1·Some satisfactory results in the experiment of a precision instrument servosystem were received.
并在高精度仪器伺服系统实验中取得了满意结果。
2·This paper introduces the technique that realizes optimal electro-hydraulic position servosystem by the loop technique and the means of pressure feedback.
本文介绍了利用环路法和压力反馈实现最佳电液位置伺服系统的方法。
3·The paper proposes an adaptive neural network PID controller based on weighlearning algorithm using the gradient descent method for the AC position servosystem of binding and printing.
针对包装印刷传动位置伺服系统,介绍一种基于共轭梯度学习算法的神经网络自适应PID控制方法。
4·In designing a large telescope, the relation between the servosystem and the mechanism is not limited to the satisfaction in driving torques and velocities.
大望远镜设计中,伺服系统与机械设计的关系并不局限于驱动力矩与速度的满足。
5·This paper presents an adaptive control based on the rule adaptive fuzzy compensator according to the electrohydraulic servosystem's nonlinear characteristic in the simulator.
针对仿真转台电液伺服系统的非线性特点,提出了一种基于模糊补偿的自适应控制方法。