1.In a small scale WSN, he sensor nodes can be placed regularly and the location of each node can be assumed to be known in advance.
在小型的无线感应器网络中,所有的节点可以人工布置,并实现手动定位。
2.Wireless sensor network (WSN) are usually used to monitor environment by collecting data from sensors deployed in a particular area.
无线传感器网络经常被用来采集物理数据,监测环境变化。
3.Moreover, the reliability objective of WSN must be achieved within a certain real-time delay bound posed by the application.
此外,无线传感器网络可靠性的目标必须是在一定的实时实现延迟的约束所带来的应用程序。
4.The main part of this dissertation is to design a routing strategy for WSN applying to water-saving irrigation control system.
本文的主要内容是设计一个适用于节水灌溉控制系统的无线传感器网络路由策略。
5.WSN can sense, inspect and gather the information of a given objector environment through wireless communication between each node.
传感器节点通过相互之间的分工协作,可实时感知、监测和采集分布区域内的监测对象或周围环境的信息。
6.Simulation results show this policy can balance energy consumption better than other policies, and can notably extend the lifecycle of WSN.
仿真实验表明该路由策略能够较好地均衡节点的能耗,从整体上显著延长WSN的生存期。
7.WSRF. NET is a set of software libraries, tools and applications which implement the WSRF and WSN families of specifications on top of .
NET是一套软件库,工具和应用程序的执行WSRF和无线传感器网络家庭的规格最高的。
8.Therefore, the research and improvement of WSN power management is of certain reference value to extend the monitoring system's lifetime.
因此,文中的能耗管理研究对延长仓库监测系统寿命具有一定的参考价值。
9.So we proposed a new time synchronization algorithm combing with clusters. It aimed at the application of a large scale, high-density WSN.
因此本文针对大规模、高密度随机部署的传感器网络应用环境融入分簇的思想,提出一种新型的时间同步算法。
10.In the collaboration algorithm of this paper WSN is pided into clusters in which collaboration strategy is built.
本文的协同算法首先将网络分成一个个的簇,然后在簇内构造任务协同策略。