Smooth Switching Controller Design for Multiobjective Control Systems and Applications
Publication: Journal of Aerospace Engineering
Volume 29, Issue 4
Abstract
Switching control theory is introduced to solve regulation and protection control problems in multiobjective control systems. Switching performance objectives and a switching strategy are given, and a family of proportion-integration-differentiation (PID) controllers and compensators is designed. The simulation shows that using the switching control design method in aircraft engine multiloop control systems can not only improve the dynamic performance of the engine control system and reduce the switching times but also guarantee stability in certain situations.
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Acknowledgments
The authors are grateful to Prof. Ming Cao and Dr. Tao Liu from the University of Groningen for their good advice and discussions. This study was supported by the National Natural Science Foundation of China under Grant 61104146.
References
Artstein, Z. (1996). “Examples of stabilization with hybrid feedback.” Hybrid systems III, Springer, Berlin, 173–185.
Balas, G. J. (2002). “Linear, parameter-varying control and its application to a turbofan engine.” Int. J. Robust Nonlinear Control, 12(9), 763–796.
Bamieh, B., and Giarre, L. (2002). “Identification of linear parameter varying models.” Int. J. Robust Nonlinear Control, 12(9), 841–853.
Bao, W., Qi, Y., and Chang, J. (2013). “Multi-objective regulating and protecting control for ducted rocket using a bumpless transfer scheme.” Proc. Inst. Mech. Eng. Part G J. Aerosp. Eng., 227(2), 311–325.
Bao, W., Qi, Y., Yu, D., Yao, Z., and Zhao, J. (2012a). “Bumpless switching scheme design and its application to hypersonic vehicle model.” Int. J. Innovative Comput. Inf. Control, 8(1), 677–689.
Bao, W., Qi, Y., Zhao, J., and Chang, J. (2012b). “Robust dynamic bumpless transfer: An exact model matching approach.” IET Contr. Theory Appl., 6(10), 1341–1350.
Branicky, M. S. (1998). “Multiple Lyapunov functions and other analysis tools for switched and hybrid systems.” IEEE Trans. Autom. Control, 43(4), 475–482.
Bruzelius, F. (2004). “Linear parameter-varying systems.” Ph.D. dissertation, Chalmers Univ. of Technology, Gothenburg, Sweden.
Cao, R., Chang, J., Tang, J., Bao, W., Yu, D., and Wang, Z. (2015). “Switching control of thrust regulation and inlet unstart protection for scramjet engine based on min strategy.” Aerosp. Sci. Technol., 40, 96–103.
Daafouz, J., Riedinger, P., and Iung, C. (2002). “Stability analysis and control synthesis for switched systems: A switched Lyapunov function approach.” IEEE Trans. Autom. Control, 47(11), 1883–1887.
Hu, B., Zhai, G., and Michel, A. (2002). “Hybrid static output feedback stabilization of second-order linear time-invariant systems.” Linear Algebra Appl., 351, 475–485.
Jaw, L. C., and Mattingly, J. D. (2009). Aircraft engine controls: Design, system analysis and health monitoring, American Institute of Aeronautics and Astronautics, Reston, VA.
Liberzon, D. (1999). “Stabilizing a linear system with finite-state hybrid output feedback.” Proc., 7th IEEE Mediterranean Conf. on Control and Automation, IEEE, 176–183.
Litsyn, E., Nepomnyashchikh, Y. V., and Ponosov, A. (2000). “Stabilization of linear differential systems via hybrid feedback controls.” SIAM J. Control Optim., 38(5), 1468–1480.
Mu, J., Rees, D., and Liu, G. P. (2005). “Advanced controller design for aircraft gas turbine engines.” Control Eng. Pract., 13(8), 1001–1015.
Peleties, P., and DeCarlo, R. (1991). “Asymptotic stability of m-switched systems using Lyapunov-like functions.” Proc., American Control Conf., IEEE, 1679–1684.
Pettersson, S., and Lennartson, B. (1996). “Stability and robustness for hybrid systems.” Proc., 35th IEEE Conf. Decision and Control, IEEE, 1202–1207.
Qi, Y., Bao, W., and Chang, J. (2015). “State-based switching control strategy with application to aeroengine safety protection.” J. Aerosp. Eng., 04014076.
Savkin, A. V., Skafidas, E., and Evans, R. J. (1999). “Robust output feedback stabilizability via controller switching.” Automatica, 35(1), 69–74.
Ye, H., Michel, A. N., and Hou, L. (1998). “Stability theory for hybrid dynamical systems.” IEEE Trans. Autom. Control, 43(4), 461–474.
Yu, D., Liu, X., Bao, W., and Xu, Z. (2009). “Multiobjective robust regulating and protecting control for aeroengines.” J. Eng. Gas. Turbines Power-Trans., 131(6), 061601.
Zhai, G., and Chen, X. (2002). “Stabilizing linear time-invariant systems with finite-state hybrid static output feedback.” Proc., IEEE Int. Symp. on Circuits and Systems, IEEE, 249–252.
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© 2016 American Society of Civil Engineers.
History
Received: Feb 15, 2014
Accepted: Oct 15, 2015
Published online: Jan 7, 2016
Discussion open until: Jun 7, 2016
Published in print: Jul 1, 2016
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