The PID adjuster of integration separation mode has been used in this system, which have good responsive speed and adjust property in the range of welding current.
系统采用积分分离式变参数PID调节器,在焊接电流调节范围内,具有良好的响应速度和调节性能。
The system can use computer technology to implement PID control with good applicability and flexibility, which can adjust PID parameters according to the system performance command.
系统采用计算机技术实现PID控制,可以根据系统性能指标调整PID参数,具有良好的适用性和灵活性。
The conventional PID control system was not very suit for this type of system, because the conventional PID control can't accomplish online auto-tuning PID parameter adjust.
常规的PID控制对于这样的系统的控制效果不是很理想。 这是因为常规PID不能根据现场的情况进行在线自我调节参数。
Finally, this paper presents an improved model of the magnetic chain, using a single neural network PID controller to adjust the stator flux, and set up the corresponding flux estimation model.
最后本论文提出了一种改进的磁链模型,引入了单神经元网络PID控制器来调节定子磁链,并建立了相应的磁链模型。
By using ability of fuzzy reasoning, realize at-line adjust to PID controller parameter, to achieve optimize control.
利用模糊控制器的模糊推理能力来实现PID控制器参数在线调整,以达到优化控制的目的。
Apply fuzzy self-adaptive PID controller to control the DC timing system and design three self-adaptive PID controllers which adjust the PID parameters respectively in real-time way.
利用模糊自适应PID控制器对直流调速系统进行控制,设计了三个自适应模糊控制器分别实时调整PID参数。
Conventional PID is still used to adjust error in control algorithm and is improved.
控制算法仍然采用常规pid调节偏差控制并对其进行了改进。
Fuzzy controller for parameters adaptation of PID controller is a more advanced controller in industrial control at present, because it employ fuzzy logic reference to adjust PID parameters on line.
PID参数自适应模糊控制器将模糊逻辑推理引入PID参数的在线自调整,是目前一种较为先进的控制器。
Recursive least square method was used to adjust the parameters of the PID controller, which was applied in three-element control system of boiler drum level.
利用递推最小二乘法循环调整P ID参数,并将该控制器应用于锅炉汽包水位三冲量控制系统。
We will use the fuzzy theory to the application of the PID controller design, and produced the fuzzy PID controller design method, in which the parameters might adjust.
我们将模糊控制理论应用于PID控制器的设计,给出了参数可调整的模糊pid控制器的设计方法。
The network is used to remember adjusting rules of PID parameters by learning so the network can adjust PID parameters on line by rules.
该网络通过学习记忆PID参数调整的基本规则,实现了PID控制器参数的在线调整。
This paper applies PID with intelligent integral separation to adjust the pressure of the working gas.
本文采用带积分分离的智能PID控制算法对工作气体压力进行调节。
Based on exact study on the working theory and effect factors, PID with intelligent integral separation is applied to adjust the pressure of the working gas.
在深入研究激光器工作原理和影响激光输出功率因素的基础上,采用带积分分离的智能PID控制算法对工作气体压力进行调节。
Based on the experimental results to adjust PID parameters to obtain good control.
根据实验结果来调整PID参数,从而获得良好的控制效果。
Aim at special principle of the pressure-up machine, introduce a FUZZY-PID complex controller to adjust the gas pressure automatically.
针对加压机较为特殊的工作原理,采用模糊PID复合控制算法对加压机进出口阀门进行分程控制,来实现煤气压力的自动调节。
Temperature control mode: Inlet temperature controller, intelligent PID temperature control, stable and reliable, and be capable to adjust operating parameters based on operation environment.
通过温度控制器调节温度的上限值和下限值,可使工作台在合适的温度范围内进行工作。
Firstly, it is the variable parameter PID which is able to adjust PID parameters online to improve the control performance through non-linear function according to the bias;
第一种,引入非线性函数根据偏差大小在线调节PID参数来提高控制性能的变参数PID;
Steady and dynamic performance of this system can be improved obviously with a correction factor to adjust to the fuzzy rules of fuzzy controller to replace the traditional PID controller.
用一种带修正因子对模糊规则进行调整的模糊控制器取代传统的PID控制器,能明显改善系统的稳态和动态性能。
The performance of NCS using PID control decreases for PID controller doesn't have self-adaptive ability to adjust control parameters with variable time-delay and system parameters.
PID控制器在各种工业过程控制中显示出很多优点,但其无自适应能力,当网络时延和系统参数发生变化时不能调整控制参数,使系统性能下降。
Fuzzy control is used to adjust the parameters of PID control on-line, accordingly it can make static and dynamic performance index comparatively ideal.
利用模糊控制在线自适应调整PID控制器的参数,从而使系统的静态和动态性能指标较为理想。
DRNN is used to adjust the parameters of PID control on-line, accordingly it can make static and dynamic performance index comparatively ideal.
利用对角递归神经网络在线自适应调整PID控制器的参数,从而使系统的静态和动态性能指标较为理想。
Through analyzing the dynamic and static characteristics, the author regulates system by using PID control strategy and uses Cut & Try method to adjust the parameters of PID controller.
在对系统的动静态性能分析的基础上,采用PID控制策略校正系统,运用试凑法整定PID控制参数。
In this paper, the fuzzy controller of PID parameters self-adjustment is proposed, it can automatically adjust PID parameters according to ship dynamic feature.
由于传统的PID调节器的操纵性能不能令人满意,故本文提出一种应用模糊推理功能实现PID参数自整定的控制。
The main techniques are: multithread technique to parallel handle three task of user interface, thyristor digital trigger and adjust PID parameter automatically;
主要技术包括:多线程技术并行处理用户交互、晶闸管数字触发、PID参数的自整定等任务;
The main techniques are: multithread technique to parallel handle three task of user interface, thyristor digital trigger and adjust PID parameter automatically;
主要技术包括:多线程技术并行处理用户交互、晶闸管数字触发、PID参数的自整定等任务;
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