企业对累积消费达到一定额度的个人按消费积分反馈礼品。
An enterprise gives gifts to individuals whose cumulative consumption has reached a certain amount on the basis of consumption points.
设计了塔顶甲醇浓度比例积分反馈推断控制、多个温度联合加醛反馈控制、塔顶甲醇浓度反馈增益自调整控制等控制策略。
Several advanced control strategies including top-tray composition inferential PI control, gain scheduling control, and multi-temperature weighting feedback control are designed.
对于离散时间线性系统的输出反馈设计,我们考虑使用预测型降维观测器的积分控制器。
For the output feedback design of discrete-time linear system, we consider the integral controller using prediction type reduced-order observer.
提出了智能积分伪微分反馈控制算法在该控制系统上的应用。
An application of the Intelligent Integration PDF algorithm is proposed in this control system.
然后利用积分反推方法,构造性地设计出了输出反馈稳定控制器、自适应镇定控制器和渐近跟踪控制器。
Then, the output-feedback stable controller, the adaptive output-feedback stable controller and asymptotical tracking controller are constructively designed using integral backstepping approach.
这样不仅可以做到速度的实时反馈和调整,而且由于PI调节器的积分作用,可以使系统在稳态时做到速度无静差。
So it not only achieves the real-time feedback and the regulation of speed but also eliminate the static error of speed due to the integral action of PI regulator when the system is in a steady state.
它由反馈网络、积分电路、单片机化数据采集与数字控制实现,具有良好的动静态性能。
It is achieved the function by feedback, integral circuit, computerisation data acquisition and numeral control with the computer on slice, and provided favourable dynamic and static performance.
目前大多数反馈控制系统的控制器采用比例、积分、微分控制算法(PID)。
Most current feedback systems seem to have been designed around the proportion. Integral and derivative type of control algorithm (PID).
此方案以估计出的位置角为反馈量,采用闭环双积分结构,分别估计了定子磁链的幅值和相位。
The amplitude and phase is estimated respectively through a double integrator close-loop, in stead of vector of flux, with angular and speed as feedback.
本文证明对低于4维的仿射非线性系统,可通过可逆动态状态反馈线性化的系统一定可通过加积分器线性化。
In this paper, we prove that invertible dynamic feedback linearizability is equivalent to linearizability by adding integrators for up to 4 dimensional affine nonlinear systems.
阐述了温室控制中常用的方法,如分步控制、整体控制、反馈控制、比例控制、积分控制、微分控制、前馈控制的特点。
The common control methods, such as step control, integrate control, feed back, proportional, integral, derivative and feed forward, were described.
提出一种满足平方误差积分(ise)最小的闭环反馈稳定PID调节器遗传优化设计方法。
A genetic optimization method of closed loop feedback stabilizing PID regulator with minimal ISE is proposed.
该调速系统以电压负反馈代替转速反馈,形成闭环控制,以比例积分调节器实现无静差调速,具有良好的性能。
It can research PWM regulating speed. In the system, voltage feedback instead of speed feedback, PI regulating no steady-state error. So it has a good dynamic and steady performance.
通过直流电压外环的功率平衡控制及比例积分校正,配合内环并网电流反馈控制,使并网逆变器在保持并网电流质量的同时更好地控制直流电压。
A DC voltage outer loop control for power balance and PI correction and an ac current inner loop control for feedback are designed to ensure the current quality and stabilize the DC voltage.
采用分布反馈式半导体激光器作为光源,通过光源调制实现气体体积分数的谐波检测,显著提高了检测的灵敏度。
Using DFB LD as light source, the detection sensitivity has been greatly improved by light source modulation harmonic measurement.
信号衰减器用于衰减积分信号以输出一衰减信号,而本地反馈电路用于将衰减信号反馈至积分模块中。
The fader is used for fading the integrated signal and outputting a fading signal, and the local feedback circuit is used for feeding the fading signal to the integrator module.
该芯片采用半桥式拓扑结构,由积分器、比较器、驱动输出级以及反馈网络组成。
The designed IC is based on the half bridge topology, and consists of integrator, comparator, output stage and feedback.
通过利用“加幂积分器”的方法构造出了一个部分状态反馈控制律,解决了这类不确定非线性系统的有限时间镇定问题。
Through adding a power integrator, a partial-state feedback law is constructed to solve the finite-time stabilization problem of the nonlinear systems.
本文主要研究自适应桁架结构的振动控制理论和方法,将结构中主动构件的局部弹性内力经过积分和比例反馈控制器运算后,得到主动构件的输出控制力,以实现结构的振动阻尼控制。
This paper presents the results of active damping realized by a piezoelectric active member to control the vibration of a four-bay four-longern aluminum truss structure with cantilever boundary.
本文主要研究自适应桁架结构的振动控制理论和方法,将结构中主动构件的局部弹性内力经过积分和比例反馈控制器运算后,得到主动构件的输出控制力,以实现结构的振动阻尼控制。
This paper presents the results of active damping realized by a piezoelectric active member to control the vibration of a four-bay four-longern aluminum truss structure with cantilever boundary.
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