It introduce some details of acoustic sensor node design.
还有声音传感器节点的具体设计。
Optimum sensor node deploying may prolong system lifetime effectively.
传感器节点的合理布置可以有效延长系统生命期。
Study of embedded wireless sensor node design and communicating realization;
传感器节点是无线传感器网络硬件系统的核心。
Sensing range is the maximum range within which a sensor node can detect a target.
传感器节点能够感知的物理世界的最远距离称为节点的感知距离。
To monitor the objects, the sensor node has to set up different types of sensor units.
如果布置一个无线感知网络去担任监测任务,其节点需要配置多种不同类型的传感器单元。
Increasing PC to sensor node parameter modification function according to actual needs.
根据实际需要,增加了上位机对传感器节点参数的修改功能。
The energy of sensor node is very limited, this reduces the lifetime of wireless sensor networks.
传感器节点上的能量非常有限,从而影响无线传感器网络的生命周期。
HANS MULDER and DAVID E. CULLER have collaborated for many years on wireless sensor node research.
穆德与卡勒在无线感测节点研究上已合作多年。
Technological processes in the hardware and software structure of the sensor node are involved in detail.
详细说明了节点设计的硬件结构和软件中的程序流程。
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。
Through this routing protocol, we can control every sensor node to consume energy equably while saving energy.
通过此路由协议,我们可以控制各传感器节点在节省能量的同时相对均匀地消耗能量。
To the sensor node deployment problem, physical meanings of the sensor networks' coverage problem are focused.
关于传感器网络节点布设的应用,重点介绍了传感器网络中覆盖问题的物理意义。
To make both problems tractable, we have the assumption that each sensor node keeps working since it turns on.
为了使问题可解,我们假定每个节点在开启后将一直保持工作状态。
This article introduces a kind of intelligent sensor node in measuring and controlling system based on CAN bus.
本文介绍了一种基于CAN总线的测控系统智能传感器的硬件设计方案。
In the thesis, we study emphatically how to design and implement high-precision and low-noise sound sensor node.
本文对如何实现高精度低噪声的无线声音传感器节点进行了重点研究。
At last, the new sensor node was tested, and the experimental results validate the practicability of the scheme.
最后,对新设计的传感器节点进行了测试,证明了该方案的可行性。
This paper researches strategy of energy-conserving for several consuming energy parts in sensor node, respectively.
针对传感器节点中消耗能量的几个组成部分,分别进行了节能策略的研究。
Then the designing bases on MSP430F2254 microcontroller and CC2420 low-power sensor node temperature acquisition system.
然后设计了一种基于MSP430F 2254微控制器和CC 2420低功耗的传感器节点温度采集系统方案。
The designing sensor node can use timer interrupt to make nodes sleep periodically, which greatly reduces energy consumption.
本文设计的节点采用定时器中断来使节点周期性的进入睡眠状态,从而大大的减少了能耗。
The remaining energy and the position of the sensor node were taken as the parameter to optimize the process of cluster-head selection.
本文主要针对无线传感器网络能量高效的簇首选举算法和最优簇数的选择进行研究。
This paper introduces the software and hardware design of CAN intelligent sensor node, which is used in a distributed motion control system.
介绍了应用于某分布式运动控制系统的CAN智能传感器节点的软硬件设计。
By the test, the sensor nodes in the hardware modules work stability, and in this sensor node hardware platform software modules operating normally.
通过测试表明,传感器节点在硬件方面、软件方面各个模块工作稳定,电子鼻节点功能正常。
System lifetime is one of the most important design factors in wireless sensor network. Battery energy of sensor node directly determines system lifetime.
系统生命期是无线传感器网络最重要的设计因素之一,而传感器节点的电池能量直接决定着系统生命期。
This algorithm finds a sensor node that has detected the target, and then using local messages between neighboring nodes to follow the trail of the target.
该算法首先找到一个曾监测到目标的节点,然后利用相邻节点间的本地消息跟踪目标的运动轨迹。
This example shows that a given sensor node may be connected to different types of sensors, each with a different sampling rate and range of allowed values.
这个例子说明一个给定的传感器节点可需要连接到不同类型的传感器,具有不同的采样率和取值范围。
Based on Sensor node, Script node and event transfer of VRML, a virtual assembly of complicated machine can be realized. But the process is rather cockamamie.
基于VRML的检测节点、脚本节点以及事件传递机制,可以实现较为复杂的虚拟机械装配,但实现过程较为繁琐。
Wireless sensor node as a micro-device, has limited power supply energy. So the energy consumption of the node has a direct impact on the lifetime of the node.
无线传感器节点作为微型器件,电源能量有限,故节点的能耗直接影响着节点的寿命。
The experimental results show that under this communication protocol, the sensor node has a small energy consumption and the system has a low packet loss rate.
实验结果表明,该通信协议下,传感节点具有较小的能耗,系统具有较低的丢包率。
For the limited energy of one sensor node and the complexity of application circumstances, any research of sensor network must deal with the problem of energy-saving.
无线传感器节点能量有限并且应用环境复杂,所以对它的任何研究都必须考虑节能的问题。
For the limited energy of one sensor node and the complexity of application circumstances, any research of sensor network must deal with the problem of energy-saving.
无线传感器节点能量有限并且应用环境复杂,所以对它的任何研究都必须考虑节能的问题。
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