1) Mobile underwater wireless sensor networks
水下移动无线传感器网络
2) underwater wireless sensor network
水下无线传感器网络
1.
A secure localization algorithm (USA) based on array transmitted for underwater wireless sensor networks (UWSN) is presented in this paper to resolve the problem of safety threats faced by underwater wireless sensor networks.
该算法主要解决水下无线传感器网络(UWSN)面临的一些安全威胁问题。
2.
For wetland water with gentle flow,we present a new coverage control approach,which is based on surface uniform configuration of 3D underwater wireless sensor network(UWSN) and can be applied to wetland water environment monitoring.
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。
3) Underwater wireless sensor networks
水下无线传感器网络
1.
The state-of-the-art underwater wireless sensor networks are overviewed,and several typical structures of underwater wireless sensor networks are also described.
水下无线传感器网络是一种包括声、磁场、静电场等的物理网络,它在海洋数据采集、污染预测、远洋开采、海洋监测等方面取得了广泛的应用,将在未来的海军作战中发挥重要的优势。
4) mobile wireless sensor network
移动无线传感器网络
1.
To address the phenomenon of temporary communication blindness resulted from fixed period beacon exchange in mobile wireless sensor networks,an adaptive beacon exchange algorithm is proposed.
针对移动无线传感器网络中周期性信标交换引起的通信暂盲现象,提出一种自适应信标交换算法。
5) Mobile wireless sensor networks
移动无线传感器网络
1.
So the protocol is scalable and applicable to large-scale mobile wireless sensor networks that require high real-time and reliability performance.
但是,在移动无线传感器网络贪婪地理路由协议中,周期性信标交换条件下采用贪婪转发策略会引起通信暂盲现象,造成数据的丢失。
2.
Researchers have also paid close attention to mobile wireless sensor networks (MWSN) recently.
随着研究的不断深入,移动无线传感器网络也受到了越来越多的关注。
6) wireless mobile sensor networks
无线移动传感器网络
1.
In order to satisfy the application request for target tracking in wireless mobile sensor networks(WMSN),a distributed target tracking algorithm is presented.
为了满足无线移动传感器网络(WMSN)的目标跟踪应用要求,提出了一种分布式目标跟踪算法,可使用节点引导保证WMSN的网络动态连通性;在传统分布式数据融合体系结构的基础上,结合平均一致性滤波器实现了低通信开销的优化分布式数据融合。
补充资料:变压器式传感器
利用变压器作用原理把被测位移转换为初、次级线圈互感变化的变磁阻式传感器。它由两个或多个带铁心的线圈构成,初、次级线圈间的互感能随衔铁或两个线圈间的相对移动而改变。当用适当频率的电压激励初级线圈时,次级线圈的输出电压将随互感的改变而变化,从而将被测位移转换为电压输出。这种传感器在使用中常采取两个同名端串接的次级绕组线圈,以差动方式输出,所以又称为差动变压器式传感器。变压器式传感器的特点与电感式传感器相同,有时亦称电感式传感器。但变压器式传感器在设计上具有更大的灵活性,应用更为广泛。旋转变压器、感应同步器、自整角机都属于变压器式传感器。变压器式传感器主要用于测量位移和能转换成位移量的力、张力、压力、压差、加速度、应变、流量、厚度、比重、转矩等参量。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条