New Solutions of the Functional Equations and Their Possible Application in Treatment of Complex Systems

Nigmatullin, R. R.; Nougmanov, B. N.

doi:10.1007/978-3-319-90972-1_1

New Solutions of the Functional Equations and Their Possible Application in Treatment of Complex Systems

R. R. Nigmatullin⁵ &
B. N. Nougmanov⁶

Chapter
First Online: 02 August 2018

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Part of the book series: Nonlinear Systems and Complexity ((NSCH,volume 24))

Abstract

In this paper we want to show some original solutions of the functional equations that can be considered as a main “bridge” connecting the fractional calculus with fractal geometry. This bridge should justify a wide application of the fractional calculus in many important applications and, from another side, increase the possibilities of the fractional geometry, when the fractional calculus is applied as a basic tool. Initially, we justify this solution and then show how it can be applied in the theory of the quasi-reproducible experiments. As an example, we chose the measurements of the corresponding voltammograms (VAGs) in electrochemistry. In the frame of new approach, one can fit the VAGs with high accuracy and prove the wide applicability of the original solution found. In the concluding section, we discuss the basic results obtained in this paper and justify their wide applicability for solution of other nontrivial problems.

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References

Rabinerand, L.R., Gold, B.: Theory and Application of Digital Signal Processing. Prentice-Hall, Inc., Englewood Cliffs (1975)
Google Scholar
Singleton Jr., Royce, A., Straits, B.C., Straits, M.M.: Approaches to Social Research. Oxford University Press, Oxford (1993)
Google Scholar
Mendel, J.M.: Lessons in Estimation Theory for Signal Processing, Communications, and Control. Pearson Education, Upper Saddle River (1995)
MATH Google Scholar
Hagan, M.T., Demuth, H.B., Beale, M.H.: Neural Network Design. PWS Publishers, Boston (1996)
Google Scholar
Ifeachor, E.C., Jervis, B.W.: Digital Signal Processing: a Practical Approach. Pearson Education, Harlow (2002)
Google Scholar
Montgomery, D.C., Jennings, C.L., Kulahci, M.: Introduction to Time Series Analysis and Forecasting. Wiley, New York (2011)
MATH Google Scholar
Bendat, J.S., Piersol, A.G.: Random Data: Analysis and Measurement Procedures. Wiley, New York (2011)
MATH Google Scholar
Gelman, A., Carlin, J.B., Stern, H.S., Dunson, D.B., Vehtari, A., Rubin, D.B.: Bayesian Data Analysis. CRC Press, London (2013)
MATH Google Scholar
Box, G.E.P., Jenkins, G.M., Reinsel, G.C.: Time Series Analysis: Forecasting and Control, Wiley, New York (2013)
Google Scholar
Chatfield, C.: The Analysis of Time Series: An Introduction. CRC Press, Boca Raton (2013)
MATH Google Scholar
Nigmatullin, R.R.: Phys. Wave Phenom. 16, 119 (2008)
Google Scholar
Nigmatullin, R.R., Khamzin, A.A., Machado, J.T.: Physica Scripta. 89(1), 015201 (2014)
Google Scholar
Nigmatullin, R.R., Rakhmatullin, R.M.: Commun. Nonlinear Sci. Numer. Simul. 19, 4080 (2014)
Google Scholar
Osborne, M.R., Smyth, G.K.: SIAM J. Sci. Stat. Comput. 12, 362 (1991)
Google Scholar
Kahn, M., Mackisack, M.S., Osborne, M.R., Smyth, G.K.: J. Comput. Graph. Stat. 1, 329 (1992)
Google Scholar
Osborne, M.R., Smyth, G.K.: SIAM J. Sci. Stat. Comput. 16, 119 (1995)
Google Scholar
Nigmatullin, R.R., Zhang, W., Striccoli, D.: General theory of experiment containing reproducible data: the reduction to an ideal experiment. Commun. Nonlinear Sci. Numer. Simul. 27, 175–192 (2015)
Article MathSciNet Google Scholar
Nigmatullin, R.R., Evdokimov, Y.K.: The concept of fractal experiments: New possibilities in quantitative description of quasi-reproducible measurements. Chaos. Solitons. Fractals. 91, 319–328 (2016)
Article Google Scholar
Nigmatullin, R.R., Maione, G., Lino, P., Saponaro, F., Zhang, W.: The general theory of the quasi-reproducible experiments: How to describe the measured data of complex systems? Commun. Nonlinear Sci. Numer. Simul. https://doi.org/10.1016/j.cnsns.2016.05.019

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Authors and Affiliations

Radioelectronic and Informative Measurements Technics Department, Kazan National Research Technical University named by A.V. Tupolev (KNRTU-KAI), Kazan, Russian Federation
R. R. Nigmatullin
Physical-Mathematical Lyceum № 131, Kazan, Russian Federation
B. N. Nougmanov

Authors

R. R. Nigmatullin
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B. N. Nougmanov
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Editors and Affiliations

Department of Mathematics, Cankaya University, Ankara, Turkey
Kenan Taş
Department of Mathematics, Çankaya University, Ankara, Turkey
Dumitru Baleanu
Instituto Superior de Engenharia do Porto, Porto, Portugal
J. A. Tenreiro Machado

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Nigmatullin, R.R., Nougmanov, B.N. (2019). New Solutions of the Functional Equations and Their Possible Application in Treatment of Complex Systems. In: Taş, K., Baleanu, D., Machado, J. (eds) Mathematical Methods in Engineering. Nonlinear Systems and Complexity, vol 24. Springer, Cham. https://doi.org/10.1007/978-3-319-90972-1_1

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DOI: https://doi.org/10.1007/978-3-319-90972-1_1
Published: 02 August 2018
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-90971-4
Online ISBN: 978-3-319-90972-1
eBook Packages: EngineeringEngineering (R0)

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