Robust adaptive fault-tolerant quantized control of nonlinear systems with constraints on system behaviors and states. (English) Zbl 1466.93040
Summary: In this work, we develop a robust adaptive fault-tolerant tracking control scheme for a class of input-quantized strict-feedback nonlinear systems in the presence of error/state constraints and actuation faults. The problem is rather complicated yet challenging if nonparametric uncertainties and unknown quantization parameters as well as time-varying yet completely undetectable actuation faults are involved in the considered systems. Compared with the most existing approaches in the literature, the proposed control exhibits several attractive advantages: (1) upon using a nonlinear decomposition for quantized input and employing the robust technique for actuation fault, not only the exact knowledge of quantization parameters are not required, but also the actuation fault can be easily compensated since neither fault detection and diagnosis/fault detection and identification nor controller reconfiguration is needed; (2) based on the error/state-dependent unified nonlinear function, the constraints on tracking error and system states are directly handled and the cases with or without constraints can also be addressed in a unified manner without changing the control structure; and (3) the utilization of unified nonlinear function-based dynamic surface control not only avoids the problem of the explosion of complexity in traditional backstepping design, but also bypasses the demanding feasibility conditions of virtual controllers. Furthermore, by using the Lyapunov analysis, it is ensured that all signals in the closed-loop systems are uniformly ultimately bounded. The effectiveness of the developed control algorithm is confirmed by numerical simulations.
MSC:
| 93B35 | Sensitivity (robustness) |
| 93C40 | Adaptive control/observation systems |
| 93C10 | Nonlinear systems in control theory |
| 93B52 | Feedback control |
Keywords:
error/state constraints; fault-tolerant control; quantized input; robust adaptive control; strict-feedback nonlinear systemsReferences:
| [1] | MillerRK, MichelAN, FarrelJA. Quantizer effects on steady state error specifications of digital control systems. IEEE Trans Autom Control. 1989;34(6):651‐654. · Zbl 0682.93021 |
| [2] | TatikondaS, MitterS. Control under communication constraints. IEEE Trans Autom Control. 2004;49(7):1056‐1068. · Zbl 1365.93271 |
| [3] | WongW, BrockettRW. Systems with finite communication bandwidth constraints II: stabilization with limited information feedback. IEEE Trans Autom Control. 1999;44(5):1049‐1053. · Zbl 1136.93429 |
| [4] | WangYW, BianT, XiaoJ, WenC. Global synchronization of complex dynamical networks through digital communication with limited data rate. IEEE Trans Neural Netw Learn Syst. 2015;26(10):2487‐2499. |
| [5] | EliaN, MitterS. Stabilization of linear systems with limited information. IEEE Trans Autom Control. 2001;46(9):1384‐1400. · Zbl 1059.93521 |
| [6] | LiberzonD, HespanhaJ. Stabilization of nonlinear systems with limited information feedback. IEEE Trans Autom Control. 2005;50(6):910‐915. · Zbl 1365.93405 |
| [7] | NairG, EvansR. Stabilizability of stochastic linear systems with finite feedback data rates. SIAM J Control Optimiz. 2004;43(2):413‐436. · Zbl 1101.93078 |
| [8] | LiuT, JiangZP, HillDJ. Small‐gain based output‐feedback controller design for a class of nonlinear systems with actuator dynamic quantization. IEEE Trans Autom Control. 2012;57(5):1326‐1332. · Zbl 1369.93252 |
| [9] | WangC, YangGH. Adaptive decentralized fault‐tolerant tracking control for large‐scale nonlinear systems with input quantization. Int J Robust Nonlin Control. 2018;28(9):3342‐3356. · Zbl 1396.93011 |
| [10] | XingL, WenC, SuH, LiuZ, CaiJ. Robust control for a class of uncertain nonlinear systems with input quantization. Int J Robust Nonlin Control. 2016;26(8):1585‐1596. · Zbl 1342.93044 |
| [11] | KrsticM, KanellakopoulosI, KokotovicPV. Nonlinear and Adaptive Control Design. New York, NY: John Wiley & Sons; 1995. |
| [12] | SongYD, ZhaoK, KrsticM. Adaptive control with exponential regulation in the absence of persistent excitation. IEEE Trans Autom Control. 2017;62(5):2589‐2596. · Zbl 1366.93301 |
| [13] | LiYX, YangGH. Adaptive asymptotic tracking control of uncertain nonlinear systems with input quantization and actuator faults. Automatica. 2016;72(10):177‐185. · Zbl 1344.93061 |
| [14] | XingL, WenC, SuH, CaiJ, WangL. A new adaptive control scheme for uncertain nonlinear systems with quantized input signal. J Franklin Inst. 2015;352(12):5599‐5610. · Zbl 1395.93314 |
| [15] | YuX, LinY. Adaptive backstepping quantized control for a class of nonlinear systems. IEEE Trans Autom Control. 2017;62(2):981‐985. · Zbl 1364.93353 |
| [16] | ZhouJ, WenC, YangGH. Adaptive backstepping stabilization of nonlinear uncertain systems with quantized input signal. IEEE Trans Autom Control. 2014;59(2):460‐464. · Zbl 1360.93626 |
| [17] | FanQY, YangGH, YeD. Quantization‐based adaptive actor‐critic tracking control with tracking error constraints. IEEE Trans Neural Netw Learn Syst. 2018;29(4):970‐980. |
| [18] | LiuZ, WangF, ZhangY, Philip ChenCL. Fuzzy adaptive quantized control for a class of stochastic nonlinear uncertain systems. IEEE Trans Cybern. 2016;46(2):524‐534. |
| [19] | WangC, YangGH. Prescribed performance adaptive fault‐tolerant tracking control for nonlinear time‐delay systems with input quantization and unknown control directions. Neurocomputing. 2018;311(15):333‐343. |
| [20] | KimBS, YooSJ. Approximation‐based adaptive control of uncertain nonlinear pure‐feedback systems with full state constraints. IET Control Theory Appl. 2014;8(17):2070‐2081. |
| [21] | LiuYJ, TongS. Barrier lyapunov functions for nussbaum gain adaptive control of full state constrained nonlinear systems. Automatica. 2017;76(2):143‐152. · Zbl 1352.93062 |
| [22] | LiuYJ, TongS, Philip ChenCL, LiDJ. Adaptive NN control using integral barrier Lyapunov functionals for uncertain nonlinear block‐triangular constraint systems. IEEE Trans Cybern. 2017;47(11):3747‐3757. |
| [23] | LiuYJ, LuS, LiD, TongS. Adaptive controller design‐based ABLF for a class of nonlinear time‐varying state constraint systems. IEEE Trans Syst Man Cybern Syst. 2017;47(7):1546‐1553. |
| [24] | LiDJ, LiDP. Adaptive tracking control for nonlinear time‐varying delay systems with full state constraints and unknown control coefficients. Automatica. 2018;93(3):444‐453. · Zbl 1400.93140 |
| [25] | TangZL, GeSS, TeeKP, HeW. Robust adaptive neural tracking control for a class of perturbed uncertain nonlinear systems with state constraints. IEEE Trans Syst Man Cybern Syst. 2016;46(12):1‐12. |
| [26] | TeeKP, GeSS, TayEH. Barrier lyapunov functions for the control of output‐constrained nonlinear systems. Automatica. 2009;45(4):918‐927. · Zbl 1162.93346 |
| [27] | TeeKP, RenB, GeSS. Control of nonlinear systems with time‐varying output constraints. Automatica. 2011;47(11):2511‐2516. · Zbl 1228.93069 |
| [28] | TeeKP, GeSS. Control of nonlinear systems with partial state constraints using a barrier Lyapunov function. Int J Control. 2011;84(12):2008‐2023. · Zbl 1236.93099 |
| [29] | TeeKP, GeSS. Control of state‐constrained nonlinear systems using integral barrier: Lyapunov functionals. Paper presented at: Proceedings of the 51st IEEE Conference on Decision and Control; 2012:3239‐3244. |
| [30] | ZhangZ, SongYD, ZhaoK. Neuroadaptive cooperative control without velocity measurement for multiple humanoid robots under full‐state constraints. IEEE Trans Ind Electron. 2019;66(4):2956‐2964. |
| [31] | ZhaoK, SongYD, ShenZ. Neuroadaptive fault‐tolerant control of nonlinear systems under output constraints and actuation faults. IEEE Trans Neural Netw Learn Syst. 2018;29(2):286‐298. |
| [32] | ZhaoK, SongYD, MaT, HeL. Prescribed performance control of uncertain Euler‐Lagrange systems subject to full‐state constraints. IEEE Trans Neural Netw Learn Syst. 2018;29(8):3478‐3489. |
| [33] | ZhangZK, DuanGR, HuYM. Robust adaptive control for a class of semi‐strict feedback systems with state and input constraints. Int J Robust Nonlin Control. 2018;28(9):3189‐3211. · Zbl 1396.93048 |
| [34] | MayneDQ, RawlingsJB, RaoCV, ScokaertPO. Constrained model predictive control: stability and optimality. Automatica. 2000;36(6):789‐814. · Zbl 0949.93003 |
| [35] | BemporadA. Reference governor for constrained nonlinear systems. IEEE Trans Autom Control. 1998;43(3):415‐419. · Zbl 0906.93024 |
| [36] | WangW, WenC. Adaptive actuator failure compensation control of uncertain nonlinear systems with guaranteed transient performance. Automatica. 2010;46(12):2082‐2091. · Zbl 1205.93083 |
| [37] | BechlioulisC, RovithakisG. Robust adaptive control of feedback linearizable MIMO nonlinear systems with prescribed performance. IEEE Trans Autom ol. 2008;53(9):2090‐2099. · Zbl 1367.93298 |
| [38] | NgoKB, MahonyR, JiangZP. Integrator backstepping using barrier functions for systems with multiple state constraints. Paper presented at: Proceedings of the 44th IEEE Conference on Decision and Control; 2005:8306‐8312. |
| [39] | ZhaoK, SongYD. Removing the feasibility conditions imposed on tracking control designs for state‐constrained strict‐feedback systems. IEEE Trans Autom Control. 2019;64(3):1265‐1272. · Zbl 1482.93260 |
| [40] | JinX. Adaptive fixed‐time control for MIMO nonlinear systems with asymmetric output constraints using universal barrier functions. IEEE Trans Autom Control. 2018;64(7):3046‐3053. https://doi.org/10.1109/TAC.2018.2874877. · Zbl 1478.93318 · doi:10.1109/TAC.2018.2874877 |
| [41] | SongYD, WangYJ, WenC. Adaptive fault‐tolerant PI tracking control with guaranteed transient and steady‐state performance. IEEE Trans Autom Control. 2017;62(1):481‐487. · Zbl 1359.93233 |
| [42] | ZhangJX, YangGH. Adaptive prescribed performance control of nonlinear output‐feedback systems with unknown control direction. Int J Robust Nonlin Control. 2018;28(16):4696‐4712. · Zbl 1402.93162 |
| [43] | ZhangJX, YangGH. Adaptive asymptotic stabilization of a class of unknown nonlinear systems with specified convergence rate. Int J Robust Nonlin Control. 2019;29(1):238‐251. · Zbl 1411.93163 |
| [44] | IlchmannA, RyanEP, TownsendP. Tracking control with prescribed transient behaviour for systems of known relative degree. Syst Control Lett. 2006;55(5):396‐406. · Zbl 1129.93502 |
| [45] | LiF, LiuY. Control design with prescribed performance for nonlinear systems with unknown control directions and non‐parametric uncertainties. IEEE Trans Autom Control. 2018;63(10):3573‐3580. · Zbl 1423.93306 |
| [46] | SongYD, ZhaoK. Accelerated adaptive control of nonlinear uncertain systems. Paper presented at: Proceedings of the 2017 American Control Conference; 2017:2471‐2476. |
| [47] | ZhaoK, SongYD, QianJ, FuJ. Zero‐error tracking control with pre‐assignable convergence mode for nonlinear systems under nonvanishing uncertainties and unknown control direction. Syst Control Lett. 2018;115(5):34‐40. · Zbl 1390.93310 |
| [48] | ZhouS, SongYD, ZhaoK. Accelerated neuroadaptive tracking control of strict‐feedback nonlinear systems without precise knowledge of target trajectory. Int J Adapt Control Signal Process. 2018;32(1):27‐49. · Zbl 1390.93394 |
| [49] | PanagiP, PolycarpouMM. Decentralized fault tolerant control of a class of interconnected nonlinear systems. IEEE Trans Autom Control. 2011;56(1):178‐184. · Zbl 1368.93310 |
| [50] | PolycarpouMM. Fault accommodation of a class of multivariable nonlinear dynamical systems using a learning approach. IEEE Trans Autom Control. 2001;46(5):736‐742. · Zbl 1006.93074 |
| [51] | JinX. Adaptive fault tolerant control for a class of input and state constrained MIMO nonlinear systems. Int J Robust Nonlin Control. 2016;26(2):286‐302. · Zbl 1333.93141 |
| [52] | JinX. Adaptive finite‐time fault‐tolerant tracking control for a class of MIMO nonlinear systems with output constraints. Int J Robust Nonlin Control. 2017;27(5):722‐741. · Zbl 1359.93226 |
| [53] | ShenQK, JiangB, ShiP, ZhaoJ. Cooperative adaptive fuzzy tracking control for networked unknown nonlinear multiagent systems with time‐varying actuator faults. IEEE Trans Fuzzy Syst. 2013;22(3):494‐504. |
| [54] | WangD, HuangJ. Neural network‐based adaptive dynamic surface control for a class of uncertain nonlinear systems in strict‐feedback form. IEEE Trans Neural Netw. 2005;16(1):195‐202. |
| [55] | ZhaoK, SongYD, WenC. Compuationally inexpensive fault tolerant control of uncertain nonlinear systems with nonsmooth asymmetric input saturation and undetectable actuation failures. IET Control Theory Appl. 2016;10(15):1866‐1873. |
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