SCA组合应用程序中的组件可以在网络中的不同节点上运行。
The components in an SCA composite application can run on different nodes in a network.
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。
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.
问:在需要向一个节点中添加新机器时,必须加载J VM、配置系统和应用程序、设置网络地址,等等。
Question: When we need to add new machines in a node, then we must load JVMs, configure the system and the applications, set network addresses, etc.
在这种环境中,用numactl将网络应用程序绑定到以太网适配器所在的节点会使性能更糟糕。
In that environment, binding network applications with numactl to nodes where the Ethernet adapters reside makes matters worse.
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。
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.
本文以路网规划区公路干线走向的简单节点网络图为例,分析动态规划在实际路网规划公路干线走向确定中的应用。
This paper gives an example of simple nodes network illustration of highway arterial trend in highway planning area, analysizes dynamic planning actual applications in highway network planning.
本文以路网规划区公路干线走向的简单节点网络图为例,分析动态规划在实际路网规划公路干线走向确定中的应用。
This paper gives an example of simple nodes network illustration of highway arterial trend in highway planning area analysizes dynamic planning actual applications in highway network planning.
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。
If the Heartbeat application notices that the master node is not available, the backup node will then become active with the proper network configuration.
在应用人工神经网络时,采用基于相关分析法的节点删除法来优化网络结构提高网络性能。
During the use of the artificial neural network some nodes were deleted to optimize the network based on the correlation analytical theory.
在多个存储节点构成的集群存储系统中,结合应用提高网络存储性能的目标就是利用文件系统方案来实现的。
In a clustered storage system constructed by multiple storage nodes, the goal of improving the network storage performance combined with applications is implemented by file system solution.
节点时差是CPM网络中一个重要的机动时间概念,在各种机动时间中最为直观,计算和应用起来最为简便。
Node slack is of great importance in CPM network, and it is the most intuitive and the simplest for computing and applications in a variety of slacks.
将经典的画图算法应用到无线传感器网络节点定位问题是一个全新的思路。
Applying the classical graph drawing algorithms to node localization in wireless sensor networks is a novel idea.
本文研究了由MSN节点组成的应用层组播网络,提出了度约束最小直径生成树问题,并给出了求解该问题的BCT算法。
The paper studies the application layer multicast networks of MSNs, and presents a heuristic BCT algorithm for degree-constrained minimum diameter spanning tree problem.
节点定位的精确性在分布式传感器网络的许多应用中都起着至关重要的作用。
The accuracy of node localization is crucial for many applications of Distributed Sensor Network(DSN).
节点定位是无线传感器网络中的重要应用之一。
Localization of nodes is an important application of wireless sensor networks.
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。
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.
提出了上述定位算法的一个应用:基于定位信息的能量高效无线传感器网络首节点选择的算法。
This dissertation proposes an application of the above localization algorithm: location aware energy efficient heard node selection algorithm in wireless sensor networks.
而且作为统一的业务提供平台,实现传统的电信业务并能结合业务控制节点或者应用服务器为融合网络用户提供智能业务及新型增值业务。
As the unification platform of business supporting, it works with Service Control Point or Application Server to provide network users with the value-added services.
稀疏移动自组网的路由协议能为位于不同连通域的节点提供数据通信,因此能够更好满足非全连通网络的应用需求。
Sparse Mobile Ad Hoc Networks routing protocols can provide data communications for nodes in different connected domain, which can better meet the needs of the intermittently connected applications.
忽略电网中的其它元件,将电网从结构上简化为以开关当作节点的网络,应用电工网络图论原理建立节点的邻接矩阵和节点信息矩阵。
The power distribution network can be simplified as switch node network. By applying electric network graphic theory its adjacent node matrix and node information matrix can be derived.
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。
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.
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。
The Subsystem number (SSN) is a number that identifies which application to access on a specific network node.
从模拟仿真及在实际系统GAINS节点中应用的结果可知,该改进方法能很好地改善无线传感器网络通信性能。
The simulation result and application result on the actual WSN system-GAINS indicate that the priority schedule of TinyOS can improve communication performance significantly.
此设计增强了系统的灵活性,提高了网络节点的可靠性,结构简单适应于不同应用领域的需求。
Such design enhances the flexibility of the system and improves the reliability of the network nodes.
无线传感器网络中,节点的自身定位至关重要,在军事和民用领域中有着广泛的应用前景。
In wireless sensor networks, the node self-localization is vital and promising to a wide scope of both military and civilian applications.
绝大多数的无线传感器网络应用及自身系统研究需要传感器节点的位置。
All these applications and most of the in-network studies require the locations of sensor nodes.
生物网络的服务突现,将为设计未来网络节点中的智能服务和应用提供一种新颖的方法。
The service emergence of biological network can provide a novel solution to design intelligent service and application in the future network.
总结了正交法的应用研究,提出用正交化方法来确定前馈神经网络的结构,包括隐层数、节点数以及网络训练步数。
Based on summarizing of the application of onhogonal method, an onhogonal method for deciding the number of hidden layers, neurons and the training step of neural networks is presented.
因此传感器节点的定位问题在许多无线传感器网络应用中是一个非常重要的问题。
Therefore, a localization problem, which solves the location information of location-unaware nodes, is a very fundamental and essential issue in many WSN applications.
本文面向网格计算、协同工作等特定P 2 P应用,提出了一种基于超节点的P 2 P混合网络模型。
The paper described a hybrid P2P model with super-peer that is oriented on the special P2P applications, such as grid computing and cooperation work.
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