| 1. | The design methods of variable structure control of skeleton type are obtain ed by introducing sliding mode compensator
通过引入滑动模态补偿器,得到了简约型变结构控制的设计方法。 |
| 2. | In the dvscs the switching control is not ideal continuous and smooth any more , it is only a quasi - sliding mode
在离散系统变结构控制中的切换不再是连续的、光滑的,而只是一个准滑动模态。 |
| 3. | Based on above mentioned reasons and in order to get good use of the limited construction space , movable framework construction method is used
鉴于以上原因,采取了“见缝插针,滑动模架”法施工方案。 |
| 4. | Then , we present a schematic of buck converter by using sliding mode control and then design a circuit based on it
然后提出了降压buck变换器的滑动模实现方案,并设计了滑动模控制的buck变换器的电路实现方案。 |
| 5. | The related definitions of dvsc are proposed . after analyzing the arrival condition , the existence condition and stabilization of sliding mode in dvsc
三、给出了滑动模态存在的充分条件,在此基础上给出了控制器的设计方法。 |
| 6. | Aero engine vstsmc controller and terminal sliding mode variable structure model following controller are separately designed
先后设计了航空发动机变结构最终滑动模态控制器和完全模型跟踪的航空发动机最终滑动模念变结构模型跟踪控制器。 |
| 7. | R . d . lorenz and d . b lawson , " performance of feedforward current regulators for field - oriented induction machine controllers ” ieee trans . ia , vol . 23 , no . 4 , 1987
吴捷,姜智坚.感应电机调速系统新型滑动模解耦与自校正控制.中国电机工程学报1999 ( 1 ) |
| 8. | Circuit simulation demonstrated that the dynamic and static performances of buck converter controlling by sliding mode are better than that of pwm converter
电路仿真表明,滑动模控制的buck变换器的许多动态性能和静态性能都优于pwm控制的buck变换器。 |
| 9. | 2 . for general nonlinear system , a control law design method which integrated the nonlinear dynamic inverse theory , adaptive fuzzy system and slide model control is developed
2 、对一般非线性系统,推导了一种综合运用非线性动态逆、自适应模糊逻辑系统和滑动模态控制进行控制律设计的方法。 |
| 10. | The asymptotical convergence of the identifier is proved . a discrete variable structure control algorithm with time - varying sliding surface is developed for a class of second - order uncertain discrete systems
针对一类二阶不确定离散系统,利用离散变结构控制系统所具有的滑动模态区,提出了一种具有强鲁棒性的时变滑模面离散变结构控制方法。 |
