Page 513 - Mathematical Techniques of Fractional Order Systems
P. 513
500 Mathematical Techniques of Fractional Order Systems
Strogatz, S.H., 1994. Nonlinear Dynamics and Chaos: With Applications to Physics, Biology,
Chemistry, and Engineering. Perseus Books, Massachusetts, US.
Sun, H., Abdelwahed, A., Onaral, B., 1984. Linear approximation for transfer function with a
pole of fractional order. IEEE Trans. Autom. Control 29, 441 444.
Sun, J., Guo, J., Yang, C., Zheng, A., Zhang, X., 2015. Adaptive generalized hybrid function
projective disclocated synchronization of new four dimensional uncertain chaotic systems.
Appl. Math. Comput. 252 (2015), 304 314.
Tolba, M.F., AbdelAty, A.M., Saida, L.A., Elwakil, A.S., Azar, A.T., Madian, A.H., et al., 2017.
Fpga realization of caputo and grnwald-letnikov operators. In: 6th International Conference
on Modern Circuits and Systems Technologies (MOCAST, pp. 1 4.
Trejo-Guerra, R., Tlelo-Cuautle, E., Carbajal-Gomez, V.H., Rodriguez-Gomez, G., 2013. A sur-
vey on the integrated design of chaotic oscillators. Appl. Math. Comput. 219, 5113 5122.
Upadhyay, R.K., 2003. Multiple attractors and crisis route to chaos in a model of food chain.
Chaos Solitons Fractals 16, 737 747.
Vaidyanathan, S., Azar, A.T., 2015a. Analysis and control of a 4-d novel hyperchaotic system.
In: Azar, A.T., Vaidyanathan, S. (Eds.), Chaos Modeling and Control Systems Design. Vol.
581 of Studies in Computational Intelligence. Springer, Berlin, Germany, pp. 19 38.
Vaidyanathan, S., Azar, A.T., 2015b. Analysis, control and synchronization of a nine-term 3-d
novel chaotic system. In: Azar, A.T., Vaidyanathan, S. (Eds.), Chaos Modeling and Control
Systems Design. Vol. 581 of Studies in Computational Intelligence. Springer, Berlin,
Germany, pp. 3 17.
Vaidyanathan, S., Azar, A.T., 2015c. Anti-synchronization of identical chaotic systems using slid-
ing mode control and an application to vaidyanathan-madhavan chaotic systems. In: Azar, A.
T., Zhu, Q. (Eds.), Advances and Applications in Sliding Mode Control Systems. Vol. 576 of
Studies in Computational Intelligence. Springer, Berlin, Germany, pp. 527 547.
Vaidyanathan, S., Azar, A.T., 2015d. Hybrid synchronization of identical chaotic systems using
sliding mode control and an application to vaidyanathan chaotic systems. In: Azar, A.T.,
Zhu, Q. (Eds.), Advances and Applications in Sliding Mode Control Systems. Vol. 576 of
Studies in Computational Intelligence. Springer, Berlin, Germany, pp. 549 569.
Vaidyanathan, S., Azar, A.T., 2016a. A novel 4-D four-wing chaotic system with four quadratic
nonlinearities and its synchronization via adaptive control method. Advances in Chaos
Theory and Intelligent Control. Springer, Berlin, Germany, pp. 203 224.
Vaidyanathan, S., Azar, A.T., 2016b. Adaptive backstepping control and synchronization of a
novel 3-D jerk system with an exponential nonlinearity. Advances in Chaos Theory and
Intelligent Control. Springer, Berlin, Germany, pp. 249 274.
Vaidyanathan, S., Azar, A.T., 2016c. Adaptive control and synchronization of Halvorsen circu-
lant chaotic systems. Advances in Chaos Theory and Intelligent Control. Springer, Berlin,
Germany, pp. 225 247.
Vaidyanathan, S., Azar, A.T., 2016d. Dynamic analysis, adaptive feedback control and synchroni-
zation of an eight-term 3-D novel chaotic system with three quadratic nonlinearities. Advances
in Chaos Theory and Intelligent Control. Springer, Berlin, Germany, pp. 155 178.
Vaidyanathan, S., Azar, A.T., 2016e. Generalized projective synchronization of a novel hyperch-
aotic four-wing system via adaptive control method. Advances in Chaos Theory and
Intelligent Control. Springer, Berlin, Germany, pp. 275 290.
Vaidyanathan, S., Azar, A.T., 2016f. Qualitative study and adaptive control of a novel 4-d
hyperchaotic system with three quadratic nonlinearities. In: Azar, A.T., Vaidyanathan, S.
(Eds.), Advances in Chaos Theory and Intelligent Control. Springer International Publishing,
Cham, pp. 179 202.
