodkov A.V., Slepov A.V. Trudy MAI, 2019, no. 104, available at: http://trudymai.ru/eng/published.php?ID=102149

  9. Hanzo L., Munster M., Choi B.J., Keller T. OFDM and MC-CDMA for Broadband Multi-User Communications, WLANS and Broadcasting, New York, John Wiley, Apr. 2004, 980 p.

  10. Addabbo P. et al. A Review of Spectrally Efficient Modulations for Earth Observation Data Downlink, Proceedings of the Metrology for Aerospace Conference, 2014 IEEE, MetroAeroSpace, 2014, pp. 428 – 432. DOI: 10.1109/MetroAeroSpace.2014.6865963

  11. Kuznetsov V., Solodkov A., Malyshev A. A Method Of Quadrature Digital Modulation APSK – PAM, 2016 International Conference on Control, Instrumentation, Communication and Computational Technologies, ICCICCT-2016, 16-17 December 2016, Kumaracoil, India, pp. 172 – 175.

  12. Climini L.J. Analysis and simulation of digital Mobile channel using Orthogonal Frequency division Multiplexing, IEEE Transactions Communications, 1985, vol. 33, no. 7, pp. 665 – 675.

  13. Bingham J.A.C. Multicarrier modulation for data transmission: an idea whose time has come, Communications Magazine, 1990, vol. 28, no. 5, pp. 5 – 14.

  14. Mikhailov V.Yu., Vitomskii E.V. Trudy MAI, 2018, no. 98, available at: http://trudymai.ru/eng/published.php?ID=90426

  15. Shin Oh-Soon, Bok Kwang. Differentially Coherent Combining for Double-Dwell Code Acquisition in DS-CDMA Systems, IEEE Transactions On Communications, 2003, vol. 51, no. 7, pp. 1046 – 1050.

  16. Bychenkov S., Mikhailov V., Sakaniwa K. Fast acquisition of PN sequences in DS/CDMA systems, IEICE Transactions on Fundamentals of Electronics, Communications and Computer Sciences, 2002, vol. E85-A, no. 11, pp. 2498 – 2520.

  17. Dronov F.A. Effektivnost’ nauchnykh issledovanii (nauka, tekhnika, proizvodstvo) (Efficiency of scientific research (science, technology, production), Minsk, Nauka i tekhnika, 1975, 240 p.

  18. Yakovleva E.N. Upravlenie zatratami (Cost management. Study guide), Moscow, KNORUS, 2018, 214 p.

  19. Mel’nikova R.M. Ekonomicheskaya otsenka investitsii (Economic evaluation of investments), Moscow, Prospekt, 2019, 264 p.

  20. Velenskii P.L., Livshits V.N., Smolyak S.A. Otsenka effektivnosti investitsionnykh proektov (Effectiveness evaluation of investment projects.), Moscow, Poli print Servis, 2015, 130 p.


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