当动态集群在自动模式下运行时,应用程序位置控制器将在管理员不直接参与的情况下停止一个集群成员。
When dynamic clusters are running in automatic mode, the application placement controller can bring down a cluster member without the direct involvement of an administrator.
在这个拓扑中,显然一个数据中心的应用程序位置控制器无法利用其他数据中心中的空闲容量。
In this topology, it's obvious that the application placement controller in one data center will not be able to tap into idle capacity in the other data center.
现在,控制器类是设计实现系统商业逻辑填充的一个或多个类的位置保持器。
For now, a controller class is a placeholder for one or more classes that would be fleshed out during design to implement the business logic of your system.
TurboGearsquickstart提供了一个具有 controllers.py模块的项目,该模块是 Root控制器类所在的位置。
TurboGears quickstart provides a project with a controllers.py module that is the location of the Root controller class.
接下来,向Student控制器添加一个函数,称为edit,这也是edit选项所指向的位置。
Next, add a function to the Student controller called edit , which is where the edit option is pointing.
接下来,向Student控制器添加一个delete函数,这是delete选项所指向的位置。
Next, add a delete function to the Student controller, which is where the delete option is pointing.
这样,系统具有速度和位置两种控制器。
这样,系统具有速度和位置两种控制器。
在WebSphereVirtualEnterprise环境中,应用程序位置控制器(placement controller)可以就需要运行多少动态集群成员以及在哪里运行制定运行时决策。
In a WebSphere Virtual Enterprise environment, the application placement controller can make run time decisions on how many dynamic cluster members need to run and where.
然后,相对与控制器跟踪该点,通过改变位置来计算其速度。
Then you track that point relative to the controller, calculating its velocity as it changes position.
除了一个加速计之外,该控制器还采用磁场跟踪你的手的三维位置。
Rather than relying solely on an accelerometer, this controller USES a magnetic field to track both your hands' positions in 3d space.
计算肘部相对于控制器的位置。
Calculates the position of the elbow relative to the controller.
计算手掌相对于控制器的位置。
Calculates the position of the palm relative to the controller.
针对数控机床的位置伺服系统,为其控制器设计了一种复合滑模变结构控制算法。
Aiming at the position servo system of NC machining tool, this paper designs a kind of control arithmetic on compound sliding variable structure for its controller.
重点介绍用8031单片机构成的智能位置控制器的接口电路设计的特点以及单片机资源的利用。
The design of the interfacing circuit for the intelligent position controller composed of 8031 single chip computer and the usage of single chip computer resource are emphasized.
针对振动状态的不可测量性,应用刚性控制规律设计了控制器,给出了一种补偿系统动力学对位置控制影响的方法。
A rigid controller for the unmeasured vibration states was designed and a compensatory method for the impact on position control caused by system dynamics was given.
最后,采用PMAC卡作为系统的运动控制器,对本文所设计的位置控制器进行实验验证。
Finally, using the PMAC as the movement controller of the servo system, experimentation validates the position servo system controller designed in this thesis.
结果表明,相对于常规PD控制器,该神经网络控制器具有自学习、自适应功能,位置跟踪获得了满意的控制效果。
The simulation results prove that the neural network controller has self-learning and self-adaptive ability by comparison with PD controller. The position tracking control obtains satisfactory effect.
介绍了位置控制器的原理。
一种含有三个离散输出值的多位置控制器。
A multiple - position controller which has three discrete values of output.
本论文以超精密机床用永磁同步直线电机驱动进给伺服系统位置控制器为研究对象。
In this paper, the research object is the position controller of a permanent magnet linear motor direct drive feed servo system.
单片机控制器负责按键识别、限位信号以及位置速度信号的数据处理;
The single chip microcomputer controller takes charge of processing position & velocity data, limitation data and keystroke identification.
实验结果表明:基于DRFNN的自适应控制器可使电液位置跟踪系统具有较强的鲁棒性和满意的跟踪性能。
The experimental results show that the adaptive controller based on DRFNN can make electro-hydraulic position tracking system more robust and obtain satisfactory tracking performance.
测量用户感觉的质心位置的质心投掷速度——也就是控制器。
Measure throwing velocity from the center of mass of where the user feels the center of mass is — i. e. , the controller.
为了设计高精度的直流无刷电机伺服控制系统,性能优良的位置跟踪控制器是其重要保障。
The position tracking controller with good performance is the guarantee of high precision brushless DC motor servo system.
讨论了模糊逻辑和神经网络控制器在电液伺服位置系统中的应用。
Fuzzy logic and neural network controller and their applications in an electro hydraulic servo position system are discussed.
针对光电跟踪系统,提出一种基于内模控制原理的新型位置控制器设计方法。
A novel position controller for an electro-optical tracking system is designed based on Internal Model control (IMC) principle.
针对光电跟踪系统,提出一种基于内模控制原理的新型位置控制器设计方法。
A novel position controller for an electro-optical tracking system is designed based on Internal Model control (IMC) principle.
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