动态输出反馈的少保守性NCS鲁棒容错控制

针对一类具有时变时延和丢包的参数不确定网络化控制系统,采用动态输出反馈策略,在未对系统模型进行增广重建的情形下,通过构造适当的Lyapunov-Krasovskii泛函,推出了确保闭环系统在执行器失效情况下具有鲁棒完整性的时滞相关充分条件,进而借助于矩阵分离引理,求解线性矩阵不等式的方式,并给出了控制器的设计方法.由于...     

传输时延和数据包丢失的网络化系统预测控制

针对具有传输时延和数据包丢失的网络化系统研究了有约束模型预测控制问题。考虑网络控制系统中同时存在时延和丢包的情况,给定时延和丢包的上界值,用预测控制器产生的对应时刻的控制输入补偿网络时延和数据包丢失,通过建立时延状态矩阵将系统模型进行分类并视为切换系统,并通过构造切换Lyapunov函数证明了切换系统的稳定性。为了在提高系统性能的基础上减少计算量,利用部分滚动优化方法进行控制器设计,给出了性能指标的上界和系统渐进稳定的充分条件,通过在线求解LMI问题得到状态反馈控制律。仿真研究验证了该方法的有效性。     

基于输出反馈的网络系统控制器的设计

对网络控制系统进行分析,在考虑网络诱导时延和数据包丢失的基础上,基于一定的数据包丢失率和不大于一个采样周期的时延建立数学模型,研究了动态输出反馈网络控制系统指数稳定性和控制器设计问题,将系统建模为结构事件率约束的异步动态系统.利用线性矩阵不等式方法推导出网络接通率约束的系统指数稳定的充要条件,给出了确保系统稳定的控制器设计方法,仿真实例说明研究结果是有效可行的.     

Intelligent Scheduling Controller Design for Networked Control Systems Based on Estimation of Distribution Algorithm

The use of communication networks in control loops has gained increasing attention in recent years due to its advantages and flexible applications. The network quality-of-service （QoS） in those socalled networked control systems always fluctuates due to changes of the traffic load and available network resources, This paper presents an intelligent scheduling controller design approach for a class of NCSs to handle network QoS variations, The sampling period and control parameters in the controller are simultaneously scheduled to compensate for the network QoS variations. The estimation of distribution algorithm is used to optimize the sampling period and control parameters for better performance. Compared with existing networked control methods, the controller has better ability to compensate for the network QoS variations and to balance network loads. Simulation results show that the plant setting time with the intelligent scheduling controller is reduced by about 64.0% for the medium network load and 49.1% for high network load and demonstrate the effectiveness of the proposed approaches.     

具有时延和数据包丢失的网络控制系统状态反馈

针对具有时延和数据包随机丢失的网络控制系统,将系统建模为一类含有服从伯努利分布的随机变量的随机控制系统.在此基础上,利用李亚普诺夫理论和鲁棒控制理论,推导出了状态反馈控制器存在的充分条件,并以线性矩阵不等式的形式给出了使闭环系统指数均方稳定的状态反馈控制器的设计方法.仿真实例说明了所用方法的有效性.     

诱导延时和数据包丢失的广义网络控制系统的建模及其控制

针对广义网络控制系统的延时和数据包丢失问题,在诱导延时时间小于和大于采样周期T、单包传输和多包传输数据包丢失情况下,建立广义网络控制系统的模型并进行相关控制器设计.最后探讨了使网络控制系统稳定所允许的最大延时界限,为实际控制工程中广义网络控制对象的研究提供了理论依据.     

具有不可忽略退出的面板数据混合半参数变系数模型

由于面板数据经常出现由信息性退出而引起的缺失数据,故其统计分析比较复杂。本文假定响应变量服从部分线性半参变系数混合效应模型,其中非参数系数函数依赖于相应的退出时间。利用二步估计方法的思想求得参数与非参数部分的相合估计,减少了同时估计的参数的个数,避免了估计方程中由较多参数引起的多重共线性问题。     

H_∞-based fault detection for nonlinear networked systems with random packet dropout and probabilistic interval delay

The fault detection problem for the nonlinear networked control system(NCS) with packet dropout and delay is investigated.A nonlinear stochastic system model is proposed to account for the NCS with random packet dropout and networkinduced non-uniformly distributed time-varying delay in both from sensor to controller(S/C) and from controller to actuator(C/A).Based on the obtained NCS model,employing an observer-based fault detection filter as the residual generator,the addressed fault detection problem is converted into an auxiliary nonlinear H∞ control problem.Then,with the help of Lyapunov functional approach,a sufficient condition for the desired fault detection filter is constructed in terms of certain linear matrix inequalities,which depend on not only the delay interval but also the delay interval occurrence rate and successful packet communication rate.Especially,a trade-off phenomenon between the maximum allowable delay bound and successful data packet transmission rate is found,which is typically resulted from the limited bandwidth of communication networks.The effectiveness of the proposed method is demonstrated by a simulation example.     

Impulsive controller design for nonlinear networked control systems with time delay and packet dropouts

The globally exponential stability of nonlinear impulsive networked control systems(NINCS) with time delay and packet dropouts is investigated.By applying Lyapunov function theory,sufficient conditions on the global exponential stability are derived by introducing a comparison system and estimating the corresponding Cauchy matrix.An impulsive controller is explicitly designed to achieve exponential stability and ensure state converge with a given decay rate for the system.The Lorenz oscillator system is presented as a numerical example to illustrate the theoretical results and effectiveness of the proposed controller design procedure.     

基于2D模型的网络系统迭代学习控制设计方法

迭代学习控制(iterative learning control, ILC)方法应用于网络控制系统时,由于数据需要在控制器和远程对象间传输经常产生数据丢失现象。给出了一种存在数据丢失时网络系统的随机迭代学习控制设计方法,首先将数据丢失现象描述为随机伯努利序列,在此基础上将迭代学习的控制器设计转化为随机〖JP2〗2D Roesser系统的稳定问题。定义了随机意义下2D系统的均方渐进稳定,基于线性矩阵不等式(linear matrix inequality, LMI)给出一个判别稳定性的条件,该条件同时可实现迭代学习控制器的设计。仿真示例验证了设计方法的有效性。