| 1. | Pole assignment for the first order coupled generalized control systems
一阶耦合广义控制系统的极点配置问题 |
| 2. | Realization of incomplete controllable system ' s pole assignment algorithm
不完全能控系统极点配置算法的实现 |
| 3. | Simulation results approve that pole assignment achieves better dynamic performance of network
仿真结果验证了极点配置算法能使网络具有良好的动态性能。 |
| 4. | Lyapunov equation based algorithm for calculating state feedback gain is a comparatively normal algorithm used in pole assignment
摘要基于李亚普诺夫方程的状态反馈增益算法是极点配置算法中比较常见的一种。 |
| 5. | Based on pole assignment , the step response of suspension system with active control is simulated and compared to that with passive control
通过极点配置法对采用主动控制的履带车辆悬挂系统进行仿真,并将仿真结果与采用被动悬挂系统相比较。 |
| 6. | State feedback pole assignment technique is used to gain fast tracking of the output voltage , and a repetitive control is designed to reduce voltage distortion under nonlinear loads
系统利用状态反馈极点配置获得了电压跟踪控制的快速性,利用重复控制较好地抑制了非线性负载工况下的电压畸变。 |
| 7. | Pole assignment algorithm is adopted to discuss that the higher utilization and congestion avoidance of network can be get if poles are assigned in different area according to network state
摘要应用极点配置方法,讨论了根据网络的现实状态将极点配置在不同区域,使链路具有较高的利用率且解决网络拥塞的问题。 |
| 8. | In this paper , the pole assignment of control system based on matlab language is presented . an application is given , and the result of simulation is acquired by use of simulink tool box
讨论了控制系统的极点配置问题及算法,介绍了采用matlab语言编程实现控制系统闭环极点任意配置的方法,给出了应用实例,并由simulink得到了仿真结果 |
| 9. | By introducing a cyclic matrix , the obtained results can be generalized to mimo systems , and the condition for arbitrary pole assignments of linear multivariable systems under structured perturbation is obtained
并通过引入循环矩阵的方法将上述结果推广到mimo系统,得到了线性多变量系统在结构的可加性扰动下实现鲁棒的任意极点配置的条件。 |
| 10. | This paper discussed the necessary and sufficient condition for arbitrary robust pole assignments of simo systems and miso systems under structured perturbation , and derived the order of compensators when robust pole assignment can be realized
讨论了simo系统和miso系统在结构的可加性扰动下实现鲁棒的任意极点配置的充分必要条件,得出了有可能实现鲁棒任意极点配置时控制器的阶次。 |
