This paper presents a new method for adaptive Power System Stabilizer (PSS) design in frequency domain.
本文提出了一种自适应电力系统稳定器设计的频域方法。
A digital power system stabilizer (DPSS) and its design method are presented in this paper.
本文提出了一种数字式电力系统稳定器(DPSS)及其设计方法。
This paper provides theory basis for the design of rotary steering stabilizer.
可以为旋转导向稳定器的设计提供理论依据。
By applying man's intelligence, a design method of intelligent variable structure stabilizer for power system was proposed on the basis of variable structure control theory.
依据变结构控制理论并运用人的智能,提出了智能变结构电力系统稳定器的设计方法。
This paper presents a new approach for real-time tuning the parameters of a conventional power system stabilizer using the wavelet neural network, which is used to design the stabilizer.
提出一种应用小波神经网络进行动态实时调整传统电力系统稳定器参数的设计方法。
As a result, theoretical basis to improve the design of double pump single circuit stabilizer valve bare been provided.
这一结果为双泵单路稳流阀改进设计提供了理论依据。
Later, researchers found out that movement of the stabilizer apparatus of the launcher was due to its frame structure design.
稍后,研究员发现发射装置的稳定装置的运动是由于它的框结构设计。
The research results in the dissertation can be used in engineering design of fault diagnosis and fault-tolerant control of fin stabilizer systems.
本文的研究工作可为减摇鳍故障诊断与容错控制工程设计应用。
Actual operation shows that, using the stabilizer can secure the concentration ratio in the process and corrosion speed and meet the design requirements.
现场实际运行结果表明,该水质稳定剂能保证该系统运动时的浓缩倍率及腐蚀速率满足设计要求。
Lastly, design the digital control part of the fin stabilizer relying on the actual demand of the system, and analyze the experimental data of static loading experiments.
最后,结合实际系统的要求,设计了减摇鳍加载系统的数字控制部分,并对静态加载实验所获得的数据进行了分析。
The main work of this dissertation is to design the Electro-servo system of Fin-Stabilizer , and to study the controller of the system by experiment.
本论文就是基于某小型无人飞机起落架伺服加载系统的预研项目,对电动伺服加载系统作了较深入的分析和研究,提出了一些有效的控制方法。
The main work of this dissertation is to design the Electro-servo system of Fin-Stabilizer , and to study the controller of the system by experiment.
本论文就是基于某小型无人飞机起落架伺服加载系统的预研项目,对电动伺服加载系统作了较深入的分析和研究,提出了一些有效的控制方法。
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