In this paper, T-S fuzzy controller is applied to the single inverted pendulum system, which illustrate effectiveness of the stability design method.
同时给出t - S模糊控制器应用于单倒立摆系统的一个实例,并用文中的稳定性分析方法分析它的系统稳定性。
The problem of quadratic stability and controller design for T-S fuzzy systems is studied using the linear matrix inequality(LMI)methods.
应用LMI(线性矩阵不等式)方法,研究了T-S模糊系统二次稳定性及控制器设计问题。
An inverted pendulum example of non-fragile controller design of uncertainty T-S fuzzy systems shows the feasibility and the effectiveness of the method.
通过对一级倒立摆的不确定模糊非脆弱控制器设计的实例,表明了设计方法的可行性和有效性。
As for a class of T-S fuzzy descriptor systems with norm-bounded uncertainties, the design problem of observer-based passive fuzzy controller was studied.
针对一类范数有界不确定性t - S模糊广义系统,研究了其在满足不确定性的基于观测器的无源控制器的设计问题。
A design of T-S model based fuzzy controller for nonlinear system with uncertain time-delay was proposed.
讨论了一类由T - S模糊模型表示的不确定时滞非线性系统的模糊控制器设计问题。
The emphasis is placed on the design of the fuzzy controller, the method of determining system′s gain parameter and the method of realizing BP neural network.
重点研究了模糊控制器的设计、系统增益参数的确定方法和BP神经网络的实现方法。
A new design scheme of adaptive fuzzy controller is proposed based on the model reference adaptive fuzzy control (MRAFC) and Lyapunov s second method.
基于模型参考自适应模糊控制和李亚普诺夫第二方法,提出了一种自适应模糊控制器设计的新方案。
By analyzing the timing of the controlled objection, the controller's behavioral statement can been abstract and its state can been carved up too. Based on it, design the ADC0809's controller.
通过对控制器控制对象的时序分析,抽象出控制器的行为描述,并划分控制器的状态。
Using DSP as the core processor, the paper completes the controller 's software and hardware design.
用DSP作为行驶控制器的核心器件完成了控制器的软硬件设计。
Using DSP as the core processor, the paper completes the controller 's software and hardware design.
用DSP作为行驶控制器的核心器件完成了控制器的软硬件设计。
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