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For the nonlinear Hopf bifurcation system, the change of bifurcation parameter has an important influence on the state of the system. In order to control the Hopf bifurcations of the nonlinear dynamic system, the parameter values of bifurcation points in the system need to be found out before controller designing. However, due to uncertainties of the system structure and parameters in the nonlinear system, or disturbance, it is difficult to determine the bifurcation point precisely. So it is a good way of designing a robust controller near the bifurcation point. Although, lots of works have discussed the robust control of a Hopf bifurcation in a nonlinear dynamic system, the solutions are not satisfactory and there are still many problems. The controller is always designed for some special system. Its structure is usually complex, not general, and the design process is complicated. And before controller design, the value of bifurcation point must be solved accurately.In this paper, a parametric robust stability controller design method is proposed for a class of polynomial form Hopf bifurcation systems. Using this method, it is not necessary to solve the exact values of the bifurcation parameter, it is only needed to determine the bifurcation parameter range. The designed controller includes a system state polynomial; its structure is general, simple and keeps the equilibrium of the original system unchanged. By using the Hurwitz criterion, the system stability constraints for bifurcation parameter boundaries are obtained at equilibrium, and they are described by algebraic inequalities. Cylindrical algebraic decomposition is applied to calculate the stability region of the controller parameters. And then, in the region, parameters of the robust controller can be calculated to make the dynamic system stable. In this paper, the Lorenz system without disturbance is used as an example to show the designing process of the method, and then the controller of the van der Pol oscillator system with disturbance is designed by this method as an engineering application. Simulations of the two systems are given to demonstrate that the proposed controller designing method can be effectively applied to the robust stability control of the Hopf bifurcation systems.
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Keywords:
- robust stabilization controller /
- Hopf bifurcation /
- parametric /
- cylindrical algebraic decomposition
[1] Wu Z Q, Sun L M 2011 Acta Phys. Sin. 60 050504 (in Chinese) [吴志强, 孙立明 2011 60 050504]
[2] Zhu L H, Zhao H Y 2014 Acta Phys. Sin. 63 090203 (in Chinese) [朱霖河, 赵洪涌 2014 63 090203]
[3] Wang J S, Yuan R X, Gao Z W, Wang D J 2011 Chin. Phys. B 20 090506
[4] Pei Y, Chen G R 2004 Int. J. Bifurcat. Chaos 14 1683
[5] Nguyen L, Hong K 2012 Phys. Lett. A 376 442
[6] Wang F Q, Ma X K 2013 Chin. Phys. B 22 120504
[7] Yfoulis C, Giaouris D, Stergiopoulos F, Ziogou C, Voutetakis S, Papadopoulou S 2015 Control Eng. Pract. 35 67
[8] Zhao H Y, Xie W 2011 Nonlinear Dyn. 63 345
[9] Wu Z, Yu P 2006 IEEE Trans. Automat. Control 51 1019
[10] Mohammadi A, Marvdasht I 2012 Problems of Cybernetics and Informatics (PCI), 2012 IV International Conference Baku, September 12-14, 2012 p1
[11] Kishida M, Braatz R 2014 American Control Conference (ACC), Portland, OR, June 4-6, 2014 p5085
[12] Cao G Y, Hill D J 2010 IET Gener. Transm. Dis. 4 873
[13] Inoue M, Imura J, Kashima K, Aihara K 2015 Analysis and Control of Complex Dynamical Systems 7 3
[14] Hu J, Liu L, Ma D W 2014 J. Korean Phys. Soc. 65 2132
[15] Liang J S, Chen Y S, Leung A Y T 2004 Appl. Math. Mech. 25 263
[16] Yue M, Schlueter R 2005 IEEE Trans. Power Syst. 20 301
[17] Chen D W, Gu H B, Liu H 2010 J. Vib. and Shock 29 30 (in Chinese) [陈大伟, 顾宏斌, 刘晖 2010 振动与冲击 29 30]
[18] He C M, Jin L, Chen D G, Geiger R 2007 IEEE Trans. Circ. Syst. 54 964
[19] Liu S, Zhao S S, Wang Z L, Li H B 2015 Chin. Phys. B 24 014501
[20] Li H Y, Che Yan Q, Wang J, Jin Q T, Deng B, Wei X L, Dong F 2012 The 10th World Congress on Intelligent Control and Automation (WCICA) Beijing, July 6-8, 2012 p4953
[21] Yang T B, Chen X 2008 Proceedings of the 47th IEEE Conference on Decision and Control(CDC) Cancun, Mexico, December 9-11, 2008 p4103
[22] LaValle S M 2006 Planning Algorithms (Cambridge: Cambridge University Press) pp 280-290
[23] Gandy S, Kanno M, Anai H, Yokoyama K 2011 Math. Comput. Sci. 5 209
[24] England M, Bradford R, Chen C, Davenport J H, Maza M M, Wilson D 2014 Intellig. Comput. Math. 8543 45
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[1] Wu Z Q, Sun L M 2011 Acta Phys. Sin. 60 050504 (in Chinese) [吴志强, 孙立明 2011 60 050504]
[2] Zhu L H, Zhao H Y 2014 Acta Phys. Sin. 63 090203 (in Chinese) [朱霖河, 赵洪涌 2014 63 090203]
[3] Wang J S, Yuan R X, Gao Z W, Wang D J 2011 Chin. Phys. B 20 090506
[4] Pei Y, Chen G R 2004 Int. J. Bifurcat. Chaos 14 1683
[5] Nguyen L, Hong K 2012 Phys. Lett. A 376 442
[6] Wang F Q, Ma X K 2013 Chin. Phys. B 22 120504
[7] Yfoulis C, Giaouris D, Stergiopoulos F, Ziogou C, Voutetakis S, Papadopoulou S 2015 Control Eng. Pract. 35 67
[8] Zhao H Y, Xie W 2011 Nonlinear Dyn. 63 345
[9] Wu Z, Yu P 2006 IEEE Trans. Automat. Control 51 1019
[10] Mohammadi A, Marvdasht I 2012 Problems of Cybernetics and Informatics (PCI), 2012 IV International Conference Baku, September 12-14, 2012 p1
[11] Kishida M, Braatz R 2014 American Control Conference (ACC), Portland, OR, June 4-6, 2014 p5085
[12] Cao G Y, Hill D J 2010 IET Gener. Transm. Dis. 4 873
[13] Inoue M, Imura J, Kashima K, Aihara K 2015 Analysis and Control of Complex Dynamical Systems 7 3
[14] Hu J, Liu L, Ma D W 2014 J. Korean Phys. Soc. 65 2132
[15] Liang J S, Chen Y S, Leung A Y T 2004 Appl. Math. Mech. 25 263
[16] Yue M, Schlueter R 2005 IEEE Trans. Power Syst. 20 301
[17] Chen D W, Gu H B, Liu H 2010 J. Vib. and Shock 29 30 (in Chinese) [陈大伟, 顾宏斌, 刘晖 2010 振动与冲击 29 30]
[18] He C M, Jin L, Chen D G, Geiger R 2007 IEEE Trans. Circ. Syst. 54 964
[19] Liu S, Zhao S S, Wang Z L, Li H B 2015 Chin. Phys. B 24 014501
[20] Li H Y, Che Yan Q, Wang J, Jin Q T, Deng B, Wei X L, Dong F 2012 The 10th World Congress on Intelligent Control and Automation (WCICA) Beijing, July 6-8, 2012 p4953
[21] Yang T B, Chen X 2008 Proceedings of the 47th IEEE Conference on Decision and Control(CDC) Cancun, Mexico, December 9-11, 2008 p4103
[22] LaValle S M 2006 Planning Algorithms (Cambridge: Cambridge University Press) pp 280-290
[23] Gandy S, Kanno M, Anai H, Yokoyama K 2011 Math. Comput. Sci. 5 209
[24] England M, Bradford R, Chen C, Davenport J H, Maza M M, Wilson D 2014 Intellig. Comput. Math. 8543 45
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