考虑量化输入和输出约束的互联系统自适应分散跟踪控制

本文考虑具有量化输入和输出约束的一类非线性互联系统的自适应分散跟踪控制设计. 分别针对量化参数已知和未知两种情况, 基于反推(Backstepping)设计法, 利用神经网络逼近特性, 设计自适应分散跟踪控制策略. 通过定义新的未知常量和非线性光滑函数, 设计自适应参数估计项来消除未知互联项对系统的影响. 进一步考虑量化参数未知的情形, 引入一个新的不等式来转化输入信号, 并构建新的自适应补偿项来处理量化影响. 同时, 障碍李雅普诺夫函数的引入, 确保了系统输出不违反约束条件. 与现有量化输入设计相比, 本文所提方法不要求未知非线性项满足李普希兹条件, 并且允许量化参数未知. 该设计方法保证了闭环系统所有信号最终一致有界, 而且跟踪误差能够收敛到原点的小邻域内, 同时保证输出不违反约束条件. 最后, 仿真算例验证了所提方法具备良好的跟踪控制性能.

Adaptive Decentralized Tracking Control for Nonlinear Interconnected Systems With Input Quantization and Output Constraints

This paper addresses adaptive decentralized output tracking control for a class of nonlinear interconnected systems with input quantization and out constraints. An adaptive decentralized tracking control strategy is designed based on backstepping design method and neural network approximation characteristics for the known and unknown quantization parameters respectively. By defining the new unknown constant and nonlinear smooth function, an adaptive parameter estimation term is used to offset the impact of interconnected items on system performances. Furthermore, in the case when the quantization parameters are unknown, a new inequality is introduced to transform the input signal and a new adaptive compensation term is constructed to deal with the influence of quantization. Meanwhile, the Barrier Lyapunov function is introduced to ensure outputs do not violate the constraints. Compared with existing input quantization designs, the proposed method does not require unknown nonlinear terms to satisfy Lipschitz conditions, and quantization parameters can be unknown. The proposed method ensures that all the closed-loop signals are uniformly bounded, and the tracking errors can converge to the small neighborhood of the origin, while ensuring the output do not violate the constraints. Finally, the simulation results show that the proposed method yields better tracking performance.