fast subsystem
英 [fɑːst səbˈsɪstəm]
美 [fæst ˈsʌbˌsɪstəm]
网络 快变子系统
双语例句
- To get fast I/ O, consider using a fast storage subsystem ( NAS or SAN).
要获取高速I/O,考虑使用一个高速存储子系统(NAS或SAN)。 - Best performance is obtained using fast disks with write caching; i.e.those that can cache I/ Os to memory in the disk subsystem and guarantee that they will be written to the disk media eventually.
使用带写缓存的快速磁盘,即可以将I/O缓存到磁盘子系统中的内存中,并保证它们最终将被写到磁盘媒介,可获得最佳性能。 - The attitude dynamical and kinematical systems of the missile are divided into fast subsystem and slow subsystem by time scale separation.
利用时间尺度分离的方法将导弹的姿态动力学和运动学系统分别看作快子系统和慢子系统。 - Operations on the CVS repository require a fast disk subsystem ( RAID is highly advised).
CVS仓库操作需要快速磁盘子系统(RAID是好的选择)。 - On the basis of singular perturbation approach, the controller consists of a NN slow subsystem and a robust-based fast control subsystem.
根据奇异摄动方法,该控制器包括一个神经网络缓慢子系统以及强大的快速控制子系统。 - The paper is mainly about the linear nonstandard singular perturbation system of how to decompose it into slow subsystem and fast subsystem.
本文从文献入手,讨论了线性非标准奇摄动系统的一般情况。 - You also want to consider a fast disk subsystem.
你也要考虑一个快速磁盘子系统。 - Thus, separate slow and fast control laws can be designed for each subsystem and then combined into a composite control.
这样可以根据每个分立的子系统设计系统的慢和快控制律,然后组合成一个混合控制。 - The phase-shifting discrimination and its effect on the receiver noise in the radar with a fast AFC subsystem are analysed and formulated.
重点分析并推导了在具有快速自频调子系统的雷达中移相鉴频的形成过程及其对整机噪声的影响; - The impulsive decentralized assignability measure of the plant is defined as the distance between its fast subsystem and the fast subsystem of ( systems which possesses an impulsive DFM).
系统的脉冲分散可配置测度定义为这个系统的子系统与脉冲不可配置系统子系统间的距离。 - Both receiver noise and data noise all have influence on the precision of the system; The phase-shifting discrimination and its effect on the receiver noise in the radar with a fast AFC subsystem are analysed and formulated.
精度不仅受接收机输入端噪声的影响,还受数据自噪声的影响;重点分析并推导了在具有快速自频调子系统的雷达中移相鉴频的形成过程及其对整机噪声的影响; - Based on the singular perturbation method and two time-scale decomposition, the flexible-link robot model is decomposed into two subsys-tems: the slow subsystem and the fast subsystem.
基于奇异摄动方法和两时标分解,柔性连杆机器人的模型分解成两个子系统:慢子系统和快子系统。 - By adopting evolution prototype of the fast prototype method to develop the Web-Based ERP financial sale accounting MIS and mixing Thin-C/ S and B/ S mode to structure the system, developed the financial sale accounting subsystem of DT_CIMS.
本文采用管理信息系统开发模式中快速原型法的进化性原型法和采用Thin-C/S和B/S混合模式构建基于WEB平台的ERP财务核算管理系统,开发了东北特钢集团信息化项目&DTCIMS中的财务核算管理系统。 - For further practical applications, luenberger observer design based on the fast subsystem is presented.
为了结合实际应用,提出了基于快子系统的龙伯格观测器设计方法。 - To satisfy the tracking requirements of the link-tip position and suppress the oscillation of the link, the singular perturbation approach is used to decompose the robots into a slow subsystem and a fast subsystem, which allows a combined control design for the original system.
为解决柔性臂末端位置的跟踪及克服柔性臂在运动中的振动问题,运用奇异摄动法将系统分解成快、慢两个子系统,设计混合控制器。 - In this paper, the slow subsystem and the fast subsystem for the cooperative flexible manipulators are derived on the basis of the singular perturbation approach.
本文基于奇异摄动理论,将柔性机械臂协调系统分解为慢子系统和快子系统两部分。然后,针对各个子系统设计控制器。 - This paper shows the effects of bifurcation in the slow subsystem and the fast subsystem on structural stability of generalized system.
分析了广义系统中快、慢子系统分岔对系统结构稳定性的影响。 - With aid of it, that will be convenience to decompose the system into a slow subsystem and a fast subsystem, and to calculate the Markov parameters of the system.
借助于它,将系统分解为一个慢子系统与一个快子系统,这对计算系统的Markov参数是方便的。 - A fuzzy sliding mode controller with load adaptation is designed for the slow subsystem, and an optimal controller is desinged to stabilize the fast subsystem.
首先,采用奇异摄动将系统分为慢变和快变两个子系统。然后,对慢变子系统采用负载自适应模糊滑模控制,快变子系统采用最优控制。 - Thus the whole controller for the system is a composite of the controllers of the slow subsystem and the fast subsystem.
整个系统的控制器为慢子系统与快子系统的控制器组成的混合控制器。 - Then, a fuzzy control is designed for the slow subsystem, and an optimal control is designed to stabilize the fast subsystem.
然后,对慢变子系统采用模糊控制,快变子系统采用最优控制。 - Then the controller for both trajectory tracking and internal force regulating of the slow subsystem, and the controller for stabling the fast subsystem along an equilibrium manifold are designed respectively.
对于慢子系统采用位置/力混合控制,以实现物体的轨迹跟踪控制和内力调节控制,对于快子系统设计控制器使其在慢子系统进行轨迹跟踪时保持渐近稳定。 - And nonsingular global fast terminal sliding mode control law of joint subsystem is determined by using the Lyapunov theory.
运用李亚普诺夫理论设计出各关节子系统的非奇异全局快速终端滑模控制律。 - Here the slow subsystem of singular perturbed systems is sensitive to the low-frequency signals, while the fast subsystem is sensitive to the high-frequency signals.
其中慢子系统对低频信号敏感,快子系统对高频信号敏感。