Nowadays, the most popular topic of WSNs is routing protocol.
现今无线传感器网络中最受关注的话题是路由协议的研究。
Routing is one of the key problems in Wireless Sensor Networks (WSNs).
路由是无线传感器网络的关键问题之一。
The proposed protocol can maintain 1-coverage and 1-connectivity of WSNs.
该协议能够保证网络的1度覆盖和1度连通。
Therefore, the dissertation concentrates on the research of localization in WSNs.
因此,本论文围绕无线传感器网络定位技术展开研究。
This paper mainly deals with the range-based self-localization algorithm in WSNs.
定位技术的核心是定位算法,本文主要研究基于测距的WS N自定位算法。
The application of wireless sensor networks (WSNs) in medicinal field was reviewed.
综述无线传感器网络的研究进展及其在医药学领域的应用。
Node scheduling is a commonly used way for large-scale WSNs to extend the lifetime.
节点调度是一种常用的延长大规模无线传感器网络生命期的方法。
In this paper, analyses the research of routing protocols in WSNs at home and abroad.
本文首先分析了无线传感器网络路由协议的国内外研究现状。
Time redundancy is used to reduce faulty alarm rate for transient faults of nodes in WSNs.
对于网络中存在的节点瞬时故障,通过时间冗余的检测方法,降低故障诊断的虚警率。
This paper gives the system hardware and software design of embedded WSNs car security system.
本文给出了嵌入式无线传感器汽车防盗系统的软硬件设计方案。
The shortage of effective security solutions has become a major obstacle to the applications of WSNs.
缺乏有效的安全方案已成为阻碍传感器网络应用的主要障碍。
Minimizing energy consumption to prolong the system lifetime is one of major design objectives for WSNs.
节能以延长网络寿命是无线传感器网络的一个主要设计目标。
The node power consumption, environment and application all influence the WSNs node power supply greatly.
节点的功耗、布撒环境以及具体应用等因素,都对节点的能量供给有重大影响。
It is one of the central problems in Wireless Sensor Networks (WSNs) to design rational routing algorithm.
设计合理的路由算法是无线传感器网络中的核心问题之一。
Design and implementation of sensor node which is the physical unit of WSNs is one of the key issues in WSNs.
作为无线传感器网络物理载体的传感器节点的设计与实现是无线传感器网络的关键问题之一。
In Wireless Sensor networks (WSNs), energy hole problem is a key factor of affecting the lifetime of networks.
无线传感器网络中的能量洞问题是影响网络寿命的关键因素之一。
Because power supply for nodes is limited and hard to replace, energy conservation becomes a key problem in WSNs.
由于节点的供电单元能量有限且不易更换,能量消耗成为无线传感器网络的核心问题。
Specifically, WSNs can only be deployed after many key technologies, one of which is security issues, to be solved.
无线传感器网络在应用之前需要解决很多关键问题,安全问题即是其中之一。
The design of communication protocol stack in WSNs is firstly studied with the operating system—WORIX we developed.
在实验室自主开发的操作系统WORIX的基础上,研究了无线传感器网络操作系统通信协议栈。
In this paper, a novel clustering algorithm is proposed, which is suitable for the non-uniformly distributed LS-WSNs.
该文针对节点非均匀分布的大规模WSN,提出了一种分簇算法。
Updating the system with new functionality, or fixing software bugs. Hence, reprogramming of WSNs is a designed feature.
因此,在无线传感网络节点操作系统设计时,低功耗是一个具有挑战的新问题。
A quantitative evaluation algorithm for network layer QoS in wireless sensor networks (WSNs) was proposed in this paper.
提出了一种无线传感器网络的网络层服务质量的量化评价算法。
Performance analysis and simulation results show that the proposed algorithm can reduce the amount of transmission load in WSNs.
模拟分析表明,该算法有效地减少了网络中的数据传输量。
Afundamental challenge in the design of wireless sensor networks (WSNs) is to over-come resource-constraints: energy and bandwidth.
在设计无线传感器网络时,基本的问题是克服能量与带宽的限制。
Energy source provided for sensors, processors and antennas is usually battery cell, which is impossible to recharge during WSNs work.
传感器节点中的传感器,处理器和天线的能源通常都是由电池提供的,所以在传感器网络运行中是无法进行充电的。
A novel deterministic directed diffusion routing protocol was proposed for wireless sensor networks (WSNs) to prolong network lifetime.
提出了一种新的确定性无线传感器网络定向扩散路由协议以延长网络生存期。
The layered network model and MP-EA(multi-path routing protocols with energy-aware protocol) of WSNs(wireless sensor networks) are studied.
研究了无线传感器分层网络模型及能量多路径路由机制。
Since the body movement is quite different from other kinds of motion, dynamic topology changes of WBAN are also very different from other WSNs.
由于人体的运动有着不同于其他事物运动的规律,无线体域网的动态拓扑变化必然与其他无线传感器网络拓扑变化有很大不同。
Since the body movement is quite different from other kinds of motion, dynamic topology changes of WBAN are also very different from other WSNs.
由于人体的运动有着不同于其他事物运动的规律,无线体域网的动态拓扑变化必然与其他无线传感器网络拓扑变化有很大不同。
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