In this paper, a novel energy efficient routing protocol based on location information for UWB wireless sensor network is proposed.
论文提出了一种新的基于位置的节能超宽带无线传感网路由协议。
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 target location problem was transformed into the one that locates the target at a grid point through modeling the sensor region as a network grid.
通过把传感区域模型化为网格,将目标定位问题转化为确定目标在某个网格点的问题。
Because of restricted resources, localization algorithms in wireless sensor network need to consider location accuracy, price of network and costs of communication and computing in general.
传感器网络由于资源受限,定位算法需要综合考虑定位精度,网络构建成本,通信、计算开销等多方面因素。
A key obstacle to high accuracy location is the Non Line of Sight (NLOS) transmission of signal in wireless sensor network node localization. NLOS error is the main source of location error.
在无线传感器网络定位中,节点精确定位面临的一个主要问题是信号的非视距传播,非视距误差是节点定位误差的主要来源。
In wireless sensor network the layout and overlay of nodes, network communication agreement and node location are some basic problems in sensor network research.
本文的开头部分,重点介绍了无线传感器网络的组织结构、特点和应用领域,阐述了研究无线传感器网络节点定位十分有意义。
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。
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.
本文针对湿地水流较为平缓的特点,提出一种适用于湿地水环境监测、基于表面均匀配置的三维水下无线传感器网络覆盖控制方法。
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.
本文针对湿地水流较为平缓的特点,提出一种适用于湿地水环境监测、基于表面均匀配置的三维水下无线传感器网络覆盖控制方法。
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