Page 291 - Mathematical Techniques of Fractional Order Systems
P. 291
280 Mathematical Techniques of Fractional Order Systems
Ouannas, A., Azar, A.T., Ziar, T., Radwan, A.G., 2017e. Generalized Synchronization of
Different Dimensional Integer-order and Fractional Order Chaotic Systems. Studies in
Computational Intelligence, Vol. 688. Springer-Verlag, Germany, pp. 671 697.
Ouannas, A., Azar, A.T., Vaidyanathan, S., 2017f. On a simple approach for Q-S synchronization
of chaotic dynamical systems in continuous-time. Int. J. Comput. Sci. Math. 8 (1), 20 27.
Ouannas, A., Azar, A.T., Vaidyanathan, S., 2017g. New hybrid synchronization schemes based
on coexistence of various types of synchronization between master-slave hyperchaotic sys-
tems. Int. J. Comput. Applicat. Technol. 55 (2), 112 120.
Ouannas, A., Azar, A.T., Ziar, T., 2017h. On inverse full state hybrid function projective syn-
chronization for continuous-time chaotic dynamical systems with arbitrary dimensions. Diff.
Equat. Dyn. Syst. Available from: https://doi.org/10.1007/s12591-017-0362-x.
Ouannas, A., Azar, A.T., Vaidyanathan, S., 2017i. A robust method for new fractional hybrid
chaos synchronization. Math. Methods Appl. Sci. 40 (5), 1804 1812. Available from:
https://doi.org/10.1002/mma.4099.
Ouannas, A., Grassi, G., Azar, A.T., Radwan, A.G., Volos, C., Pham, V.T., et al., 2017j. Dead-
beat synchronization control in discrete-time chaotic systems. In: The 6th International
Conference on Modern Circuits and Systems Technologies (MOCAST), 4-6 May 2017,
Thessaloniki Greece.
Roopaei, M., Jahromi, M.Z., 2009. Chattering-free fuzzy sliding mode control in MIMO uncer-
tain systems. Nonlinear Anal. Theory Methods Applicat. 71 (10), 4430 4437.
Sadati, N., Ghadami, R., 2008. Adaptive multi-model sliding mode control of robotic manipula-
tors using soft computing. Neurocomputing 71 (2), 2702 2710.
Sharma, R., Rana, K.P.S., Kumar, V., 2014. Performance analysis of fractional order fuzzy PID
controllers applied to a robotic manipulator. Exp. Syst. Applicat. 41 (9), 4274 4289.
Singh, S., Azar, A.T., Ouannas, A., Zhu, Q., Zhang, W., Na, J., 2017. Sliding mode control tech-
nique for multi-switching synchronization of chaotic systems. In: 9th International
Conference on Modelling, Identification and Control (ICMIC 2017), July 10-12, 2017,
Kunming, China.
Soliman, N.S., Said, L.A., Azar, A.T., Madian, A.H., Radwan, A.G., Ouannas, A., 2017.
Fractional controllable multi-scroll v-shape attractor with parameters effect. In: The 6th
International Conference on Modern Circuits and Systems Technologies (MOCAST), 4-6
May 2017, Thessaloniki Greece.
Tolba, M.F., AbdelAty, A.M., Soliman, N.S., Said, L.A., Madian, A.H., Azar, A.T., et al., 2017.
FPGA implementation of two fractional order chaotic systems. Int. J. Electr. Commun. 28
(2017), 162 172.
Utkin, V.I., 1977. Variable structure systems with sliding modes. IEEE Trans. Autom. Control.
22 (2), 212 222.
Vaidyanathan, S., Azar, A.T., 2015a. Anti-synchronization of identical chaotic systems using
sliding 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,
Studies in Computational Intelligence book Series, Vol. 576. Springer-Verlag GmbH Berlin/
Heidelberg, pp. 527 547. Available from: http://dx.doi.org/10.1007/978-3-319-11173-5_19.
Vaidyanathan, S., Azar, A.T., 2015b. 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, Studies in
Computational Intelligence book Series, Vol. 576. Springer-Verlag GmbH Berlin/
Heidelberg, pp. 549 569. Available from: http://dx.doi.org/10.1007/978-3-319-11173-5_20.
