Revista de la Facultad de Ingeniería

We define a new synchronization method, adaptive complex projective synchronization, to real synchronization of two chaotic complex systems. The adaptive controller is obtained to make synchronization of two chaotic complex systems based on Lyapunov stability theory. This paper contribution is that make the scale function of projective synchronization is complex numbers. Numerical simulations are presented to illustrate the effectiveness of the proposed synchronization method.

Adhikari J., Prasanna I.V., Panda S.K. (2016). Power conversion system for high altitude wind power generation with medium voltage AC transmission, Renewable Energy. 93:562-578, Doi:10.1016/j.renene.2016.03.004.

Chen A.M., Lu J.A., LüJ.H., Yu S.M. (2006). Generating hyperchaotic Lü attractor via state feedback control. Physica A. 364(15): 103-110.

Chen H.,David N.,Aliprantis D.C. (2013). Analysis of permanent-magnet synchronous generator with Vienna rectifier for wind energy conversion system. IEEE Power & Energy Society General Meeting. 4(1):154 – 163, Doi:10.1109/TSTE.2012.2208660.

Freitas T.R.S.D., Menegaz P.J.M., Simonetti D.S.L. (2016). Rectifier topologies for permanent magnet synchronous generator on wind energy conversion systems: A review. Renewable & Sustainable Energy Reviews. 54:1334-1344.

Govind R.Rajput, Krishnaprasad J.S.V.R., Timol M.G. (2016). Group Theoretic Technique for MHD Forced Convection Laminar Boundary Layer Flow of Nanofluid over a Moving Surface. International Journal of Heat and Technology. 34(1):1-6. Doi: 10.18280/ijht.340101.

Ho M.C., Hung Y.C., Chou C.H. (2002). Phase and anti-phase synchronization of two chaotic systems by using active control. Physics Letters A. 296 (1): 43-48.

Kar S.,Mishra S.K. (2014). Direct torque control of permanent magnet synchronous motor drive with a sensorless initial rotor position estimation scheme. International Conference on Advances in Power Conversion and Energy Technologies, APCET, Doi:10.1109/APCET.2012.6301999.

Kar S.,Piironen P.,Silventoinenu P. (2014). Boost operation of three-phase half-controlled rectifier in wind power system using permanent magnet generator. Power Electronics Electrical Drives Automation & Motion International Symposium on. 96(10): 128-129.

Krähenbühl D., Zwyssig C., Kolar J.W. (2014). Half-Controlled Boost Rectifier for Low-Power High-Speed Permanent-Magnet Generators. IEEE Transactions on Industrial Electronics. 58(11):5066-5075.

Liu L.L., Li K.K., LuF. (2016). Dynamic Simulation Modeling of Inking System Based onElastohydrodynamic Lubrication.International Journal of Heat and Technology. 34(1): 124-128, Doi:10.18280/ijht.340118.

Liu Y.J., Wen G.X., Tong S.C. (2011). Adaptive Neural Output Feedback Tracking Control for a Class of Uncertain Discrete-Time Nonlinear Systems, IEEE Transactions on Neural Networks. 22(7):1162-1167.

Liu Y.J., Zhang Y.Q. (2009). Adaptive robust fuzzy control for a class of uncertain chaotic systems, Nonlinear Dynamics.57 (3): 431-439.

Mahmoud G.M., Ahmed M.E., Sabor N. (2011). On Autonomous and nonautonomous modified hyperchaotic complex Lü Systems.International Journal of Bifurcation and Chaos. 21(7): 1913-1926.

Mahmoud G.M., Bountis T. (2014). The dynamics of systems of complex nonlinear oscillator: A Review. International Journal of Bifurcation and Chaos.14 (11): 3821-3846.

Mahmoud G.M., Bountis T., Mahmoud E.E. (2007). Active control and global synchronization of the complex chen and Lü Systems. International Journal of Bifurcation and Chaos. 17(12): 4295-4308.

Mahmoud G.M., Mahmoud E.E. (2010). Synchronization and control of hyperchaotic complex Lorenz system. Mathematics and Computers in Simulation. 80 (12): 2286-2296, Doi:10.1016/j.matcom.2010.03.012.

Michael G.R., Arkady S.P., Jurgen K. (1997). From phase to lag synchronization in coupled chaotic oscillators. Physical Review Letters. 78(22): 4193-4196.

Moghtadaei M., Golpayegani M.R.H. (2012). Complex dynamic behaviors of the complex Lorenz system. Scientia Iranica. 19(3): 733-738, Doi:10.1016/j.scient.2010.11.001.

Ren H.P., Liu D. (2014). Nonlinear feedback control of chaos in permanent magnet synchronous motor. IEEE Transaction on circuits and system II. 53(1): 45-50.

Shahverdiev E.M., Sivaprakasam S., Shore K.A. (2002). Lag synchronization in time-delayed systems. Physics Letters A. 292 (6): 320-324, Doi:10.1016/S0375-9601(01)00824-6.

Shinbrot T., Grebogi C., Ott E., Yorke J.A. (2014). Using small perturbations to control chaos. Nature. 363 (6): 411-417, Doi:10.1038/363411a0.

Shinnaka S.J. (2014). New Dynamic Self-Consistent Mathematical Model and Torque Characteristics of Permanent-Magnet Synchronous Motors with Magnetic Cross-Coupling. Electrical Engineering in Japan. 184(1):42-55, Doi:10.1002/eej.22382.

Thongam J.S. Beguenane R., Mohammed T., Aime F.O., Adel M., Issouf F., Pierre B. (2013). A rotor speed estimation algorithm in variable speed permanent magnet synchronous generator wind energy conversion system. International Journal of Robust and Nonlinear Control. 23(16): 1880–1890, Doi:10.1002/rnc.2860.

Wang X.Y. (2003). Chaos in the complex nonlinearity system. Beijing: Electronics Industry Press. 28-32.

Xu D.L., Li Z. (2002). Controlled projective synchronization in nonpartially-linear chaotic systems. International Journal of Bifurcation and Chaos.12 (6): 1395-1402

Yang X.S. (2001). On the existence of generalized synchronizor in unidirectionally coupled systems. Applied Mathematics and Computation.122 (1): 71-79.

Yu X., Song Y. (2014). Chaos synchronization via controlling partial state of chaotic systems. International Journal of Bifurcation and Chaos. 11(6): 1737-1741.

Zhang G.H., Odbal.(2016). Active Learning for Segment-based Emotion Analysis System. Rev. Téc. Ing. Univ. Zulia. 39(7):168-174.

Zhang H.G., Cai L.L., Bien Z.N. (2000). A fuzzy basis function vector-based multivariable adaptive controller for nonlinear systems. IEEE Transactions on Systems Man and Cybernetics Part B-Cybernetics. 30 (1): 210-217.

Zhang H.G., Liu D.R., Wang Z.L. (2009). Controlling Chaos: Suppression, Synchronization and Chaotification, London: Springer-Verlag, Doi:10.1007/978-1-84882-523-9.

Zhang H.G., Ma T.D., Huang G.B., Wang Z.L. (2010). Robust global exponentialsynchronization of uncertain chaotic delayed neural networks via dual-stage impulsive control. IEEE Transactions on Systems Man and Cybernetics Part B-Cybernetics. 40 (3): 831-844.

Zhang H.G., Quan Y.B. (2001). Modeling, identification, and control of a class of nonlinear systems. IEEE Transactions on Fuzzy Systems. 9 (2): 349-354, Doi:10.1109/91.919256.

Zhang X.B., Yao H.X. (2011). Adaptive synchronization of a new complex chaotic system. Journal of Wuhan University of technology. 33 (11):152-155.

Zhong Q., Wang D.P., Li X.(2016). Weighted Evolution Model and Efficiency Analysis of Knowledge Network. Revista de la Facultad de Ingeniería. 31(3): 73-84. Doi:10.21311/002.31.3.07.

Zhou J., Luo Y.Q., Li Z.Y., Kang C.Q. (2014). Analysis of forest fire surveillance & prewarning application system based on power grid gis. Review of Computer Engineering Studies. 1(1): 23-28, Doi:10.18280/rces.010105.

Zhou Z.H. (2014). Analysis of influencing factors of blackboard teaching effect based on ism model. Review of Computer Engineering Studies.1(1): 1-6.Doi:10.18280/rces.010101.

Zhou Z.Z. (2014). Analysis of influencing factors of blackboard teaching effect based on ism model. Review of Computer Engineering Studies. 1(1): 1-6, Doi:10.18280/rces.010101.

Zribi M., Oteafy A., Smaoui N. (2015). Controlling chaos in the permanent magnet synchronous motor. Chaos, Solitions & Fractals. 41(3): 1266-1276, Doi:10.1016/j.chaos.2008.05.019.