闭环系统的稳定性证明采用了奇异扰动理论,以解决积分项的存在带来的稳定性分析问题。
To solve the stability analysis problem arising from the integral term, we employ the singular perturbation theory to analyze the stability of the resulting closed-loop system.
基于奇异扰动原理,将MRV飞行控制系统分为内外两个回路,并且为两个回路都设计了轨迹线性化控制器。
Based on the singular perturbation theory, the flight control system of MRV was divided into two loops, and the TLC controllers were designed for both loops.
在比较条件非线性最优扰动和线性奇异向量模态的基础上进一步探讨了它们随时间的演变。
On the basis of the comparison of conditional nonlinear optimal perturbation and linear singular vector, the evolutions of them with time are investigated.
第三章讨论了不变子空间、奇异子空间对和收缩子空间对的扰动。
In the third chapter, the perturbation of invariant subspace, singular subspaces and deflating subspaces are discussed.
研究了受不确定性扰动影响下奇异系统的鲁棒故障诊断滤波器设计问题。
The robust fault detection filter design for singular systems with uncertain disturbance is studied.
应用奇异性理论研究了电力系统在周期性负荷扰动下的静态分岔现象。
The static bifurcation in electric power system under periodical disturbance is studied with singularity theory.
应用奇异性理论研究了电力系统在周期性负荷扰动下的静态分岔现象。
The static bifurcation in electric power system under periodical disturbance is studied with singularity theory.
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