On the Design of Observer for Nonlinear Time‐Delay Systems

This paper suggests a new method to design observers in a class of nonlinear time‐delay systems with delays in system states. The method is based on an extension of the well‐known state‐dependent Riccati equation (SDRE) technique. The conditions for locally asymptotic stability of the proposed observer are investigated. Some numerical simulations are provided to show the design procedure and the flexibility of the proposed observer.     

An Adaptive and Optimized Switching Observer for Sensorless Control of an Electromagnetic Valve Actuator in Camless Internal Combustion Engines

In this paper, the design and operation of a special electromagnetic actuator as a variable engine valve actuator are presented. Further, this paper describes a feasible approximated velocity switching estimator based on measurements of current and input voltage to achieve sensorless control. The proposed concept allows a reduced‐order observer to be conceived and yields a specific control strategy with an acceptable performance. In general, this approach represents a viable strategy to build reduced‐order observers for estimating the velocity of systems through the measurement of input current and voltage. The robustness of the velocity tracking is explored using a minimum variance approach. The effect of the noise is minimized, and the position can be achieved through an adaptive and optimized structure by combining this particular velocity estimator and an observer based on the electromechanical system. Position control is achieved through an inversion of the model. This approach avoids a more complex structure for the observer and yields an acceptable performance as well as eliminating bulky position‐sensor systems. In addition, a control strategy is presented and discussed. Computer simulations of the sensorless control structure are presented in which the positive effects of the observer with optimized parameter setting are visible in the closed‐loop control.     

马尔可夫跳变系统的鲁棒故障检测与时域优化

研究马尔可夫跳变系统(MJS) 鲁棒故障检测滤波器(FDF) 的设计与优化问题. 基于观测器构建残差发生器, 将相应的FDF 设计问题转化为H_∞ 滤波问题, 以LMI 的形式得到并证明了FDF 存在的充分条件及求解方法. 为进一步改善故障检测系统的性能, 采用一种时域优化方法对其进行优化, 并以矩阵Moore-Penrose 逆的形式给出了该优化问题的最优解. 数值仿真表明该方法具有较好的检测效果.     

Observer‐based H ∞ output tracking control for networked control systems

This paper is concerned with observer‐based H _∞ output tracking control for networked control systems. An observer‐based controller is implemented through a communication network to drive the output of a controlled plant to track the output of a reference model. The inputs of the controlled plant and the observer‐based tracking controller are updated in an asynchronous way because of the effects of network‐induced delays and packet dropouts in the controller‐to‐actuator channel. Taking the asynchronous characteristic into consideration, the resulting closed‐loop system is modeled as a system with two interval time‐varying delays. A Lyapunov–Krasovskii functional, which makes use of information about the lower and upper bounds of the interval time‐varying delays, is constructed to derive a delay‐dependent criterion such that the closed‐loop system has a desired H _∞ tracking performance. Notice that a separation principle cannot be used to design an observer gain and a control gain due to the asynchronous inputs of the plant and the controller. Instead, a novel design algorithm is proposed by applying a particle swarm optimization technique with the feasibility of the stability criterion to search for the minimum H _∞ tracking performance and the corresponding gains. The effectiveness of the proposed method is illustrated by an example. Copyright © 2013 John Wiley & Sons, Ltd.     

带有传感器故障的模糊时滞系统的容错控制

针对一类连续非线性时滞系统,在状态不完全可测的情况下,研究了带有传感器故障的容错控制问题。采用T-S模型对非线性系统进行模糊建模,通过构造广义系统设计了观测器,同时估计出系统的状态与故障,进一步利用平行分布补偿算法（PDC）设计基于观测器的模糊容错控制器,给出了保证该模糊容错控制系统稳定的充分条件。仿真例子进一步验证了所提出方法的有效性。     

HP nonlinear guidance law design based on smooth sliding mode control

To eliminate the perturbation of interceptor detection induced by aerodynamic heating,the head pursuit (HP) guidance law for three-dimensional interception was presented. The guidance law positioned the interceptor ahead of the target on its flight trajectory,and the speed of interceptor was required to be lower than that of the target. On the basis of a novel head pursuit three-dimensional guidance model,a nonlinear guidance law was developed based on smooth sliding mode control theory. At the same time,a special observer was designed to estimate the target acceleration,and a numerical example on maneuvering ballistic target interception verified the effectiveness of the presented guidance law.     

基于偏微分方程的条码预处理

由于受到条码采集设备的限制,图像中经常混有很多噪声,导致出现误码．引入了基于偏微分方程（PDE）的Perona—Malik模型,并对Perona-Malik模型的缺点进行了算法改进,给出了一种针对条码图像去噪的方法．通过合理地设计和选择参数,得到了比较令人满意的结果．     

基于虚拟弹簧的欠驱动手指的动力学建模和控制

采用虚拟弹簧对2关节欠驱动手指进行了动力学建模。并使用该方法建立实际的3关节欠驱动手指的动力学模型,通过动态控制实验验证了动力学模型的正确性。该方法不仅避免了求解微分几何方程,并且直接派生出可解耦的动力学模型。可直接进行逆动力学分析、仿真和实时控制。同时,建立了基于动力学模型的速度观测器,用于轨迹跟踪,弥补了欠驱动手没有速度传感器的缺点,补偿了欠驱动环节造成的不确定因素。与PID或计算力矩法相比较,其轨迹跟踪误差更小,动态控制效果更好。     

基于随机滤波器的无位置传感器SMPM电机磁通辨识

用随机滤波器对无速度传感器的交流永磁电机的转子磁通进行观测.观测过程中为了降低计算量,采用参数的混合辨识方法,把滑模观测器引入磁通辨识系统,代替位置传感器对转子位置和速度进行估计.用Matlab7.0建立离线辨识模型,仿真分析了转子磁通估计值与实际值之间的误差,以及磁通估计值随负载转矩大小的变化情况.     

一类非线性时滞系统的鲁棒H_∞混杂状态观测器设计

研究一类基于切换的非线性时滞系统的鲁棒状态观测器的设计问题.在系统存在有限个备选的状态观测器,并且每一个单一的观测器均不是系统的鲁棒H∞观测器的假设下,针对状态观测器增益矩阵全部已知或全部未知的2种情形,分别利用单Lyapunov函教技术和多Lyapunov函数技术,设计出状态观测器间的切换律,并获得了保证误差系统渐近稳定和H∞范数有界的2个充分条件.且当增益矩阵全部未知时,给出了增益矩阵的显式表达.