Nonsmooth Optimization Control Based on a Sandwich Model with Hysteresis for Piezo–Positioning Systems

Chen, X. (2012). Smoothing methods for nonsmooth, nonconvex minimization, Mathematical Programming 134(1): 71–79. Search in Google Scholar

Clarke, D.W., Mohtadi, C. and Tuffs, P.S. (1987). Generalized predictive control. Part II: Extensions and interpretations, Automatica 23(2): 149–160. Search in Google Scholar

Clarke, F., Ledyaev, Y., Stern, R. and Wolenski, P. (1998). Non-smooth Analysis and Control Theory, Springer, New York. Search in Google Scholar

Corradini, M., Orlando, G. and Parlangeli, G. (2005). Robust control of nonlinear uncertain systems with sandwiched backlash, Proceedings of the 44th IEEE Conference on Decision and Control, Seville, Spain, pp. 8112–8117. Search in Google Scholar

Dong, R., Tan, Q. and Tan, Y. (2008). A nonsmooth nonlinear programming based predictive control for mechanical servo systems with backlash-like hysteresis, Asian Journal of Control 20(4): 1519–1532. Search in Google Scholar

Dong, R., Tan, Y. and He, D. (2013). A non-smooth IMC method for mechanical systems with backlash, Journal of Control Theory Applications 11(4): 600–607. Search in Google Scholar

Dong, R., Tan, Y. and Tan, Q. (2020). Mirror angle tuning of electromagnetic micro-mirrors with oscillation compensation, IEEE Transactions on Systems, Man and Cybernetics: Systems 50(8): 2969–2977. Search in Google Scholar

Dong, R., Tan, Y. and Xie, Y. (2016). Identification of micropositioning stage with piezoelectric actuators, Mechanical Systems and Signal Processing 75: 618–630. Search in Google Scholar

Dong, R., Tan, Y., Xie, Y. and Janschek, K. (2017). Recursive identification of micropositioning stage based on sandwich model with hysteresis, IEEE Transactions on Control Systems Technology 25(1): 317–325. Search in Google Scholar

Harnischmacher, G. and Marquardt, W. (2007). Nonlinear model predictive control of multivariable processes using block-structured models, Control Engineering Practice 15(10): 1328–1256. Search in Google Scholar

Janaideh, M., Su, C. and Rakheja, S. (2008). Development of the rate-dependent Prandtl–Ishlinskii model for smart actuators, Smart Materials and Structures 17(3): 035026. Search in Google Scholar

Li, Y., Liu, Y. and Tong, S. (2022). Observer-based neuro-adaptive optimized control for strict-feedback nonlinear systems with state constraints, IEEE Transactions on Neural Networks and Learning Systems 33(7): 3131–3145. Search in Google Scholar

Luo, N., Tan, Y. and Dong, R. (2015). Observability and controllability analysis for sandwich systems with backlash, International Journal of Applied Mathematics and Computer Science 25(4): 803–814, DOI: 10.1515/amcs-2015-0057. Search in Google Scholar

Manni, A., Parlangeli, G. and Corradini, M. (2008). Robust stabilization of nonlinear sandwich plants containing generalized hysteresis nonlinearities, Proceedings of the 17th World Congress of the International Federation of Automatic Control, Seoul, Korea, pp. 14409–14414. Search in Google Scholar

Oh, J. and Bernstein, D. (2005). Semilinear Duhem model for rate-independent and rate-dependent hysteresis, IEEE Transactions on Automatic Control 50(5): 631–645. Search in Google Scholar

Oliveri, A., Maselli, M., Lodi, M., Storace, M. and Cianchetti, M. (2019). Model based compensation of rate-dependent hysteresis in a piezoresistive strain sensor, IEEE Transactions on Industrial Electronics 66(10): 8205–8213. Search in Google Scholar

Tao, G., Ma, X. and Ling, Y. (2001). Optimal and nonlinear decoupling control of system with sandwiched backlash, Automatica 37(2): 165–176. Search in Google Scholar

Taware, A., Tao, G. and Teolis, C. (2002). Design and analysis of a hybrid control scheme for sandwich non-smooth nonlinear systems, IEEE Transactions on Automatic Control 47(1): 145–150. Search in Google Scholar

Tong, S., Sun, K. and Sui, S. (2018). Observer-based adaptive fuzzy decentralized optimal control design for strict feedback nonlinear large-scale systems, IEEE Transactions on Fuzzy Systems 26(2): 569–584. Search in Google Scholar

Xie, Y., Tan, Y. and Dong, R. (2013). Nonlinear modeling and decoupling control of XY micropositioning stages with piezoelectric actuators, IEEE/ASME Transactions on Mechatronics 18(3): 821–832. Search in Google Scholar

Xue, Y., Meng, D., Yin, S., Han, W., Yan, X., Shu, Z. and Diao, L. (2019). Vector-based model predictive hysteresis current control for asynchronous motor, IEEE Transactions on Industrial Electronics 66(11): 8703–8712. Search in Google Scholar

Yu, D., Long, J., Chen, C.L.P. and Wang, Z. (2022). Adaptive swarm control within saturated input based on nonlinear coupling degree, IEEE Transactions on Systems, Man, and Cybernetics: Systems 52(8): 4900–4911. Search in Google Scholar

Zhang, Z., Yang, Z., Liu, S., Chen, S. and Zhang, X. (2022). A multi-model based adaptive reconfiguration control scheme for an electro-hydraulic position servo system, International Journal of Applied Mathematics and Computer Science 32(2): 185–196, DOI: 10.34768/amcs-2022-0014. Search in Google Scholar

Zhao, X. and Tan, Y. (2006). Neural adaptive control of dynamic sandwich systems with hysteresis, Proceedings of 2006 IEEE International Symposium on Intelligent Control, Munich, Germany, pp. 82–87. Search in Google Scholar