differential controller
英 [ˌdɪfəˈrenʃl kənˈtrəʊlə(r)]
美 [ˌdɪfəˈrenʃl kənˈtroʊlər]
网络 差动控制器
双语例句
- Differential preceding PID controller based on PLC for main-steam temperature control
基于PLC的火力发电机组主汽温微分先行控制器 - Control and synchronization of a continuous chaotic system with a proportional and differential controller
一类连续混沌系统的比例微分控制与同步 - The Research of Incomplete Differential PID Controller Based on FPGA
不完全微分PID控制的FPGA的研究 - The principle of work and proportional regulation characteristics of differential pressure controller ( DPC) are analyzed.
分析了压差控制器的工作原理和比例调节特性。 - Aim To resolve the shortages of traditional PID ( Proportion Integral Differential) controller which has no strong ability.
目的解决传统PID控制器对时变系统控制能力不强的弊病。 - Making full use of high order differential information extracted, an adaptive high order differential feedback controller is proposed, which does not depend on the model of SISO nonlinear affine system to a certain extent.
利用提取的系统高阶微分信息,提出了自适应高阶微分反馈控制器.某种程度上该控制器不依赖于单输入单输出(SISO)非线性仿射系统的模型。 - Further more, based on the estimator a high order differential feedback controller is designed, which does not rely on the model of the nonlinear system, and has well stability and robustness.
另外,基于所提出的估计器,本文设计了不依赖非线性系统模型的高阶微分反馈控制器.该控制器稳定性好,鲁棒性强。 - By the real-time adjustment of proportion parameter, integral parameter, differential coefficient and fuzzy controller parameter, we can optimize the response curve of system.
通过实时对PID控制器的比例参数、积分参数、微分参数以及模糊控制器参数的在线调节,实现对系统响应曲线的优化。 - This paper presents the neuron differential forward PID controller that is derived from differential forward PID algorithm. Simulation research has been made by using the MATLAB/ SIMULINK software of this control method applied to an electric oven.
文中给出从微分先行PID算法派生出的神经元PID控制器,并利用MATLAB/SIMULINK仿真软件对该控制器在电加热炉中的应用进行仿真研究。 - Quarter-car model was set up in the form of differential equations and fuzzy logic controller was designed to control vehicle active suspension with EHA. Under a certain of road given, simulations were done.
同时,建立了1/4汽车主动悬架动力学模型,设计了用于EHA主动悬架的模糊控制器,并进行了仿真和实验研究。 - A New Differential State Estimator and Controller for Nonlinear Stochastic System
一类新型非线性随机系统微分状态估计器和控制器 - The on-line adjustments of the coefficients of proportion, integral and differential of the classical PID controller were realized by means of the self-study of the neurons, allowing the adaptive control for the power-matching of the hydraulic excavator.
该控制器通过神经元的自学习,对传统PID控制器的比例、积分、微分系数进行在线调整,实现了挖掘机功率匹配自适应控制。 - Based on the importance of extracting differential signal in industry and aerospace control, an adaptive high order differential feedback controller ( AHODFC), which is capable to extract high-quality differential signals and can be applied to AC adjustable-speed system with varying frequency, is presented.
基于提取微分信号在工业控制及航天控制中的重要作用,介绍了一种可提取高品质微分信号的自适应高阶微分反馈控制器(AHODFC),并将其应用于交流调速系统中。 - Finally, a comparison is made with conventional PID ( proportional integral differential) and fuzzy controller respectively.
最后和常规PID、模糊控制做了比较。 - This paper analyzes the running characteristic of group air-compressor linked control system and rebuild the system with self-made electronic two position differential adjustable controller overcame the shortcoming of former system, achieved the reconstructive object.
本文分析空压机原联动控制系统的运行特点,对系统进行改造,利用自制电子式两位差动可调控制器取代压力控制器,克服原系统的缺陷,达到了改造的目的。 - Research on a Differential Torward PID Controller Based on Neuron Network
基于神经网络的微分先行PID控制器的研究 - Analysis the normal problems in existing chilling water system at first, then emphasize on the structure, function, main types, features of differential pressure controller and how to correctly use it in real systems.
本文首先分析了暖通空调水系统中普遍存在的问题,然后重点介绍了压差控制阀的结构特点、功能、主要类型,以及如何正确应用及其所带来的益处。 - The tuning rules of PID ( Proportional Integration Differential) controller parameters are studied for the controlled object with and without common nonlinearity.
主要研究不带常见非线性和带有常见非线性被控对象,在比例、积分、微分PID(ProportionalIntegrationDifferential)控制系统的参数变化规律。 - PID tune-up controller based on three layers BP network is that the output state of neural cells of output layer is matched to the parameter of proportion, integral, and differential coefficient of PID controller.
基于三层BP网络的PID的整定控制器,将输出层神经元输出状态对应于PID控制器的比例、积分、微分参数。 - For implementation of high quality control of complex process with long time delay and large inertia, a multi-purpose optimal algorithm has been put forward on the basis of improving neural network proportional, integral and differential ( PID) controller.
为了适用大滞后、大惯性复杂过程的高质量控制,对神经网络PID控制器进行了改进,提出了多目标优化算法。 - Design and evaluation of the differential fine controller for flowmeters
流量计用差动精调器的设计与分析 - By using a new-type nonlinear proportional integration differential ( NLPID) controller for feedback control, and in combination with the feedforward control of neural network, conventional control system for main steam temperature is ameliorated and its adaptability and robustness enhanced.
利用一种新型非线性比例积分微分(NLPID)控制器进行反馈控制,并与神经网络前馈控制相结合,对传统的主蒸汽温度控制系统进行改进,以提高其适应性和鲁棒性。 - 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。 - PID ( Proportional, Integral and Differential) controller is used widely in kinds of industry circumstance for its simple structure, easy implementation and strong robustness.
PID控制器因为结构简单、容易实现,并且具有较强的鲁棒性,因而被广泛应用于各种工业过程控制中。 - The differential forward PID controller is one of the perfect PID controller's improved methods, which is fit to the condition of input frequent changes.
微分先行PID是理想型PID改进中的一种,它适合于给定值频繁变化的情况。 - The simulating results indicate that compared with the proportional integral differential controllers, the fuzzy controller has conspicuous advantages in improving dynamical and static performance of pressure and level control system of pressurizer.
仿真结果表明,与传统的比例-积分-微分控制器相比,模糊控制器在提高稳压器压力、水位控制系统的动态和稳态性能方面具有明显的优点。 - Research on a neuron differential forward PID controller
神经元微分先行PID控制器的研究 - Based on MATLAB/ SIMULINK, the dynamic characteristics of magnetic bearing control system with differential PID controller and three-level PWM amplifier is simulated and compared to the conventional PID controller with two-level PWM power amplifier.
利用MATLAB/SIMULINK,对采用微分先行PID和三电平的脉宽调制功率放大器控制的磁力轴承的动态特性进行了仿真,并与传统的PID控制器采用两电平的脉宽调制功率放大器的方法进行了对比。 - Based on Hamilton-Jacobi-Bellman equation, the problem of constructing the optimal controller comes down to the problem of solving the partial differential equations. The optimal controller is obtained through constructing Lyapunov function.
基于哈密顿-雅可比-贝尔曼方程将构建最优控制器问题归结为解偏微分方程问题,通过巧妙构造Lyapunov函数从而得到最优控制器。 - Whereas his controller is to be further enhanced, this paper originally applies the differential geometric theory for designing controller.
鉴于其所设计控制器的性能有待进一步提高,本文首次将微分几何理论应用到这种变换器的控制器设计中。