This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Al-Alaoui M. A., 1993, Novel digital integrator and differentiator, Electron. Lett., 29, 376–378.
Al-Alaoui M. A., 1997, Filling the gap between the bilinear and the backward difference transforms: An interactive design approach, Int. J. Elect. Eng. Edu., 34, 331–337.
Barbosa R. S., Machado J. A. T. and Silva M. F., 2006, Time domain design of fractional differintegrators using least-squares, Signal Processing, 86, 2567–2581.
Bode H. W., 1949, Network Analysis and Feedback Amplifier Design, Tung Hwa Book Company, Shanghai.
Bohannan G., 2002, Analog realization of a fractional control element — Revised, Proc. of the 41st IEEE Int. Conf. on Decision and Control, December 9, Las Vegas, USA.
Biswas K., Sen S. and Dutta P. K., 2006, Realization of a constant phase element and its performance study in a differentiator circuit, IEEE Transactions on Circuits and Systems II: Express Briefs, 53, 802–806.
Caputo M., 1967, Linear models of dissipation whose Q is almost frequency independent, Geophys. J. R. Astr. Soc., 13, 529–539. (Reprinted recently in: Fract. Calc. Appl. Anal., 11, 3–14, 2008.)
Carlson G. E. and Halijak C. A., 1964, Approximation of fractional capacitors (1=s)1=n by a regular Newton process, IEEE Trans. on Circuit Theory, 11, 210–213.
Coopmans C., Petráš I. and Chen Y. Q., 2009, Analogue fractional-order generalized memristive devices, Proc. of the ASME 2009 International Design Engineering Technical Conferences & Computers and Information in Engineering Conference, DETC2009/MSNDC-86861, August 30 — September 2, San Diego, USA.
Charef A., Sun H. H., Tsao Y. Y. and Onaral B., 1992, Fractal system as represented by singularity function, IEEE Transactions on Automatic Control, 37, 1465–1470.
Charef A., 2006, Modeling and analog realization of the fundamental linear fractional order differential equation, Nonlinear Dynamics, 46, 195–210.
Chen Y. Q., 2003, Oustaloup-Recursive-Approximation for Fractional Order Differentiators. MathWorks, Inc., FileExchage, http://www.mathworks.com/matlabcentral / fileexchange / 3802-outstaloup-recursive-appriximation-for-fractional-order-differentiators
Chen Y. Q., Ahn H. S. and Xue D., 2006, Robust controllability of interval fractional order linear time invariant systems, Signal Processing, 86, 2794–2802.
Chua L. O., 1971, Memristor — the missing circuit element, IEEE Transaction on Circuit Theory, CT-18, 507–519.
Chua L. O. and Kang S. M., 1976, Memristive devices and systems, Proceedings of the IEEE, 64, 209–223.
Deng W., 2007a, Short memory principle and a predictor-corrector approach for fractional differentional equations, Journal of Computational and Applied Mathematics, 206, 174–188.
Deng W., 2007b, Numerical algorithm for the time fractional Fokker-Planck equation, Journal of Computational Physics, 227, 1510–1522.
Diethelm K., Ford N. J., Freed A. D. and Luchko Yu., 2005, Algorithms for the fractional calculus: A selection of numerical methods, Comput. Methods Appl. Mech. Engrg., 194, 743–773.
Djrbashian M. M., 1993, Harmonic Analysis and Boundary Value problems in the Complex Domain, Birkhäuser, Basel.
Dorčák Ľ., 1994, Numerical Models for the Simulation of the Fractional-Order Control Systems, UEF-04-94, The Academy of Sciences, Inst. of Experimental Physic, Košice, Slovakia.
Dutta Roy S. C., 1967, On the realization of a constant-argument immitance of fractional operator, IEEE Trans. on Circuit Theory, 14, 264–374.
Ford N. and Simpson A., 2001, The numerical solution of fractional differential equations: speed versus accuracy, Num. Anal. Report 385, Manchester Centre for Computational Mathematics.
Gorenflo R., Kilbas A. A. and Rogosin S. V., 1998, On the generalized mittag-leffler type functions, Integral Transform. Spec. Funct., 7, 215–224.
Heymans N. and Podlubny I., 2006, Physical interpretation of initial conditions for fractional differential equations with Riemann-Liouville fractional derivatives, Rheologica Acta, 45, 765–772.
Hwang C., Leu J. F. and Tsay S. Y., 2002, A note on time-domain simulation of feedback fractional-order systems, IEEE Transactions on Automatic Control, 47, 625–631.
Ichise M., Nagayanagi Y. and Kojima T., 1971, An analog simulation of non-integer order transfer functions for analysis of electrode processes, J. Electroanal. Chem., 33, 253–265.
Itoh M. and Chua L. O., 2009, Memristor cellular automata and memristor discretetime cellular neural networks, International Journal of Bifurcation and Chaos, 19, 3605–3656.
Jones H. E. and Shenoi B. A., 1970, Maximally flat lumped-element approximation to fractional operator immitance function, IEEE Trans. on Circuit and Systems, 17, 125–128.
Kotek Z., Kubik S. and Razim M., 1973, Nonlinear Dynamical Systems, TKI-SNTL, Praha (in Czech).
Krishna B. T. and Reddy K. V. V. S., 2008, Active and Passive Realization of Fractance Device of Order 1/2, Active and Passive Electronic Components, Hindawi Publishing Corporation, Article ID 369421, DOI: 10.1155/2008/369421.
Lubich C., 1986, Discretized fractional calculus, SIAM J. Math. Anal., 17, 704–719.
Maione G., 2008, Continued fractions approximation of the impulse response of fractional-order dynamic systems, IET Control Theory Appl., 2, 564–572.
Miller K. S. and Ross B., 1993, An Introduction to the Fractional Calculus and Fractional Differential Equations, John Wiley & Sons. Inc., New York.
Mittag-Leffler M. G., 1903, Sur la nouvelle fonction E ± (x), Comptes Rendus, Acad. Sci. Paris, 137, 554–558.
Mouttet B., 2009, An Introduction to Memimpedance and Memadmittance Systems Analysis, http://knol.google.com/k/blaise-mouttet/.
Nakagava M. and Sorimachi K., 1992, Basic characteristics of a fractance device, IEICE Trans. Fundamentals, E75-A, 1814–1818.
Oldham K. B. and Spanier J., 1974, The Fractional Calculus, Academic Press, New York.
Oldham K. B. and Zoski C. G., 1983, Analogue instrumentation for processing polarographic data, J. Electroanal. Chem., 157, 27–51.
Oustaloup A., 1995, La Derivation Non Entiere: Theorie, Synthese et Applications, Hermes, Paris.
Oustaloup A., Levron F., Mathieu B. and Nanot F. M., 2000, Frequency-band complex noninteger differentiator: characterization and synthesis, IEEE Trans. on Circuits and Systems I: Fundamental Theory and Applications I, 47, 25–39.
Petráš I., Podlubny I., O’Leary P., Dorčák Ľ. and Vinagre B. M., 2002, Analogue Realization of Fractional Order Controllers, Faculty of BERG, Technical University of Kosice.
Petráš I., 2003a, Digital Fractional Order Differentiator/integrator — IIR type. Math-Works, Inc., http://www.mathworks.com/matlabcentral/fileexchange/3672.
Petráš I., 2003b, Digital Fractional Order Differentiator/integrator — FIR type. Math-Works, Inc., http://www.mathworks.com/matlabcentral/fileexchange/3673.
Petráš I., 2006, Method for simulation of the fractional order chaotic systems, Acta Montanistica Slovaca, 11, 273–277.
Petráš I., 2009, Chaos in the fractional-order Volta’s system: modeling and simulation, Nonlinear Dynamics, 57, 157–170.
Petráš I., Chen Y. Q. and Coopmans C., 2009, Fractional-order memristive systems, Proc. of the 14th International Conference on Emerging Technologies and Factory Automation — ETFA 2009, September 22–26, Mallorca.
Podlubny I., 1999, Fractional Differential Equations, Academic Press, San Diego.
Podlubny I., 2000, Matrix approach to discrete fractional calculus, Fractional Calculus and Applied Analysis, 3, 359–386.
Podlubny I., 2002, Geometric and physical interpretation of fractional integration and fractional differentiation, Fractional Calculus and Applied Analysis, 5, 367–386.
Podlubny I., Petráš, I., Vinagre, B. M., O’Leary P., Dorčák Ľ., 2002, Analogue Realizations of Fractional-Order Controllers, Nonlinear Dynamics, 29, 281–296.
Podlubny I. and Kacenak M., 2005, Mittag-Leffler function. MathWorks, Inc., http://www.mathworks.com/matlabcentral/fileexchange/8738.
Podlubny I., Chechkin A., škovránek T., Chen Y. Q. and Vinagre B. M. J., 2009, Matrix approach to discrete fractional calculus II: Partial fractional differential equations, Journal of Computational Physics, 228, 3137–3153.
Schafer I. and Kruger K., 2008, Modelling of lossy coils using fractional derivatives, J. Phys. D: Appl. Phys., 41, 1–8.
Snider G. S., 2008, Spike-timing-dependent learning in memristive nanodevices, Proc. of the IEEE International Symposium on Nanoscale Architectures, NANOARCH 2008, June 12–13, 85–92.
Strukov D. B., Snider G. S., Stewart D. R. and Williams R. S., 2008, The missing memristor found, Nature, 453, 80–83.
Susse R., Domhardt A. and Reinhard M., 2005, Calculation of electrical circuits with fractional characteristics of construction elements, Forsch Ingenieurwes, 69, 230–235.
Takyar M. S. and Georgiu T. T., 2007, The fractional integrator as a control design element, Proceedings of the 46th IEEE Conference on Decision and Control, New Orleans, USA, Dec. 12–14, 239–244.
Tavazoei M. S. and Haeri M., 2007a, Unreliability of frequency-domain approximation in recognising chaos in fractional-order systems, IET Signal Proc., 1, 171–181.
Tavazoei M. S. and Haeri, M., 2007b, A necessary condition for double scroll attractor existence in fractional — order systems, Physics Letters A, 367, 102–113.
Tavazoei M. S. and Haeri M., 2008, Limitations of frequency domain approximation for detecting chaos in fractional order systems, Nonlinear Analysis, 69, 1299–1320.
Tavazoei M. S. and Haeri M., 2010, Rational approximations in the simulation and implementation of fractional-order dynamics: A descriptor system approach, Automatica, 46, 94–100.
Thang H. M., 2003, Memristor model, MathWorks, Inc., FileExchage, http://www.mathworks.com/matlabcentral/fileexchange/25082.
Tour J. M. and He T., 2008, The fourth element, Nature, 453, 42–43.
Tseng C. C. and Lee S. L., 2008, Digital IIR integrator design using recursive Romběrg iňtegration rule and fractional sample delay, Signal Processing, 88, 2222–2233
Valerio D., 2005, Toolbox ninteger for Matlab, v. 2.3 (September, 2005), http://web.ist.utl.pt/duarte.valerio/ninteger/ninteger.htm.
Ventra M. D., Pershin Y. V. and Chua L. O., 2009, Circuit elements with memory: memristors, memcapacitors and meminductors, e-print arxive: http://arxiv.org/abs/0901.3682.
Vinagre B. M., Podlubny I., Hernández A. and Feliu V., 2000, Some approximations of fractional order operators used in control theory and applications, Fractional Calculus and Applied Analysis, 3, 231–248.
Vinagre B. M., Chen Y. Q. and Petráš I., 2003, Two direct Tustin discretization methods for fractional-order differentiator/integrator, J. Franklin Inst., 340, 349–362.
Wang J. C., 1987, Realizations of generalized Warburg impedance with RC ladder networks and transmission lines, Journal of The Electrochemical Society, 134, 1915–1920.
Westerlund S. and Ekstam L., 1994, Capacitor theory, IEEE Trans. on Dielectrics and Electrical Insulation, 1, 826–839.
Westerlund S., 2002, Dead Matter Has Memory! Causal Consulting, Kalmar, Sweden.
Wikipedia, 2009, “Memristor”, Wikimedia Foundation, Inc. (free encyclopedia), http://en.wikipedia.org/wiki/Memristor.
Author information
Authors and Affiliations
Rights and permissions
Copyright information
© 2011 Higher Education Press, Beijing and Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
Petráš, I. (2011). Fractional Calculus. In: Fractional-Order Nonlinear Systems. Nonlinear Physical Science. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-18101-6_2
Download citation
DOI: https://doi.org/10.1007/978-3-642-18101-6_2
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-18100-9
Online ISBN: 978-3-642-18101-6
eBook Packages: Physics and AstronomyPhysics and Astronomy (R0)