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mixed fuzzy pid
相关语句
  混合模糊pid
     A Self-Tuning Mixed Fuzzy PID Control for Time-Varying Delay Systems
     时变滞后系统的一种自校正混合模糊PID控制
短句来源
  “mixed fuzzy pid”译为未确定词的双语例句
     The Application of Mixed Fuzzy PID to a DC/DC Converter
     混合式模糊PID在直流变换器中的应用
短句来源
     On the basis of analyzing the theory of soft switch DC/DC converter,a method of mixed fuzzy PID control is used to control close loop output voltage of DC/DC converter in this paper.
     在分析软开关直流变换器原理的基础上 ,采用混合式模糊 PID控制方法对直流变换器的输出电压进行闭环控制。
短句来源
     With MC68F333 as the core and by adopting the control method of SPWM and mixed fuzzy PID control algorithm, this instrument is capable of converting the battery energy into sinusoidal current to be fed into the power grid.
     该装置以 MC68F333单片机为控制核心 ,采用SPWM控制方式和混合型模糊 PID控制算法 ,将蓄电池能量逆变为工频正弦波电流馈入电网。
短句来源
     The comparison is made between regular integral apart PI and mixed fuzzy PID via experiments,whose results proves that mixed fuzzy PID control has the better steady state precision and dynamic performance.
     通过实验对经典积分分离 PI和混合式模糊 PID两种方法进行了比较。 结果证明 ,混合式模糊 PID控制具有较好的动静态性能。
短句来源
     This paper presents a mixed fuzzy PID controller for DC/DC converters. In this control method,only the output voltage of DC/DC converter needs to be measured,and then the control signal is gained from a self-adjusting fuzzy controller paralleled with an intelligent integration link.
     提出了一种用于DC/DC变换器的模糊PID混合控制策略,该方法只需测量DC/DC变换器的输出电压,然后由智能积分环节和自调整模糊控制器并联得到控制量,并且基于8位微控制器PIC16F877实现了这种控制策略。
短句来源
  相似匹配句对
     Fuzzy Mixed Equivalence Relations
     Fuzzy混合等价关系
短句来源
     Fuzzy and Integral Mixed Controller
     模糊与积分混合控制器
短句来源
     L-Fuzzy H-Separation
     L-Fuzzy H-分离性
短句来源
     Fuzzy Subspaces
     Fuzzy子空间
短句来源
     Application of mixed parameter self-adjusted fuzzy PID control
     混合参数自调整模糊PID控制的应用
短句来源
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On the basis of analyzing the theory of soft switch DC/DC converter,a method of mixed fuzzy PID control is used to control close loop output voltage of DC/DC converter in this paper.The comparison is made between regular integral apart PI and mixed fuzzy PID via experiments,whose results proves that mixed fuzzy PID control has the better steady state precision and dynamic performance.

在分析软开关直流变换器原理的基础上 ,采用混合式模糊 PID控制方法对直流变换器的输出电压进行闭环控制。通过实验对经典积分分离 PI和混合式模糊 PID两种方法进行了比较。结果证明 ,混合式模糊 PID控制具有较好的动静态性能。

A new instrument for connecting battery discharge energy to the power grid is presented. With MC68F333 as the core and by adopting the control method of SPWM and mixed fuzzy PID control algorithm, this instrument is capable of converting the battery energy into sinusoidal current to be fed into the power grid. The hardware structure and software modules are described in detail. Suggestions for resolving such problems as system reliability, anti interference and reduction of the impact of...

A new instrument for connecting battery discharge energy to the power grid is presented. With MC68F333 as the core and by adopting the control method of SPWM and mixed fuzzy PID control algorithm, this instrument is capable of converting the battery energy into sinusoidal current to be fed into the power grid. The hardware structure and software modules are described in detail. Suggestions for resolving such problems as system reliability, anti interference and reduction of the impact of discharge energy on the power grid in the development of hardware and software are put forward. The main functions of the instrument and its successful application in a number of power supply bureaus are described.

提出了一种新的蓄电池放电能量并网装置。该装置以 MC68F333单片机为控制核心 ,采用SPWM控制方式和混合型模糊 PID控制算法 ,将蓄电池能量逆变为工频正弦波电流馈入电网。详细描述了该装置的硬件结构和软件模块 ,并提出了在硬件设计和软件开发中对装置可靠性设计、抗干扰措施以及减少放电能量对电网冲击的解决方案 ,最后介绍了该装置的主要功能。该装置现已在多个电业局中投入运行 ,效果良好。

A general Fuzzy-controller cann′t control time-varying delay systems effectively and even have the systems lose their stability. This paper presents a Self-compensating mixed Fuzzy control algorithm for time-varying systems based on the mixed Fuzzy-PID put forward by W.L.Bialkowski in 1983, and put forward a Self-tuning algorithm to tune the integral coefficient K I based on it. It is proved with the simulation of MTALAB and possesses a good control quality, which can be...

A general Fuzzy-controller cann′t control time-varying delay systems effectively and even have the systems lose their stability. This paper presents a Self-compensating mixed Fuzzy control algorithm for time-varying systems based on the mixed Fuzzy-PID put forward by W.L.Bialkowski in 1983, and put forward a Self-tuning algorithm to tune the integral coefficient K I based on it. It is proved with the simulation of MTALAB and possesses a good control quality, which can be suitable to systems with time-delay and time-varying parameters. But it can be realized easily in engineering.

普通模糊控制不能对时变滞后系统进行有效控制 ,甚至使系统失去稳定 .在 W.L.Bialkowski 1 983年提出的混合模糊 PID控制器的基础上 ,提出了一种自补偿混合模糊 PID控制器 ,并在此基础上提出了一种对积分系数 KI进行自校正的算法 .经 MATLAB仿真验证 ,该算法具有良好的控制品质 ,适应对象参数大范围变化的时滞系统 ,且易于工程实现 .

 
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