生存期是跳时超宽带无线传感网的一个关键参数。
The lifetime is a critical parameter for time hopping ultra wide band(TH-UWB) wireless sensor networks.
无线传感网作为一种新型的监测手段,能很好地实现对毛竹林生态系统的监测。
Thus, as a new monitoring method, the wireless sensor network could be applied in a bamboo stand ecological system.
针对事件监测应用的特点,提出了一种简单、有效的基于栅格的无线传感网感知调度方法。
In this paper, an efficient grid-based sense scheduling method for event detection in Wireless Sensor Networks is proposed.
本文针对线型无线传感网,基于网络节点平均能量消耗最小化原则,提出了一种能量有效的节点配置方案(EENDS)。
In the linear wireless sensor networks, an energy-efficient node deployment scheme (EENDS) is proposed to minimize the average energy consumption per node.
提出了一种基于无线个域网(WPAN)的传感器应用设计方法。
This paper presents a Sensor Applications Design(SAD) method for Wireless Personal Area Networks(WPAN).
在无线体域网环境中,人体作为各种传感器节点的承载体影响着整个网络中的信道特性,使得环境中的信道具有快速时变的特性。
In WBAN, human body which is considered as the carrier of all kinds of sensor nodes will influence the channel characteristic, and this makes the channel time varying.
针对场监测应用的特点提出了一种基于不规则三角网(TIN)的无线传感器网络节点调度方法。
Proposes an efficient TIN-based node schedule method for field estimation in wireless sensor networks.
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.
IEEE 802.15.4是低速率无线个人区域网的无线通信标准,很多研究机构把它作为无线传感器网络的通信标准。
Standard IEEE802.15.4 is the wireless communication standard for low-rate wireless personal area networks and many research organizations regard it as the wireless communication standard for WSN.
IEEE 802.15.4是低速率无线个人区域网的无线通信标准,很多研究机构把它作为无线传感器网络的通信标准。
Standard IEEE802.15.4 is the wireless communication standard for low-rate wireless personal area networks and many research organizations regard it as the wireless communication standard for WSN.
应用推荐