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Improving the Data Processing Efficiency Based on Tunable Hard- and Software Components

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Data-Centric Business and Applications

Part of the book series: Lecture Notes on Data Engineering and Communications Technologies ((LNDECT,volume 48))

Abstract

The article discusses the transfer function coefficients’ influence on the characteristics of standard digital filters used in the construction of soft- and hardware components. Obtained are the ratios between numerator and denominator coefficients, the cut-off frequency and the peak frequency. Using results obtained, the structure of soft- and hardware devices on microprocessor basis is simplified, that, in turn, greatly simplifies the task of developing frequency-dependent components allowing both correction and adjustment of the characteristics and the system as a whole.

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References

  1. Disadvantages of existing automated process control systems at nuclear power plants and their development prospects, http://tesiaes.ru/?p=13030

  2. Eliseev VV (2013) Information and control systems HDM production NPP “Pulse Status, prospects”. Nucl Radiat Saf 4(60): 61–64

    Google Scholar 

  3. Stupen PV (2000) Construction of digital filter structures for monitoring and control systems. Nucl Radiat Saf 3(4):96–100

    Google Scholar 

  4. Bilenko AA, Sitnikov VS (2010) Analysis construct reconfigurable computing on computer systems. Radio Electron Comput Syst 7(48):212–214

    Google Scholar 

  5. Stoyanov G, Uzunov I, Kawamata M (2000) Design of variable IIR digital filters using equal subfilters. In: Proceedings of IEEE international symposium on intelligent signal processing and communication systems, vol 1, pp. 141–146

    Google Scholar 

  6. Stoynov G, Uzunov I, Kawamata M (2001) Design and realization of variable IIR digital filters as a cascade of identical subfilers. IEICE Trans. Fundamentals E84-A(8): 1831–1838

    Google Scholar 

  7. Robinson A, Hardie R, Heinisch H (1997) Implementing continuously programmable digital filters with the TMS320C30/4DSP. Application Report SPRA190A. Texas Instruments

    Google Scholar 

  8. Bukashkin SA, Vlasov VP, Zmii BF (1984) Handbook of calculation and design of ARC-circuits. Radio and communication, Moscow

    Google Scholar 

  9. Sergienko AB (2006) Digital signal processing. Piter, St. Petersburg

    Google Scholar 

  10. Tepin VP, Tepin AV (2011) Programmable digital filters: a synthesis of the transfer function of the control laws. Proc SFU Tech Sci 1:50–57

    Google Scholar 

  11. Malakhov VP, Sitnikov VS, Iakovleva ID (2008) Adaptive restructuring of the digital filter in the automatic control system. Automation Automation Electr Syst Syst 1(21):158–161

    Google Scholar 

  12. Brus AA, Malakhov VP, Sitnikov VS (2009) The range of regulation of frequency-dependent components of computer systems car. Electr Mach Electr Equip 72:139–142

    Google Scholar 

  13. Khilari SS (2014) Transfer function and impulse response synthesis using classical techniques. Masters Theses 1911

    Google Scholar 

  14. Gupta DR (2006) Synthesis of continuous time Nyquist pulses, M.S. Thesis, University of Massachusetts Amherst

    Google Scholar 

  15. Benke G, Wells B (1985) Estimates for the stability of low-pass filters. IEEE Trans Acoust Speech Signal Process 33(1):98–105

    Article  Google Scholar 

  16. Ćertić JD, Milić LD (2011) Investigation of computationally efficient complementary IIR filter pairs with tunable crossover frequency. AEU-Int J Electron Commun 65(5):419–428

    Article  Google Scholar 

  17. Al-Radhi M (2012) Design of finite impulse response digital filters using optimal methods. Portsmouth, England

    Google Scholar 

  18. Brus AA, Dikusar EV, Sitnikov VS, Iatsenko TP (2010) Correction performance tunable components using a moving average algorithm. Scientific Bulletin of Chernivtsi University. Series: Computer Systems and Components 1(1): 26–30

    Google Scholar 

  19. Matveichuk MI, Patsar VS, Sitnikov VS (2010) Analysis of the impact factors of the transfer function of the first order nonpolynomial digital filter on the properties of amplitude-frequency characteristics. The works of the Odessa Polytechnic University 2(22): 1–5

    Google Scholar 

  20. Ukhina AV, Bilenko AO, Sytnikov VS (2016) Improving the efficiency software and hardware complexes in NPP APCS. Nucl Radiat Saf 3:70–76

    Google Scholar 

  21. Korn G, Korn T (2000) Mathematical handbook for scientists and engineers—McGraw-Hill Book Company

    Google Scholar 

  22. Turulin II, Bulgakova IuI (2011) Methods of synthesis of controlled digital filter based on analog prototypes. Proc SFU Tech 2:88–92

    Google Scholar 

  23. Petrov IS, Ukhina AV, Iatsenko TP, Sitnikov VS (2015) Reconfigurable component of the first order of specialized autonomous mobile platform computer system. SIET-2015, Odessa, pp. 24–25

    Google Scholar 

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Author information

Authors and Affiliations

  1. Odessa National Polytechnic University, Odessa, Ukraine

    Hanna Ukhina, Valerii Sytnikov, Oleg Streltsov, Pavel Stupen & Dmitrii Yakovlev

Authors
  1. Hanna Ukhina
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  2. Valerii Sytnikov
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  3. Oleg Streltsov
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  4. Pavel Stupen
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  5. Dmitrii Yakovlev
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Corresponding author

Correspondence to Hanna Ukhina .

Editor information

Editors and Affiliations

  1. V.V. Popovskyy department of Infocommunication Engineering, Faculty of Infocommunication, Kharkiv National University of Radio Electronics, Kharkiv, Ukraine

    Tamara Radivilova

  2. V.V. Popovskyy department of Infocommunication Engineering, Faculty of Infocommunication, Kharkiv National University of Radio Electronics, Kharkiv, Ukraine

    Dmytro Ageyev

  3. Department of e-Business, Faculty of Business, Economics and Statistics, University of Vienna, Vienna, Austria

    Natalia Kryvinska

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Ukhina, H., Sytnikov, V., Streltsov, O., Stupen, P., Yakovlev, D. (2021). Improving the Data Processing Efficiency Based on Tunable Hard- and Software Components. In: Radivilova, T., Ageyev, D., Kryvinska, N. (eds) Data-Centric Business and Applications. Lecture Notes on Data Engineering and Communications Technologies, vol 48. Springer, Cham. https://doi.org/10.1007/978-3-030-43070-2_6

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