State feedback is a kind of very important control law in the modern control theory.
状态反馈是现代控制理论中一种非常重要的控制规律。
Researches concerning the stabilization by state feedback of the system is always one of important research problems for modern control theory.
关于系统的状态反馈稳定性问题的研究一直是现代控制理论研究的重要问题之一。
In order to resolve the shortage, the thesis chooses the linear quadratic form optimal controller design scheme by applying linear state feedback control of the modern optimal control theory.
针对这种不足,选择现代控制理论中的线性状态反馈控制方法,采用了线性二次型最优控制器设计方案。
In this dissertation, some control schemes based on gain scheduled and state feedback control theory and PID controller were proposed to control the nonlinear parameter-varying thermal objects.
论文结合增益调度控制方法、状态反馈控制理论和PID控制器设计方法,得到一些适用于非线性热工对象全工况运行的控制方案。
Based on the theory of variable pole state feedback control, this paper makes the process design and implement of NC software and hardware on electro-hydraulic force servo system.
基于变极点状态反馈控制理论,对电液力伺服系统进行了数控软硬件的工艺设计及其实现。
Firstly, we use norm theory to research the controlled chaotic systems and lead to some sufficient conditions for system convergence and the choice of state feedback gain matrixes.
首先,利用范数理论研究受控混沌系统的收敛性,并导出受控系统收敛的充分条件和线性反馈增益矩阵的选取原则;
A robust state feedback controller design is considered for a class of linear time varying delay system with nonlinear uncertainty based on Lyapunov stability theory.
基于稳定性理论,研究了一类具有状态非线性不确定性的线性时变时滞系统的鲁棒控制器的设计问题。
Based on the theory of state feedback, the paper presents a research on optimization design for activator of DC timing system.
基于状态反馈理论,对直流调速系统转速调节器的最优性设计进行研究。
By the state feedback exact linearization method and observer theory, a control approach is presented for a class of chaotic systems in which state variables cannot be all measured.
基于状态反馈精确线性化方法并结合状态观测器设计理论,给出了一类状态不能全部测量的混沌系统的控制方案。
The theory and design method of state-feedback integral control technique for inverter are introduced particularly after analyzing the continuous and discrete models of the single-phase inverter.
在分析了单相逆变器的连续时间和离散时间模型之后,详细介绍了逆变器的增广状态反馈控制的原理和设计方法。
Basing on the optimal control theory, the DYC controller is designed by the feed forward of the sideslip Angle regulation and the state feedback of both yaw rate and sideslip Angle.
基于最优控制理论,设计横摆力矩控制器,通过前馈控制调整侧偏角,状态反馈控制调整横摆角速度和侧偏角。
The method of combining the state feedback of the modern control theory and the traditional PID to set up a double degree-of-freedom control system is presented.
针对直接驱动的交流永磁直线伺服系统 ,提出一种将非线性神经网络控制和滑模控制相结合构成的双自由度控制策略 。
A comparative study of two decoupling control methods based on vector control and nonlinear multi-input-multi-output state-feedback based on theory of differential geometry is researched.
对异步电动机的矢量控制和基于微分几何理论的非线性多输入多输出状态反馈两种解耦控制方案作理论和试验比较研究。
A comparative study of two decoupling control methods based on vector control and nonlinear multi-input-multi-output state-feedback based on theory of differential geometry is researched.
对异步电动机的矢量控制和基于微分几何理论的非线性多输入多输出状态反馈两种解耦控制方案作理论和试验比较研究。
应用推荐