在坦克火炮稳定器的位置伺服控制系统中,PID是最常用的控制方法之一,在位置伺服控制系统中超调量与调节时间通常是矛盾的。
PID is one of the most common methods in Tank Artillery Stabilizer location service controlling system, in which the overshoot often conflicts with short settling time.
这对于地下洞室超挖的评价方法以及工程建设中地下洞室稳定性评价以及加固处理具有一定指导意义。
These will be very useful in the assessment of the overbreak in underground workings and of the stability of workings in construction as well as their reinforcement.
结果表明这种方法比普通PID控制方法精度高、超调量小,特别是对对象参数的变化具有更好的适应性和稳定性。
The results show that the method has higher precision, smaller overshoot, more stability and adaptability especially when the parameters of the object are changed, compared common PID controller.
在开挖的进程中应考虑按有利于减少超挖、有利于围岩的稳定的施工方法进行。
During excavation, the Contractor shall use methods, which are beneficial to the reduction of over-excavation and the stability of the surrounding rock.
提出了一种在注入功率空间中求取电力系统实用动态安全域(PDSR)的超平面形式的临界稳定边界的新方法。
An effective method is proposed for obtaining the critical boundaries of hyper plan (HP) form of practical dynamic security regions (PDSR) of power systems in power injection space.
通过对试验结果的分析,证明超亮白光led在热真空环境中工作性能稳定,同时给出了合理的使用方法,为超亮白光led在航天照明领域的应用奠定了基础。
The results show that the performance of super-light white LED is rather stable in thermal vacuum test, and can be used in space illumination field.
此外,为了在超深水应用中实现动态稳定的系统立管或管线配置和安装方案,作业者必须采用模块化的方法。
Additionally, a modular approach for ultradeepwater applications is necessary to achieve a dynamically stable system riser or flowline configuration and installation strategy.
基于重建的超分辨率(SR)方法中,图像求解是典型的高维病态问题,需借助有效的正则来稳定求解。
Image super-resolution restoration and enhancement (SR) based on reconstruction is a typically ill-posed and high-dimensional problem, which needs effective regularization to stable the solution.
本文经过重新定义增广误差信号,给出了有延时情况下线性时不变离散时间单输入单输出被控对象的模型参考自适应控制系统的超稳定性设计方法。
This paper presents a hyperstable scheme for designing discrete model reference adaptive control system for lineartime-invariant SISO plant, based on a redefined augmented error signal.
在伺服系统中,由于系统参数变化和外部干扰的存在,应用常规pid控制方法往往使系统产生较大的超调量甚至不稳定。
In the servo system, variation of the system parameters and external disturbances always happen. The conventional PID controller tends to make the system have a large overshoot even unstable.
在伺服系统中,由于系统参数变化和外部干扰的存在,应用常规pid控制方法往往使系统产生较大的超调量甚至不稳定。
In the servo system, variation of the system parameters and external disturbances always happen. The conventional PID controller tends to make the system have a large overshoot even unstable.
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