In a Network Deployment installation however, all notifications from the application server are also sent to the node agent on the same machine.
而在Net workDeployment安装中,还将来自应用程序服务器的所有通知发送到同一台机器上的节点代理。
For example, a job to create a new application server requires a minimum configurator role on either the base node or Network Deployment cell.
例如,创建新应用程序服务器的作业要求在基本节点或Network Deployment单元上的最低“配置员”角色。
Every node then sends its result over the network fabric to other S-Blades or the active host server, which communicates the resulting data set out from the appliance to the requesting application.
每个节点通过网络结构向其他 S-Blade 节点或活跃的主机服务器发送结果,后者将产生的数据集从设备发送到请求的应用程序。
If the Heartbeat application notices that the master node is not available, the backup node will then become active with the proper network configuration.
如果Heartbeat应用程序发现主节点不可用,那么备份节点就会使用适当的网络配置而运行起来。
This determines whether the JMS resource can be used by an application server, all application servers running on the node or all application servers running in the Network Deployment cell.
这决定了JMS资源可以由一个应用服务器使用,还是由运行在节点上的所有应用服务器或运行在网络部署单元(Net work Deployment cell)的所有应用服务器使用。
In the case of WebSphere application server Network deployment, multiple processes (for example, deployment manager, node agents, application servers, and so on) are all members of a core group.
对于WebSphereApplicationServerNet workDeployment,多个进程(例如,部署管理器、节点代理、应用程序服务器,等等)是一个核心组的所有成员。
The Subsystem number (SSN) is a number that identifies which application to access on a specific network node.
子系统号(SSN)是识别在特定网络节点要访问哪个应用程序的一个号码。
In this system, the application of the CAN bus accomplish the hypogyny-computer and CAN ignition of network topology, realization of each node monitoring and signal transmission.
在该系统中应用CAN总线实现了下住机和CAN点火器的网络拓扑设计,实现网络上各个节点的监控和信号的传输。
The actual application shows that this system can improve the voltage level for each node of the whole power grid efficiently, reduce network loss, and produce better benefits.
实际应用表明,该系统可有效提高全网各节点的电压合格率,减少网损,能产生较好的经济和社会效益。
At present, there are many technical difficulties in the research of Wireless Sensor Network, the node localization, which associates closely with many practical application, obtains more attention.
目前,无线传感器网络仍然存在一些技术上的难点,节点定位技术与很多实际应用有着密切的联系,因而受到关注。
For the limited energy of one sensor node and the complexity of application circumstances, any research of sensor network must deal with the problem of energy-saving.
无线传感器节点能量有限并且应用环境复杂,所以对它的任何研究都必须考虑节能的问题。
Balanced Application layer multicast Protocol overcomes the unbalance in node degree, distribution of flows, network delay, effect of node failure etc.
基于均衡的应用层组播协议克服了现有的应用层组播协议在节点负载、网络时延、流量分布、受失效节点影响等方面的不均衡。
This article focuses on the design of CAN network and CAN node hardware, software design, as well as CAN application layer protocol development.
本文着重讨论了CAN网络的设计和CAN节点的硬件、软件的设计以及CAN应用层协议的制定。
Traditional network coding has a limited application for assuming the input packets from two destination nodes can be simultaneously decoded correctly at the relay node.
该方法在中继节点通过校验码等方式判别来自两个终端的数据包是否正确解码后,自适应地进行网络编码、中继转发处理。
The invalid and erroneous node localization can have a destructive impact to WSN application, which can lead to false supervision results, crack down of network etc.
由于无线传感器网络被部署的环境恶劣,节点很容易受到各种针对定位系统的攻击,从而导致定位失效。
The invalid and erroneous node localization can have a destructive impact to WSN application, which can lead to false supervision results, crack down of network etc.
由于无线传感器网络被部署的环境恶劣,节点很容易受到各种针对定位系统的攻击,从而导致定位失效。
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