进而采用根轨迹方法就反馈增益和延迟时间进行参数分析,获得系统的颤振稳定性边界。
Furthermore, it performed the parametric analysis in terms of feedback gains and delayed time using the root locus method, thus obtaining the system's flutter stability boundary.
用计算机绘制根轨迹克服了传统方法的缺点,有效地提高了精度和速度。
The method is better than the traditional handcrafted method and raise the accuracy and speed effectively.
根轨迹法是古典控制理论的重要部分,是分析和设计线性定常控制系统的图解方法。
Root Locus is a important part of the classical theory of automation that is a diagrammatic method to analyse and design the linear system.
仿真了各种不同轨道根数下的相对运动轨迹,与定性的理论分析进行比较,说明了轨道根数描述方法的优越性。
Simulation of the relative trajectories with various orbital elements and a qualitative theoretical analysis illustrate the advantages of the orbital elements method.
仿真了各种不同轨道根数下的相对运动轨迹,与定性的理论分析进行比较,说明了轨道根数描述方法的优越性。
Simulation of the relative trajectories with various orbital elements and a qualitative theoretical analysis illustrate the advantages of the orbital elements method.
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