Constructing the running model of sensor nodes, predicting the remaining energy of its neighbor nodes, the routing selection was optimized.
算法通过建立传感器网络节点运作模型,及相邻节点剩余能量预测机制,优化路由选择。
ASTR combines the merits of proactive routing protocol and on-demand routing protocol because subarea tree has the function of routing selection.
由于分区树具有路由选择功能,所以ASTR结合了先应式路由协议和按需路由协议的优点。
The paper focuses on routing selection of satellite networks. A self-adaptable backup routing solution based on routing servers suitable for satellite networks is brought up.
重点分析了卫星网络的路由选择,提出了适合于卫星网络的基于路由服务器的自适应备份路由方案。
The paper analyzes the particularity of power dispatch data network routing. Basing on description of the routing technology, the routing selection plan of A'kesu data network is given.
分析了电力调度数据网络的路由特殊性,在阐述路由技术的基础上给出阿克苏数据网网络的路由方案选择。
In this case, the selection of the destination and the routing both occur per-message at run time.
对于这种情况,对每条消息的目标点和路由的选择都发生在运行时。
This example shows that the selection of the endpoint address and the actual use of the address can be separated, offering a much more flexible and reusable approach to dynamic routing.
这个示例说明,端点地址的选择和该地址的实际使用可以分开,这样便为动态路由提供了一种更加灵活并更具可重用性的方法。
The endpoint selection and related endpoint statistics used in routing.
路由中使用的端点选择和相关端点统计信息。
The second one is multicast routing algorithm based on Clone Selection algorithm, Clone Selection algorithm is a global optimization algorithm and can improve the performance of multicast tree.
第二种是基于免疫克隆选择算法的组播路由算法,该算法利用了免疫克隆选择算法全局搜索能力,提高组播树的性能。
To improve the performance of multicast tree, a rearrangement dynamical multicast routing based on Clone Selection is proposed.
为了改善组播树的性能,本章提出了基于免疫克隆选择的重构动态组播路由算法。
A routing path selection algorithm selects the routing path with lower flow and less number of intermediate nodes. OFRA can distribute routing paths more evenly.
路径选择理论则选择拥有较低流量以及较少中继点的路径最为传输的路径。
The selection of routing metrics is crucial to the design and performance of routing protocol.
路由度量的选择对路由协议的设计和性能起着至关重要的作用。
Selection and design of the routing protocol is the key of aeronautical Ad Hoc network.
航空自组网的关键技术在于路由协议的选取和设计。
This paper studies its overall structure of network topology, the selection of dynamic routing protocols as well as configuration, and compares this method with the existing methods in detail.
阐述了其基本网络拓扑结构、动态路由协议的选取和配置等问题,并同已有的方法进行了详细对比。
Available bandwidth is wildly used in capacity provisioning, routing, QoS management, streaming applications, server selection and several other areas.
在容量分配、路由、服务质量管理、流媒体应用、服务器路由选择等领域有广泛的应用。
It is a good selection in the design of high speed power-efficient routing table search engine.
该结构在低功耗高速路由查找引擎的设计中是一个较好的选择。
For more detail, see Routing and action Selection, which describes exactly how the framework matches a URI to a route, selects a controller, and then selects the action to invoke.
更多细节参见“路由与动作选择”(本教程系列的下一小节—译者注),它精确地描述了框架如何把URI匹配到路由、如何选择控制器、以及随后选择动作进行调用。
For more detail, see Routing and action Selection, which describes exactly how the framework matches a URI to a route, selects a controller, and then selects the action to invoke.
更多细节参见“路由与动作选择”(本教程系列的下一小节—译者注),它精确地描述了框架如何把URI匹配到路由、如何选择控制器、以及随后选择动作进行调用。
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