1) wireless grid
无线网格
1.
Resource discovery mechanism based on P2P architecture in wireless grid;
基于P2P结构的无线网格资源发现机制
2.
Scaling Capacity and Dependability for 4G Wireless Grid;
4G无线网格大容量高可靠核心技术研究
3.
This paper introduces a wireless grid technology research and application of the status quo;On the wired and wireless grid collaboration,using wireless gird extension of existing wired grid application;Wireless grids in the mobile equipment of many new functions and resources,and application of mobile wireless devices several new features and resources.
本文介绍了无线网格技术的研究和应用现状;探讨了有线网格和无线网格的协作,利用无线网格扩展现有的有线网格应用;无线网格中移动设备的许多新的功能和资源,以及移动无线设备几种新的功能和资源的应用。
2) wireless mesh
无线格网
1.
Application of wireless mesh on a vehicle scheduling system;
无线格网在车辆调度系统中的应用
3) Wireless Mesh Network(WMN)
无线网格网
1.
The routing technology based on Ad Hoc was introduced into Wireless Mesh Network(WMN)as the default routing standard described in IEEE 802.
无线网格网(WMN)骨干网的静态特性与AdHoc的动态特性完全不同,所以把AdHoc路由协议移植到WMN上并不适用。
4) Wireless Mesh Networks
无线网格网
1.
To guarantee the scalability,the Wireless Mesh Networks(WMNs) should be divided into clusters,while the multi-gateway deployment is the crux of the problem.
为了保证可扩展性,分簇是设计无线网格网(WMNs)的必然选择,而多网关选址是分簇规划的核心。
2.
In this situation, wireless mesh networks (WMNs), as a promising technology to meet the target, are attracting more and more attention from both industry and academia.
在这种形势下,做为下一代无线网络关键技术的无线网格网由于有望满足以上条件而受到了越来越多的关注,成为了工业界和学术界的一个研究热点。
5) gridless routing
无网格布线
1.
Multi-layer gridless routing algorithm with V-shaped framework;
基于V型框架的多层无网格布线算法
2.
A survey on multi-layer gridless routing algorithms;
多层无网格布线算法研究进展
3.
A gridless routing algorithm for VLSI design is presented in this paper.
本文提出一种高性能超大规模集成电路无网格布线算法。
6) wireless mesh networks
无线网格网络
1.
Dynamic Source Routing Protocol in Wireless Mesh Networks Based on Link Quality Routing Metrics;
无线网格网络中基于链路状态参数的动态源路由协议研究
补充资料:无线电台网(见无线电通信)
无线电台网(见无线电通信)
radio communication network
些刃朋diantQiwung尤线电台网(radio communieation net-worlc)见无线电通信。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条