我们把两个完美的微分器串联起来。
并采用跟踪-微分器对信号进行了滤波。
The scheme also adopts tracking differentiator to filter the signal.
证明了一种阶线性跟踪-微分器的收敛性。
An N-order tracking differentiator is put forward, then its convergence is proved.
提出了一种理想数字分数微分器系数的快速算法。
A new fast algorithm for calculating the coefficients of ideal digital fractional differentiator is presented.
首先对非线性PID方法的基础元件——跟踪微分器进行了改进,以提高其性能。
Tracking differentiator as an elementary unit for nonlinear PID technology is improved so that it can yield better differential signal.
同时用非线性跟踪-微分器代替差分法来提取微分信号,提高了微分信号的品质。
Meantime, differential signal is distilled by nonlinear tracking-differentiator instead of the method of difference, which improves the quality of differential signal.
电路输出可以作为标准信号,用来校准医用微分器,作生理电脉冲波形变换的研究。
The output of the oscillator can be used as a standard signal for calibration of the differentiator to employ in research on the transformation of physiological pulse wave forms in medical science.
为实现永磁同步电机的状态在线估计,采用一种新型带有微分器的高阶滑模控制技术。
The high order sliding mode control is designed to avoid chattering problem which exists in traditional sliding mode.
提出了一种正弦基函数神经网络模型,给出了海尔·伯特变换器与微分器优化设计实例。
A sine basis function model is introduced, bringing forward an example of Hilbert convertor and differentiator optimal design.
自抗绕控制器由三部分组成:跟踪微分器、扩张状态观测器和非线性状态误差反馈控制律。
The auto-disturbance rejection controller is composed of three parts: tracking-differentiator, extended state observer and nonlinear state error feedback control law.
针对几种传统的跟踪-微分器存在的缺点,构造了一种简洁的离散快速无振荡跟踪-微分器。
Considering the shortcomings of some commonly used Tracking-Differentiators (TD), a terse, discrete, high-speed TD without chattering was constructed.
从积分器、微分器和传递函数等框图中创建模型,然后加入图形和控件对这些模型进行测试。
Create models from blocks such as integrator, derivative, and transfer function blocks, and then add graphs and controls to test out the models.
提出了一种基于神经网络算法的线性相位微分器优化设计方法,给出了线性相位微分器的优化设计实例。
The optimum design method and example on the linear phase differentiator based on the neural networks algorithm are presented.
文章基于非线性跟踪微分器、非线性度变换以及PID校正的思想,构造了一种新的非线性PID控制结构。
This paper proposes a new nonlinear PID model of valve controller based on nonlinear tracking-differentiator, nonlinear norm and PID adjustor.
在一个采样时间不固定,且采样信号带有噪声的应用实例中,采用变步长的跟踪微分器加预报的方法得到了较好的结果。
In a practical example, a good result is obtained by the adoption of step-varying TD and predicting under the condition of sampled signal with noise and sampled time varying.
在一个采样时间不固定,且采样信号带有噪声的应用实例中,采用变步长的跟踪微分器加预报的方法得到了较好的结果。
In a practical example, a good result is obtained by the adoption of step-varying TD and predicting under the condition of sampled signal with noise and sampled ti...
本文利用数字梯形滤波器的设计原理,以离散微分器作为积木块,利用频率变换方法,设计出数字LDD梯形高通滤波器。
Based on the design fundamental of digital LDI ladder filter, a digital LDD ladder high-pass filter is designed by using the frequency transformation in this paper.
“利用跟踪微分器构造未知函数的寻优器及求根器,”韩京清,侯增广,控制与决策,第15卷第3期,2000年5月。
"Tracking Differentiator Approaches for Solving Optimization Problems and Finding Roots of Algebraic Equations," Jingqing Han, Zengguang Hou, Control and Decision, Vol. 15 No. 3, May 2000.
首先给出了一种三阶线性跟踪微分器的结构形式,然后从连续和离散两个方面证明了其收敛性,为其实际应用提供了理论依据。
A third-order Tracking differentiator is presented, then it's convergence is proved from two aspects-continuity and discrete, and which is a theoretic base for its application.
这个例子展示了lsode的用法,这是一个常见的微分方程解算器。
This example demonstrates the use of lsode, an ordinary differential equation solver.
微分区是一个强大的特性,它允许您最大效率地利用处理器资源。
Micro-partitioning is a powerful feature that allows you to leverage your processor resources with maximum efficiency.
这种控制器的设计结合了微分几何理论及变结构控制理论。
Design of these controllers combines the differential geometry theory with the variable structure control theory.
微分动作(字母d表示)测量并对过程信号变化率进行反应,调整控制器的输出以达到最小的突出峰。
Derivative action (referred to by the letter d) measures and responds to the rate of change of process signal, and adjusts the output of the controller to minimise overshoot.
把非线性系统的微分几何理论与混沌系统的同步控制目标相结合,设计了蔡氏电路混沌系统的标量混沌信号同步控制的非线性反馈控制器。
Combining the nonlinear control system theory and the aim of chaos synchronization, we designed a nonlinear feedback controller for synchronizing the scalar output signal of Chua's Circuits system.
理论研究导出了用微分功率输出监控半导体激光器端面减反射膜制备的主动监控法的两条原则。
Two principles have been proposed for the active monitoring method, adopted to the AR Coating semiconductor lasers and based on detecting the derivatives of the outputs from the facets to be coated.
基于压电陶瓷的逆压电效应,采用压电陶瓷作为光相位调制器设计了光纤微分干涉仪。
A piezoelectric ceramic, based on the converse piezoelectric effect, was used as optical phase modulator to design a fiber differential interferometer.
利用比例微分控制器对系统的混沌行为进行了有效的控制。
The chaos of the system is controlled by means of the proportional and differential controller.
利用比例微分控制器对系统的混沌行为进行了有效的控制。
The chaos of the system is controlled by means of the proportional and differential controller.
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