It can display instantaneous and cumulative flow division simultaneously, and regulate flow by controlling parameter in order to achieve close-loop control of pressure in high-pressure pipe network.
并且可以实时显示瞬时和累计的分流流量,并可自由地对控制参数进行调节,以实现高压管网压力的闭环控制。
Control parameter gotten by dynamic neural network is used to control the model's output in simulation. The result concludes that the controller can get better control result.
在仿真试验中用动态神经网络所得到的控制算法对模型的输出进行跟踪控制,从仿真结果图可以看出这种控制器能获得较好的控制效果。
Finally, a test platform is built to test the prototype system in terms of remote control, network security and network parameter configuration.
本文最后搭建了一个测试平台,从远程控制、网络安全性和参数配置三方面对原型系统进行测试。
Each subsystem is designed using adaptive control with neural network compensation. The stability of the system is guaranteed by the proposed parameter and weight turning law.
各控制子系统的设计采用自适应控制和神经网络相结合的方法,所提出的参数和权重的自适应调整律保证系统的稳定性。
A method to build hierarchical network plan was presented and the compatibility between document flow and control flow was analyzed. Time parameter of hierarchical network plan was also computed.
给出了建立分级网络计划的方法,分析了文档流与控制流的相容性,并计算了分级网络计划的时间参数。
The coordinated control system has dynamic characteristic of nonlinear, varying parameter. Utilizing nonlinear mapping-capability of neural network solves these problems well.
利用神经网络的非线性映射能力,能很好地解决负荷协调控制对象的动态特性具有非线性、时变性、参数可变等问题。
Using the capacity of arbitrary nonlinear expressiveness, neural network can help to achieve the best control through learning systemic performance and adjusting automatically PID parameter.
利用神经网络的任意非线性表达能力,通过对系统的学习来调整PID参数,实现最优的PID控制。
In this paper, according to nonlinear and time-varying parameter of ship maneuvering, the scheme of neural network adaptive PID control is proposed.
本文针对船舶操纵这种非线性、时变参数控制对象,提出了一种采用神经网络自适应PID控制方案。
Hydraulic control valve and transducer connected to the host computer through a wireless network. The drilling parameter of test equipment could be monitored and controlled automatically by computer.
并且也将液压控制阀和变频器通过无线网络与电脑主机相连,达到了无线检测与控制钻进参数的目的。
Hydraulic control valve and transducer connected to the host computer through a wireless network. The drilling parameter of test equipment could be monitored and controlled automatically by computer.
并且也将液压控制阀和变频器通过无线网络与电脑主机相连,达到了无线检测与控制钻进参数的目的。
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