每个节点在计算网络上需要两个地址:一个用于计算地址,另一个用于基板管理控制器(BMC),BMC用来进行硬件监视和电源控制。
Each node requires two addresses on the compute network: one for the compute address and another for the Baseboard Management Controller (BMC), which is used for hardware monitoring and power control.
集群提供了一个虚拟的网状网络,其中每个节点彼此相连,并且可以通过操作集群命名空间中的对象来控制其中的路由。
The cluster provides a virtual mesh network in which every node is connected to every other, and in which routing can be controlled through manipulation of objects in the cluster namespace.
控制节点使用一个网络适配器便足以满足低流量设置,但是对于繁忙的网络来说,有两个网络适配器更好。
One network adapter for the control node will suffice in low-traffic Settings, but two is better on busy networks.
集群控制器收集关于特定的节点控制器上的VM运行的信息,并调度其运行计划,以及管理虚拟实例网络。
The cluster controllers gather information about and schedules VM execution on specific node controllers, as well as manages virtual instance network.
将控制节点网络连接放在WAP与调制解调器之间将允许通过网络中的任意一台计算机监视与Internet的所有连接。
Placing the control node network connection between the WAP and the modem allows monitoring of all connections to the Internet from any machine on network.
NET不设专用的网络服务器,网络的控制功能由每个节点上的EP-NET智能网络控制器来实现。
The control function of network is distributed to the intelligent communication controllers of EP-NET of every node instead of using network server.
集中器和通信器是本系统的通信节点,它们使控制网络的信息和命令可以通过电力线传输。
The collector and the communicator are communication nodes of the system. They enable the control network to pass the information and commands through power line.
该节点能有效地运行在无线工业控制网络环境中,满足了工业现场的要求。
The node can run effectively under the wireless industrial control network environment, and meets the requirements of industrial field.
本文报告了该实验网络的拓扑、节点结构、数据通道、MAC层的数据通道控制子层以及所使用的光缓存技术。
This paper reports the network topology, structure of optical node, data path, control of data path sublayer in MAC and data buffering technologies.
为给无线传感器网络中每个节点分配一个公平有效的传输速率,提出一种新的拥塞控制算法。
This paper proposes a new congestion control algorithm for wireless sensor networks that it can assign a fair and effective transmission rate for each node.
本文引入PID算法,通过调节每个节点传输功率,动态控制整个网络的传输能耗。
PID algorithm is introduced to the dynamic control of the entire networks' energy cost by shifting the transmission power of every node.
它采用高集成度的NEURON芯片构成控制节点,通过网络构成系统,提供了可互操作的工业产品。
Its control node is formed by using VLSI NEURON and system is formed through network, it provides an-interoperable industrial product.
论文提出了一种基于CPLD和多处理器结构的控制网络节点设计方法。
A design method for control network nodes based on CPLD and multi-processor architecture is proposed in this paper.
通过更合理的时隙分配以及对每个节点发射功率的控制,使得整个无线传感器网络的能耗降低,寿命延长。
Through reasonable time slot assignment and transmitting power control of each sensor node, for wireless sensor networks, the energy consumption is decreased and the lifetime is enlarged.
基于RS485网络技术构筑28个节点的集成plc和智能仪器的铸造生产线控制系统。
Constructs 28 nodal casting production line control systems of integrated PLC and intellectual instrument on the basis of RS485 network technology.
控制网络不同的节点数量巨大(从三个数以千计)在网络和复杂性。
Control networks vary enormously in the number of nodes (from three to thousands) in the network and in their complexity.
网络的拓扑控制和MAC协议对传感器节点的能量消耗和延时会产生重大影响。
The network topology control and the MAC protocol will exert great influence on the energy consumption of the sensors node.
国际物流园区是国际物流网络系统中的枢纽性节点,对它起着决定性和战略性的控制作用。
International logistics park is a critical node of international logistics net system. It has decisive and strategic controling impact on the international logistics net.
但目前在拥塞控制方面的研究对于网络节点的缓冲占有量的抖动性即系统稳定性考虑不多。
But till now, the stability of system, especially the oscillations of buffer occupancy have not been the focus of research in congestion control.
最后,论文根据网络结构的复杂多元性,设计了一个多级网络节点模型,并提出了基于网络多级节点自身调节的控制机制。
At last, a multilevel network node model is designed and the control mechanism based on multilevel network nodes is proposed according to complicated network structure.
该技术通过网络节点之间时间基准的相互交换和相互控制,实现节点之间的相互同步。
The synchronization of the network is achieved by the exchange and interaction control of the time benchmark between the nodes.
对该协议进行较为详细的描述,设计一种车身控制系统的解决方案,并对控制网络的节点进行硬件电路设计和软件设计。
The LIN protocol is described in detail, a solution of automobile body control system is designed, and then the hardware and software of the network node is designed.
其基本思想是在动态簇首选举和簇重组的基础上,结合能量控制过程,以更好的降低和节约节点能耗,延长网络生命期。
The basic thinking of the algorithm is to prolong the lifetime of WSN, which is on the basis of the dynamic election of cluster head, the rebuilding of cluster, and the energy control.
本文针对单瓶颈节点网络,考虑两个饱和非线性因素,制定控制规则,寻找优化参数,设计模糊控制器。
In this paper, single bottleneck node network is considered. With two saturation factors, we make control rules, find optimal parameters and design the controller.
介绍了家庭网络控制系统的控制子节点设计,控制子节点的软硬件的设计与开发,无线通信协议的设计与开发。
The design of control node of home network control system is described. The design includes hardware, software, and the development of wireless communication protocol.
介绍了一种时钟源选择控制方法,从而在SDH网络中各节点能自动选择最优时钟源,并实现时钟的同步。
A method of selecting the clock sources, which is used in SDH network to auto-select the best clock, is di-cussed.
电流控制电流源(CCCS)存在不同支路电流之间的控制行为,给该类网络节点阻抗矩阵的形成带来困难。
The current of current-controlled current source (CCCS) branch is controlled by the current of another branch, which makes it difficult to build the node impedances matrix (Z-matrix).
网络控制系统具有结构网络化、节点智能化、控制现场化、功能分散化、系统开放化和产品集成化等特点。
The network control has many characteristics, frame network of node, intelligence of node, locale of control, decentralization of function. dispark of system, integration of product, and so on.
针对网络控制系统中存在多个网络及多个控制回路,提出了节点设备连接阵和网络传输阵的概念。
To deal with the multiple networks and multiple loops in the networked control systems, the concepts of node-device connecting matrix and network transmission matrix were proposed.
针对网络控制系统中存在多个网络及多个控制回路,提出了节点设备连接阵和网络传输阵的概念。
To deal with the multiple networks and multiple loops in the networked control systems, the concepts of node-device connecting matrix and network transmission matrix were proposed.
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