Abstract
The models of batch processes can be divided into linear systems and nonlinear systems and can also be divided into single phases and multi-phases. In this chapter, a series of research results on single-phase linear batch processes under delay and disturbances are carried out.
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References
Wang, Z., Goodall, D., Burnham, K.: On designing observers for time-delay systems with non-linear disturbances. Int. J. Control 75(11), 803–811 (2002)
Hwang, S.H., Lai, S.T.: Use of two-stage least-squares algorithms for identification of continuous systems with time delay based on pulse responses. Automatica 40(9), 1561–1568 (2004)
Ren, X., Rad, A., Chan, P., et al.: Online identification of continuous-time systems with unknown time delay. IEEE Trans. Autom. Control 50(9), 1418–1422 (2005)
Zhang, R., Wang, S.: Support vector machine based predictive functional control design for output temperature of coking furnace. J. Process Control 18(5), 439–448 (2008)
Gao, H., Meng, X., Chen, T.: A parameter-dependent approach to robust H∞ filtering for time-delay systems. IEEE Trans. Autom. Control 53(10), 2420–2425 (2008)
Sjöberg, J., Gutman, P.O., Agarwal, M., et al.: Nonlinear controller tuning based on a sequence of identifications of linearized time-varying models. Control Eng. Pract. 17(2), 311–321 (2009)
Liu, T., Gao, F.: A generalized relay identification method for time delay and non-minimum phase processes. Automatica 45(4), 1072–1079 (2009)
Liuaab, K.: Stability and -gain analysis of networked control systems under round-robin scheduling: A time-delay approach. Syst. Control Lett. 61(5), 666–675 (2012)
Wu, S., Zhang, R., Lu, R., Gao, F.: Design of dynamic matrix control based PID for residual oil outlet temperature in a coke furnace. Chemometr. Intell. Lab. Syst. 134, 110–117 (2014)
Zhang, R., Wu, S., Gao, F.: Improved PI controller based on predictive functional control for liquid level regulation in a coke fractionation tower. J. Process Control 24(3), 125–132 (2014)
Tao, H., Paszke, W., Rogers, E., et al.: Iterative learning fault-tolerant control for differential time-delay batch processes in finite frequency domains. J. Process Control 56, 112–128 (2017)
Wang, L., Zhu, C., Yu, J., Li, P., Zhang, R., Gao, F.: Fuzzy iterative learning control for batch processes with interval time-varying delays. Ind. Eng. Chem. Res. 56(14), 3993–4001 (2017)
Wang, Y., Jin, Q., Zhang, R.: Improved fuzzy PID controller design using predictive functional control structure. ISA Trans. 71, 354–363 (2017)
Shen, Y., Wang, L., Yu, J., Zhang, R., Gao, F.: A hybrid 2D fault-tolerant controller design for multi-phase batch processes with time delay. J. Process Control 69, 138–157 (2018)
Wang, L., Liu, B., Yu, J., Li, P., Zhang, R., Gao, F.: Delay-range-dependent-based hybrid iterative learning fault-tolerant guaranteed cost control for multi-phase batch processes. Ind. Eng. Chem. Res. 57(8), 2932–2944 (2018)
Wang, L., Li, B., Yu, J., Zhang, R., Gao, F.: Design of fuzzy iterative learning fault-tolerant control for batch processes with time-varying delays. Optim. Control Appl. Method 39, 1887–1903 (2018)
Wang, L., Zhu, C., Yu, J.: Fuzzy Iterative learning control for batch processes with interval time-varying delays. Ind. Eng. Chem. Res. 56, 3993–4001 (2017)
Holmberg, U., Bonvin, D., Cannizzaro, C.: Optimal operation of fed-batch fermentations via adaptive control of overflow metabolite. Control Eng. Pract. 11(6), 665–674 (2003)
Dovžan, D., Škrjanc, I.: Predictive functional control based on an adaptive fuzzy model of a hybrid semi-batch reactor. Control Eng. Pract. 18(8), 979–989 (2010)
Zhang, R., Gan, L., Lu, J., Gao, F.: New design of state space linear quadratic fault-tolerant tracking control for batch processes with partial actuator failure. Ind. Eng. Chem. Res. 52(46), 16294–16300 (2013)
Liu, T., Huang, B., Qin, S.: Bias-eliminated subspace model identification under time-varying deterministic type load disturbance. J. Process Control 25(7), 41–49 (2015)
Dewasme, L., Fernandes, S., Amribt, Z., et al.: State estimation and predictive control of fed-batch cultures of hybridoma cells. J. Process Control 30, 50–57 (2015)
Shi, J., Gao, F., Wu, T.: Robust design of integrated feedback and iterative learning control of a batch process based on a 2D Roesser system. J. Process Control 15(8), 907–924 (2005)
Paszke, W., Lam, J., Gałkowski, K., et al.: Robust stability and stabilisation of 2D discrete state-delayed systems. Syst. Control Lett. 51(3), 277–291 (2004)
Chen, S., Fong, I.: Delay-dependent robust stability and stabilization of two-dimensional state-delayed systems. Dyn. Contin. Discret. Impuls. Syst. 1(1), 1–17 (2009)
Chen, S.: Stability analysis for 2D systems with interval time-varying delays and saturation nonlinearities. Signal Process 90(7), 2265–2275 (2010)
Chen, S.: Delay-dependent stability for 2D systems with time-varying delay subject to state saturation in the Roesser model. Appl. Math. Comput. 216(9), 2613–2622 (2010)
Peng, D., Guan, X.: Output feedback H ∞ control for 2D state-delayed systems. Circuits Syst. Signal Process. 28(1), 147–167 (2009)
Xu, J., Yu, L.: Delay-dependent H ∞ control for 2D discrete state delay systems in the second FM model. Multidimension. Syst. Signal Process. 20(4), 333–349 (2009)
Chen, S., Fong, I.: Delay-Dependent Robust H∞ Filtering for Uncertain 2D State-Delayed Systems. Elsevier North-Holland, Inc. (2007)
Peng, D., Guan, X.: H∞ filtering of 2D discrete state-delayed systems. Multidimension. Syst. Signal Process. 20(3), 265–284 (2009)
Ye, S., Wang, W., Zou, Y.: Robust Guaranteed Cost Control for a Class of Two-Dimensional Discrete Systems with Shift-Delays. Kluwer Academic Publishers (2009)
Kaczorek, T.: Two-Dimensional Linear Systems. Springer, Berlin (1985)
Qiu, J., Xia, Y., Yang, H., et al.: Robust stabilisation for a class of discrete-time systems with time-varying delays via delta operators. IET Control Theory Appl. 2(1), 87–93 (2008)
Yu, K., Lien, C.: Stability criteria for uncertain neutral systems with interval time-varying delays. Chaos, Solitons Fractals 38(3), 650–657 (2008)
Young, S., Poogyeon, P., Wook, H., et al.: Delay-dependent robust stabilization of uncertain state-delayed systems. Int. J. Control 74(14), 1447–1455 (2001)
El Ghaoui, L., Oustry, F., Aitrami, M.: A cone complementarity linearization algorithm for static output-feedback and related problems. IEEE Trans. Autom. Control 42(8), 1171–1176 (1997)
Moon, Y., Kwon, W., et al.: Delay-dependent robust H ∞ control for uncertain systems with a state-delay. Automatica 40(1), 65–72 (2004)
Shi, J., Gao, F., Wu, T.: Robust iterative learning control design for batch processes with uncertain perturbations and initialization. Aiche J. 52(6), 2171–2187 (2010)
Gao, F., Yang, Y., Shao, C.: Robust iterative learning control with applications to injection molding process. Chem. Eng. Sci. 56(24), 7025–7034 (2001)
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Wang, L., Zhang, R., Gao, F. (2020). Iterative Learning Control of Linear Batch Processes. In: Iterative Learning Stabilization and Fault-Tolerant Control for Batch Processes. Springer, Singapore. https://doi.org/10.1007/978-981-13-5790-9_2
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DOI: https://doi.org/10.1007/978-981-13-5790-9_2
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