The data collected by data Acquisition Node are transmitted to the network coordination by wireless mode. Network coordinator reported data to the ARM through serial port protocol.
数据采集节点采集到的数据经无线方式传输到网络协调器,网络协调器经串口协议将数据上报给ARM处理器。
Practice shows that the node can realize the acquisition and wireless transmission of sensor data, and the definition and application of TEDS data.
实践证明,该节点实现传感器数据的采集与无线传输,以及TEDS数据的定义与应用。
Tested by experiments, the node can achieve data acquisition and remote control display.
通过试验测试,该节点能实现数据的采集(如温度)和远程遥控显示。
The use of group head rotation mechanism, node with more energy reserves and the optimal location forward packets to other nodes, node with less energy reserves is responsible for data acquisition.
采用组头轮换机制,使能量储备较多和位置最优的节点担任组播节点承担转发任务,能量储备较少的节点负责数据采集任务。
This dissertation studies the data acquisition and network node detection of.
本文把系统分为两个部分:数据采集和节点检测。
Sensor node is the basic hardware platform in wireless sensor networks. It is a micro-embedded system which has signal acquisition, data processing, wireless communication and other functions.
传感器节点是无线传感器网络的基础性硬件平台,是一个具有信号采集、数据处理、无线通信等功能的微型嵌入式系统。
Based on this design idea, the wireless sensor node can be used to build the topology of network and realize several sensor data acquisition and transportation efficiently.
基于该设计方案实现的无线传感网络节点可以有效地组建网络拓扑结构及多种传感数据采集传输。
The proposal based on USB Host/Slave controller chip CH375A, realized a USB-Host embedded in CAN bus data acquisition system and stored acquisition data of each node in U flash disk under MCU control.
该方案基于USB主/从控制芯片CH375A,在单片机的控制下,实现了CAN总线数据采集系统中嵌入USB主机,从而完成把各节点采集的数据存入U盘,取代了现场数据采集系统必须有一台计算机的模式。
Cable-free node system and wireless geophone network shows great superiority in land high density seismic acquisition in terms of cost, weight, reliability, and data quality.
基于网络传输技术的无线单点检波器用于高密度三维地震数据采集具有采集能力强、采集投入低、采集设计方便、施工效率高等优势。
The principle and the whole structure of the data acquisition system are given. The main concerns are software and hardware design, the realization and the rules of the intelligent node of CAN.
给出了此系统的原理及整体结构,重点阐述了CAN总线智能节点的软硬件设计、实现与注意事项。
The principle and the whole structure of the data acquisition system are given. The main concerns are software and hardware design, the realization and the rules of the intelligent node of CAN.
给出了此系统的原理及整体结构,重点阐述了CAN总线智能节点的软硬件设计、实现与注意事项。
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