The model I propose consists of four components: a memory, a processor, a connection between the memory and the processor, and an actuator.
我提议的这个模型包含四个组件:内存、处理器、二者间的连接以及执行器。
The working principle of the actuator was analyzed, and a mathematic model of the mechanical system was set up.
对驱动器工作原理进行了分析研究,建立了机械系统的数学模型。
In this paper, the tension bending coupling model is presented by virtual work principle, the effect of the bonding layer between beam and piezoelectric actuator is considered in the analysis.
利用虚功原理,建立了单面粘贴有压电致动器的梁结构的拉伸-弯曲耦合模型,在分析过程中,考虑了梁与致动器之间粘贴层的影响。
A flexural oscillation model about V-shaped silicon electro-thermal micro actuator is presented.
提出了V型电热硅微致动器的弯曲振动力学模型。
The control actuator system model structure and related parameters are determined, and the controller is designed.
进而确定舵机系统模型结构和相关参数,完成了控制器的设计。
A design model was developed for a piezoelectric micro-placement actuator based on the actuation effect of piezoelectric materials.
利用压电材料的正逆压电效应,建立了压电微位移作动器的设计模型。
But the differences of material? Construction and work condition of actuator lead to difficulty of setting up a standard mathematic model to precisely formulate the dynamic non-linearity character.
但由于驱动器的材料、结构和工作条件各异,所以关于动态非线性的定量描述难以建立一个统一的数学模型。
For a class of uncertain linear system, a more practical model of actuator faults than discrete fault model is considered.
针对一类不确定线性系统,采用连续增益故障模型提出了考虑执行器故障的保性能可靠控制问题。
Dynamical performances of actuator of a full power hydraulic brake system were analyzed, and a mathematical model of actuator was set up.
分析了全液压制动系统执行机构的动态性能,并建立了执行机构的数学模型。
According to the available measurement signals of industrial actuator, the universal signal model for industrial actuators is generalized.
从信号的角度出发,将气动执行器的信号模型推广到一种广义信号模型。
The model includes an event-driven controller, a time-driven sensor and actuator. GPC algorithm is adopted in the controller.
针对这个问题,本文介绍了一个控制器由事件驱动、传感器和执行器由时间驱动的分布式系统模型。
Aiming at the characteristic of the wind generation simulator, the mathematic model of actuator of the simulator was built.
针对风力发电模拟器的特点,建立了执行元件的数学模型。
To the control system, The mathematics model of transducers, blade actuator, PI controller to rotate speed, PI controller to the torque, PI controller to the blade angle are established.
对于控制系统,建立了传感器、节距调节器、转速PI控制器、转矩PI控制器、节距PI控制器等的数学模型。
An active control method based on a flexural propagating wave model for a long and thin beam with a piezoceramic actuator is investigated both analytically and experimentally.
从理论和实验两方面研究了基于行波模型的结构梁响应控制方法。
The mathematic model of electromagnetic actuator was introduced briefly, and the performance of actuator was understanded with simulation analysis and test analysis.
简单介绍了电磁作动器的数学模型,通过仿真分析与试验分析了解了作动器的作动特性。
The dynamic mathematic model of the surplus torque in passive loading system isc constructed and the relationship of actuator and surplus torque and i ts dynamic performance are analyzed.
建立了被动式加载多余力的动态数学模型,分析了动力元件与多余力的关系及多余力的动态特性。
The software connection problem between the output of non-model controller and step motor, is discussed using step motor as the actuator of control system.
以步进电机作为控制系统的执行机构,讨论了无模型控制器的输出与步进电机之间的软件连接问题。
The simplest model of a horizontal axis wind turbine (HAWT) is one in which the turbine rotor is replaced by an actuator disk which removes energy from the wind.
水平轴风力涡轮机(HAWT)的最简单模型是:其涡轮机转子由从风力中获取能量的促动盘代替。
The N-S equations with adoption of an actuator disk model are used to simulate the effect of turbo-propeller slipstream on high-lift systems.
螺旋桨模型简化为一个激励盘,即一个无厚度可穿透的圆盘,以给定的圆盘拉力载荷,即压强差来模拟螺旋桨滑流的效果。
The model VTDRY multi spring actuator, has the advantages of low height, light weight, convenient installation advantages repair.
采用新型VTDRY多弹簧执行机构,具有高度低、重量轻、安装维修简便等优点。
This paper introduces a bilinear step response model based on the basic dynamics of an actuator.
根据作动器的动力特性,提出液压伺服作动器阶跃响应的双线性简化模型。
Design of synchronous cycle trig based on internal bus, consensus definition of sensor sampling and actuator timing and precise data transmission model ensured the synchronization performance.
设计了基于内部总线的同步周期触发,定义了一致的传感器、执行器单元执行时序,以及精确光纤链路数据传输模型,确保测控的高同步性。
And an electromechanical model of piezoelectric actuator is presented to demonstrate that charge-feedback control is prominently effective to reduce hysteresis, creep and to improve linearity.
建立了压电作动器的机电模型,证明了电荷反馈控制对于减小回滞现象、提高线性度有明显的作用。
Closed cycle proportion spherical valve pneumatic actuator system is analyzed, and its complete mathematical model is established.
对小型闭环比例气动舵机进行了分析,建立了完整的闭环比例气动舵机数学模型。
Thus the equivalent rigidity model can be used for improved actuator designs of high density optical pickups.
该等效刚度模型对力矩器可动部的设计具有重要的理论指导作用。
This paper focuses on typical actuator housing for airborne equipment. Aninteractive and intelligent computer aided process planning system model is constructed on UGII platform.
针对典型的舵机壳体类零件,在UGII平台上构造了一种交互式、智能化的计算机辅助工艺设计系统模型。
This model also presents the relation between these function parameters and the output of the actuator.
揭示流量、压力等微机械泵性能参数与执行器输出以及负载之间的内在关系。
Firstly, a state space experimental model of flexible plate vibration system with some malfunction connection piezoelectric actuator pairs were identified by the multivariable identification theory.
首先识别出黏贴压电作动器的柔性板振动控制系统的实验模型,接着提出了利用改变压电片对连接数量来模拟作动器驱动故障的方法。
Based on a more practical and general fault model of the actuator, a sufficient condition about reliable tracking control is obtained by the region pole assignment theory.
在更一般、更实际的执行器故障模型的基础上,根据区域极点配置理论。给出了系统输出信号渐近跟踪参考输入信号的可靠跟踪控制器存在的充分条件。
Based on a more practical and general fault model of the actuator, a sufficient condition about reliable tracking control is obtained by the region pole assignment theory.
在更一般、更实际的执行器故障模型的基础上,根据区域极点配置理论。给出了系统输出信号渐近跟踪参考输入信号的可靠跟踪控制器存在的充分条件。
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