智能采样控制方式能够很好的实现带有大延迟环节的系统控制。
Method of intelligent sampling control is very useful for controlling the time delay system.
介绍了用智能采样、模糊控制来实现弹簧垫圈定量自动包装自适应少节拍、无波纹控制的方法。
The method of using Intelligent Sampling Unit and fuzzy control to achieve the adaptive unripple control in spring washer packing, is described.
对于可以用延时二阶模型来拟合的过程,使用一种智能采样技术,结合阶跃下降法,实现了对实时过程的在线模拟。
An intelligent sampling technique coupled with the steepest descent method is implemented for on-line estimation of the process, which can be approximated by a second-order model with time delay.
介绍了一种大气采样的现代仪器一智能化大流量采样器。
Introduced a kind of modern instrument for air sampling-big flow collective instrument of intelligence.
基于误差lms,提出了交流电力智能传感器的一种功率测试方法,在对关键采样点作基于误差lm S线性估计的基础上对该方法进行了改进。
For AC power smart sensor, a power test method is proposed based on error LMS principle. Some key sample points are estimated linearly based on error LMS which are improved.
智能型真有效值电压监测仪,采用AT89C52单片机,在一个周期内对电网电压等间距采样N次。
Singlechip AT89C52 was adopted by intelligent real available value voltage-monitoring apparatus to sample N times for the electrical network voltage between equal spaces in one cycle.
仪器由微电脑控制,具备操作可靠、采样数据准确、智能化程度高特点。
It's controlled by microcomputer with some characteristics, such as operating easy. sampling data exact and intellegence high.
通过计算机对接收机增益进行智能化控制,既避免了放大器饱和,又使得采样的量化误差最小。
The smart gam-control of the receiver not only avoids the amplifier saturation, but also minimizes the discrete error.
为解决现有电力载波通信系统中线路阻波器、结合滤波器的性能测试方法中存在的问题,提出了一种集自动测试、高速采样和数据处理于一体的新型智能式测试系统方案。
The measurement and examination of wave trap coil and coupling filter used for power line carrier communication system are an important part to ensure the electric power system operating normally.
采用智能型五孔球探针测试技术及等动采样方法 ,对两种新型旋风管排尘结构内的流场及颗粒浓度场进行测量。
The flow field and the particle concentration distribution were measured in the two types of dust-exhaust structure of cyclone tube.
采用智能型五孔球探针测试技术及等动采样方法 ,对两种新型旋风管排尘结构内的流场及颗粒浓度场进行测量。
The flow field and the particle concentration distribution were measured in the two types of dust-exhaust structure of cyclone tube.
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