研究了一类具有死区非线性输入的不确定混沌系统的控制问题。
The tracking problem for a class of uncertain chaotic systems with dead-zone nonlinearity in the input function is considered in this paper.
就发电机发电率约束和调速器死区非线性问题进行了分析建模。
Generation rate constraint and governor dead-band nonlinear problems are analyzed and modeled.
针对电液位置伺服系统中存在参数的时变性、死区非线性等问题,设计了自调整模糊控制器。
Aiming at the problems such as time-variable parameters, nonlinear dead zone of the valve existing in the electro-hydraulic position servo control system, a self-tuning fuzzy controller is designed.
因此我们针对死区非线性特性,采用非线性逆函数的全局I/O线性化方法,提出了具有非线性补偿的广义预测控制算法。
So with the wide I/O linearization method of nonlinear reverse function, the generalized prediction control algorithm with dead area nonlinear compensation is suggested.
船舶运动呈非线性,操作机构有明显的死区、继电等非线性;
The motion of ship is nonlinear. The operating machine has nonlinearity such as dead zone and relay.
并根据仿真模型分析了间隙、死区等非线性因素对系统精确度的影响,提出了改进性能的措施。
According to simulation model the effect of backlash and dead zone nonlinear on system performances was analyzed, and the measures of improving the system performances were put forward.
同时利用仿真模型分析了间隙、死区等非线性因素对系统精确度的影响,提出了提高传动系统性能的措施。
Based on the simulation model, the effect of backlash and dead zone nonlinear factors on the system performances was analyzed, and the measures to improve the system performances were given.
利用仿真模型分析了间隙、死区等非线性因素对系统精度的影响,并给出了提高传动系统性能的措施。
According to simulation model, the effect of backlash and dead zone nonlinear factors on systematic performances was analyzed, and the measures of improving the systematic performances were given.
火电厂炉膛负压控制系统中有时含死区类的强非线性环节,死区使该控制回路产生振荡,仅用常规pid控制器无法克服这一现象。
Sometimes the negative pressure control system of boiler in power plant contains a strong nonlinear sector such as dead-zone which makes the system oscillate.
火电厂炉膛负压控制系统中有时含死区类的强非线性环节,死区使该控制回路产生振荡,仅用常规pid控制器无法克服这一现象。
Sometimes the negative pressure control system of boiler in power plant contains a strong nonlinear sector such as dead-zone which makes the system oscillate.
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