Asymptotical stability analysis of linear fractional differential systems

Miller K S, Ross B. An introduction to the fractional calculus and fractional differential equations [M]. New York: John Wiley & Sons Inc, 1993.

Abel N H. Solution de quelques problèmes à l’aide d’intégrales définies [J]. Oeuvres Complètes, Gròndahl, Christiania, Norway, 1881, 1: 16–18.

Skaar S B, Michel A N, Miller R K. Stability of viscoelastic control systems [J]. IEEE Trans Automat Contr, 1988, 33(4): 348–357.

Ichise M, Nagayanagi Y, Kojima T. An analog simulation of noninteger order transfer functions for analysis of electrode processes [J]. J Electroanal Chem, 1971, 33(2): 253–265.

Sun H H, Abdelwahab A A, Onaral B. Linear approximation of transfer function with a pole of fractional power [J]. IEEE Trans Automat Contr, 1984, 29(5): 441–444.

Sugimoto N. Burgers equation with a fractional derivative: hereditary effects on nonlinear acoustic waves [J]. J Fluid Mech, 1991, 225(4): 631–653.

Heaviside O. Electromagnetic theory [M]. New York: Chelsea, 1971.

Laskin N. Fractional market dynamics [J]. Phys A, 2000, 287(3): 482–492.

Kusnezov D, Bulgac A, Dang G D. Quantum Lévy processes and fractional kinetics [J]. Phys Rev Lett, 1999, 82(6): 1136–1139.

Li C P, Peng G J. Chaos in Chen’s system with a fractional order [J]. Chaos Solitons & Fractals, 2004, 22(2): 443–450.

Montseny G. Diffusive representation of pseudo-differential time-operators [J]. ESAIM: Proceedings Fractional Differential Systems: Models, Methods and Applications, 1998, 5: 159–175.

Li Gen-guo, Zhu Zheng-you, Cheng Chang-jun. Dynamical stability of viscoelastic column with fractional derivative constitutive relation [J]. Applied Mathematics and Mechanics, 2001, 22(3): 294–303 (In Chinese).

Samko S, Kilbas A, Marichev O. Fractional integrals and derivatives and some of their applications [M]. Minsk: Science and Technica, 1987.

Podlubny I. Fractional differential equations [M]. San Diego: Academic Press, 1999.

Kilbas A, Srivastava M, Trujillo J. Theory and applications of fractional differential equations [M]. North-Holland: Elsevier Press, 2006.

Ahmed E E, el-Sayed A M A, el-Saka H A A. Equilibrium points, stability and numerical solutions of fractional-order predator-prey and rabies models [J]. J Math Anal Appl, 2007, 325(1): 542–553.

Daftardar-Gejji V, Jafari H. Analysis of a system of nonautonomous fractional differential equations involving Caputo derivatives [J]. J Math Anal Appl, 2007, 328(2): 1026–1033.

Podlubny I. Geometric and physical interpretation of fractional integration and fractional differentation [J]. Frac Cal Appl Anal, 2002, 5(4): 367–386.

Heymans N, Podlubny I. Physical interpretation of initial conditions for fractional differential equations with Riemann-Liouville fractional derivatives [J]. Rheologica Acta, 2006, 45(5): 765–772.

Li C P, Deng W H. Remarks on fractional derivatives [J]. Appl Math Comput, 2007, 187(2): 777–784.

Luchko Y, Gorenflo R. An operational method for solving fractional differential equations with the Caputo derivatives [J]. Acta Math Vietnam, 1999, 24(2): 207–233.

Matignon D. Stability results for fractional differential equations with applications to control processing [C]// Computational Engineering in Systems and Application Multiconference, IMACS, IEEE-SMC, Lille, France. 1996, 2: 963–968.