| 1. | Finite time tracking controller design for permanent - magnet synchronous motor
永磁同步电动机的有限时间跟踪控制 |
| 2. | The design of decentralized robust tracking controllers for large - scale uncertain systems with time - delay
不确定性时滞大系统的分散鲁棒跟踪控制器设计 |
| 3. | This control method resolves the speed jump problem existing in some previous tracking controllers
该控制器解决了以往大部分跟踪控制器所产生的速度突变问题。 |
| 4. | On such a basis , the paper proves the robot ? stabilization and gives a path - tracking controller
在此基础上,研究了灵巧擦窗机器人的镇定问题,并且给出了一种路径跟踪控制算法。 |
| 5. | Also , it brings forward a new method of velocity measurement called c - mit , with application to velocity - tracking controller of the unilateral pedrail system
提出了变m / t测速原理和实现方法。设计了单边履带速度系统的闭环速度跟踪控制器。 |
| 6. | This lets me track nested servlet requests and will be important to support tracking controllers in web application frameworks discussed in part 2
这样我就能跟踪嵌套的servlet请求,对于在web应用程序中支持对控制器的跟踪,这也会很重要(在第二部分讨论) 。 |
| 7. | For the feedforward controller design , zero error characteristic of the step response of system with zero phase error tracking controller ( zpetc ) is proved and its application is studied
对于前馈控制器设计,证明了零相位误差跟踪算法在阶跃输入下的无差性并研究了该特性的应用。 |
| 8. | An output tracking controller is designed to a one - dof link robot system by adaptive back - stepping approach , the character of the robot system is that there are uncertain parameters
摘要针对具有参数不确定性的单机械臂系统,采用自适应反演法设计出跟踪控制器,并且给出了不确定参数的自适应律。 |
| 9. | The backstepping design idea and lyapunov stability theory is used for design the path tracking controller of the robot . the controller ’ s validity is tested by simulation and experiments
利用backstepping设计思想和lyapunov稳定性原理设计控制器来实现路径跟踪,并且通过仿真和实验来验证方法的有效性。 |
| 10. | Often it is important to track nested requests , both to track controllers at different levels of a framework as well as to track performance in delegated requests e . g . , from forwarding to a nested request
很多情况下跟踪嵌套的请求很重要,包括跟踪在框架不同级别上的控制器以及跟踪委派的请求(如从转发到嵌套请求)的性能。 |
