| 1. | Research on control algorithm for ac servo system
交流伺服系统控制算法的研究 |
| 2. | Construction of permanent magnet synchronous motors servo system
同步型永磁交流伺服系统控制技术评述 |
| 3. | Also the application software is realized and put into use
论文中还详细介绍了本伺服系统控制软件的设计。 |
| 4. | Fuzzy genetic algorithm - based electro - hydraulic servo system control
基于模糊遗传算法的电液位置伺服系统控制 |
| 5. | The servocontrol system of photoelectricity interference applied to capital ship and medium - sized ship adopts mechanical - electronic flat structure
转台驱动系统采用电机扩大机? ?直流电动机系统。伺服系统控制方案采用闭环系统来实现。 |
| 6. | Finally , a kind of intelligent pid is given and put into use in the servo - system . experiment results show that some shortcomings of routine pid can be well conquered and good performance can be achieved
为了实现较好的性能指标,本文给出了一种智能pid算法,用于伺服系统控制,克服常规pid算法的不足,取得良好效果。 |
| 7. | Ripple of speed is serious in low speed . low speed control performance has much more influence on the precision of servo systems . to improve the speed response in low speed region is very useful to servo systems
伺服系统控制精度很大程度上依赖于系统的低速性能,提高伺服系统低速时的动静态性能对整个伺服系统具有重大的意义。 |
| 8. | In airborne synthetic aperture radar ( sar ) , antenna stabilization platform is used to isolate antenna pointing , which is stabilized through controlling the platform axis ' rotation , from the vehicle ' s varying attitude and dynamical vibration
摘要机载合成孔径雷达中,天线稳定平台用于隔离载机的姿态变化和机械振动对天线指向的影响,并通过伺服系统控制平台支承轴的转动稳定波束指向。 |
| 9. | Among the control methods for theodolite , the integrated leading is a method which collecting all the measured data and information in locale , assembling them in a special format , forming a optimized estimate to the active target position , and using the estimate to control theodolite servo - system
在光电经纬仪的伺服控制中,综合导引方式是将现场所能获得的数据信息收集起来,通过某种形式的加权处理,形成对目标方位的一种综合估计,并以这些综合值参与伺服系统控制。 |
| 10. | The topic is from the national " 973 " project " the new principles and methods of high - performance electronic components of digital product design manufacturing " . closely combing with the high - speed high - precision planar parallel position robot developed by the project , we have carried out a deep research on robot control system architecture , time - optimal control algorithm and servo system control algorithm , achieving high - speed and high - precision point to point control and trajectory tracking control
本课题来源于国家“ 973 ”计划项目“高性能电子产品设计制造精微化数字化新原理和新方法” ,密切结合该项目所开发的高速高精度平面并联定位机构,对机器人控制系统体系结构、时间最优控制算法以及伺服系统控制算法进行了深入的研究,实现了高速度、高精度的点位控制和轨迹跟踪控制效果。 |
