WIANA必须处理无线网络的特殊特性,在无线网络中,节点仅仅因为位置的变化就可以从一个层级移动到另一个层级。
WIANA has to address the ad-hoc character of wireless networks, where nodes can move from one hierarchy to another simply by virtue of their location.
系统生命期是无线传感器网络最重要的设计因素之一,而传感器节点的电池能量直接决定着系统生命期。
System lifetime is one of the most important design factors in wireless sensor network. Battery energy of sensor node directly determines system lifetime.
基本的问题是:Linux系统是否有能力与无线网络中的其他接入点相结合,来为固定节点和漫游的无线客户机提供连接?
The fundamental question is this: is a Linux system capable of integrating with other access points in a wireless network to provide connectivity between fixed nodes and roaming wireless clients?
RADIUS客户机是网络访问服务器,它通常是一个路由器、交换机或无线访问点(访问点是网络上专门配置的节点;wap是无线版本)。
The RADIUS client, the network access server, is typically a router, switch, or wireless access point (access points are specially configured nodes on networks; WAPs are wireless versions).
任何对该节点的攻击或者与该节点不适当的无线连接都意味着入侵者已深入到网络内部。
Any hacking or improper wireless connectivity to it means that the intruder is deeply in the network.
网络节点是无线传感器网络的基础。
The network nodes are the foundation of wireless sensor networks.
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.
传感器节点是构建无线传感器网络的基本硬件单元。
Sensor nodes are the basic hardware units for building up wireless sensor networks.
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.
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.
这些直接指导无线传感器网络的节点个数和通讯半径选择,连通可靠性设计。
Those are a guidance of calculating nodes number and radio range in the wireless sensor networks designing.
恶意节点的存在会给无线传感器网络带来一系列的安全隐患。
The existence of malicious nodes may lead to a series of security problems in wireless sensor networks.
无线传感器网络由能量有限的节点组成。
The wireless sensor networks is composed by the energy limited node.
根据无线传感器网络中每个节点到汇聚节点的角度不同,提出一种新的角度路由协议。
A novel routing protocol was proposed according to the Angle of inclination of the nodes involved in wireless sensor network.
节点覆盖是无线传感器网络关键技术之一。
Node coverage is one of the key techniques in Wireless Sensor Netwok (WSN).
由于无线网络存在节点失效、链路断裂等特性,虚拟主干网需要具备一定的容错性。
Because of the inherent node (link) failures in wireless networks, virtual backbones should be fault-tolerant.
传感器节点是无线传感器网络硬件系统的核心。
The most important part of network hardware system in wireless sensor networks is the sensor nodes.
本文主要介绍了无线传感器网络节点的分析和设计。
The main purpose of this paper is to introduce the analysis and design of a node in wireless sensor network.
其次,为了解决整个网络节点能量均衡消耗的问题,研究了无线传感器网络能量多路径路由机制。
Then, in order to balance the energy consumption of network, the multi-path rooting protocol with energy-aware (MP-EA) for wireless sensor networks is researched.
传感器节点定位是整个无线传感器网络的基础。
Node-Positioning technology of sensor is the basis of the whole wireless sensor network.
在估计无线传感器网络未知节点位置时,如何使用与距离无关的贯序蒙特卡罗算法?。
How to use Sequential Monte Carlo method for range-free localization scheme when we estimate the unknown node position in Wireles Sensor Networks?
为无线传感器网络节点单芯片系统的地址重构集成化提供了意义。
The IP core offers more meaning to system on single chip (SOC) in wireless sensor networks address adjustment.
分布在无线网络节点上的每一根天线都有自身信息要传送,且集合起来组成虚拟的天线阵列(VAA)。
Distributed antennas belonging to multiple users in the wireless network are collected, each with their own information to transmit, so that the users form a "virtual antenna array" (VAA).
针对无线传感器网络节点定位问题进行了研究,提出了一种新的节点定位算法,介绍了算法的基本原理和实现方法。
The paper researches positioning algorithms of wireless sensors network and proposes a new positioning algorithm. The basic principle and the implementing approaches of the algorithm are introduced.
提出了一种基于信号到达角信息的无线传感器网络节点自身定位算法。
A location algorithm using Angle of arrival (AOA) information in wireless sensor networks is proposed.
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.
网络中的节点具有无线网络接口,可以自由移动,形成了动态变化的网络拓扑结构。
The nodes in the MANET have wireless network interface and can move freely, form a dynamically changing network topology.
网络中的节点具有无线网络接口,可以自由移动,形成了动态变化的网络拓扑结构。
The nodes in the MANET have wireless network interface and can move freely, form a dynamically changing network topology.
应用推荐