The paper focuses on the research of wireless sensor network nodes deployment optimization algorithms.
研究了无线传感器网络节点的优化部署算法。
Considered a reliable data transmission and wireless sensor network nodes 'life, we analyze and design the data transmission network of node multi-hop routing protocol.
综合考虑数据的可靠传输性和无线传感器网络的节点使用寿命,对网络节点的数据传输多跳路由协议进行分析与设计。
Then, taking strain wireless sensor network nodes as a specific application object, dynamically reconfigurable self-healing wireless sensor nodes are realized in sen sor module.
然后,以应变无线传感网络节点为具体应用对象 ,设计实现了传感模块可动态重构自修复无线传感网络节点;
Due to the limitations on size, power, storage capacity and communication capabilities of wireless sensor network nodes, a number of factors need to be considered for its design.
无线传感器网络节点因受到体积、能耗、存储容量和通信能力等诸方面的限制,节点的设计需考虑诸多因素。
Wireless sensor network nodes can collaborate on real-time monitoring, such as tasks, and the collected mass data processing, and then sent through a wireless network in a timely manner to the user.
无线传感器网络中的各个节点相互协作可以进行实时监测,感知和采集测试对象的各种信息,并把收集到的海量数据进行处理,然后通过无线网络及时发送给用户。
The Wireless Sensor Network (WSN), because of its self-organizing characteristic, robustness and huge quantity of nodes, is perfectly suitable for target tracking.
无线传感器网络由于其自组织性、鲁棒性及节点数量巨大的特点,非常适合于目标跟踪。
This paper proposes a novel intelligent estimation algorithm in Wireless Sensor Network (WSN) nodes location based on Free Search (FS) to improve the precision in location estimation.
为提高无线传感器网络(wsn)的节点定位的估计精度,提出基于自由搜索优化的智能估计定位算法。
The network nodes are the foundation of wireless sensor networks.
网络节点是无线传感器网络的基础。
Design of a wireless sensors network is given. Hardware organization, power characteristics and communication model of sensor nodes are introduced in detail.
给出了一种无线传感器网络的设计,详细讨论了传感器节点的硬件组织、电源特征和通信模式。
Wireless sensor networks consist of a large number of low-power, short-lived, unreliable sensor nodes, one of main goals is to prolong network lifetime.
无线传感器网络是由大量低能量、短寿命、不可靠的传感器结点组成的,延长网络寿命是一个主要的目标。
A key challenge in wireless sensor networks is to achieve maximal network lifetime with dynamic power management on sensor nodes.
在无线传感器网络中,如何动态地管理能量,最大限度地延长网络的生命周期是一个关键的问题。
The wireless sensor network is a multi-hop wireless network which is made up of a lot of distributed smart sensor nodes.
无线传感器网络是由许多分布的智能传感器节点组成的多跳无线网络。
The biggest drawback of wireless sensor network is that nodes have very limited energy, storage space and computing ability.
无线传感器网络最大的缺点是节点能量受限,同时存储空间及计算能力等资源也非常有限。
Abstract: Beacon nodes are playing an important role in wireless sensor network localization, which are used as the reference nodes to calculate the target position.
摘要:信标节点在无线传感器网络定位技术中起着重要的作用,它作为参考节点决定着被定位目标的位置。
Wireless sensor network is a multi-hop wireless network which is made up of a lot of distributed smart sensor nodes.
无线传感器网络是由大量智能传感器节点组成的多跳无线网络。
These tiny sensor nodes consist of sensors, data processing components and communications components, and the sensor nodes achieve the concept of wireless sensor network.
传感器采集到的信息能够通过多跳的方式在传感器节点之间传输,从而构成无线传感器网络。
A wireless sensor network (WSN) consists of multiple sensor nodes and each sensor can sense certain physical phenomena like light, temperature or vibrations around its location.
一个无线传感器网络有很多的传感器节点组成,并且每个节点有能力传感其周围物理空间的一些属性,比如光线,温度,或者震动等等。
Wireless sensor network is composed by a large number of low-cost tiny sensor nodes deployed in the detection region, which is a self-organized multi-hop network formed by the wireless communication.
无线传感器网络是由布置在检测区域内大量的廉价微型传感器节点组成,通过无线通信方式形成的一个多跳的自组织的网络系统。
Clustering algorithms are the most important method for hierarchy routing in wireless sensor network; especially the sensor nodes are limited by poor energy and bandwidth.
分簇算法是无线传感器网络中实施分层路由所采用的重要方法,尤其是传感器节点受到能量和带宽的严重制约。
The most important part of network hardware system in wireless sensor networks is the sensor nodes.
传感器节点是无线传感器网络硬件系统的核心。
Wireless sensor network is a multihop and self-organized network formed from a large amount of wireless sensor nodes by wireless communication.
无线传感器网络是由监测区域内布置的大量无线传感器节点,通过无线通信方式形成的多跳的自组织网络。
A novel routing protocol was proposed according to the Angle of inclination of the nodes involved in wireless sensor network.
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。
Data fusion technology is one of the important measures of reducing the data traffic, saving the energy of the nodes and prolonging network lifetime in wireless sensor network (WSN).
无线传感器网络中,数据融合技术是降低网络数据通信量、节省节点能耗和延长网络寿命的重要措施之一。
Therefore, wireless sensor network must have the self-organizing ability to solve their routing between sensor nodes.
无线传感器网络需要能够自行解决传感器节点间的路由问题,具备自组织能力。
This paper introduces the architecture, communication protocol, sensor nodes of wireless sensor network.
传感器节点是无线传感器网络硬件系统的核心。
In a random deployment wireless sensor network, there are a large number of coverage and connectivity redundant nodes, which waste energy, and affect network performance.
随机部署的无线传感网络通常包含大量的覆盖与连通冗余节点,这些节点不仅造成大量的能源浪费,同时影响网络的性能。
Wireless sensor network normally consists of a large number of distributed nodes that organize themselves into a multi-hop wireless network.
无线传感器网络通常包含大量的自组织为多跳无线网络的分布式节点。
Wireless sensor network is a self-organization and multi-hop network system which deploys a large number of sensor nodes in the monitoring field ruly or randomly.
无线传感器网络是将大量传感器节点采用规则或随机方式部署在监测区域,通过无线通信自组织方式所构成的网络。
Wireless Sensor network is a kind of self-organizing network, which is composed of many small nodes wired by wireless communication technologies.
无线传感器网络是由大量的微小节点通过无线通信技术组成的自组织网络。
Wireless Sensor network is a kind of self-organizing network, which is composed of many small nodes wired by wireless communication technologies.
无线传感器网络是由大量的微小节点通过无线通信技术组成的自组织网络。
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