{"title":"基于无线传感网络的数据采集及远程监控系统研究与实现 Study and Implementation of Collecting Data and Remote Monitoring System Based on WSN","authors":"余其江, 高飞, 邢传玺, 包玉仙","doi":"10.12677/HJWC.2017.73014","DOIUrl":null,"url":null,"abstract":"针对无线传感网络节点在采集数据时存在大量冗余信息、数据准确性不高及系统监控不方便的问题,提出了一种基于无线传感网的数据采集及远程监控系统的设计方案。系统利用WSN节点完成对外部环境各参数的实时采集,对WSN节点的网络组建、数据传输、数据融合及传输到上位机进行了软件设计,并通过WIFI作为传输手段,构建了远程监控平台。测试结果表明,该系统可实现对外部环境远程实时监测,且使用数据融合算法使得节点间传输速率增大和数据准确性提高。 A data acquisition and remote monitoring system based on technique of WSN for solving the prob-lems of a large number of redundant data, low data accuracy and monitoring inconvenient was put forward when WSN nodes collect data. The system finished real-time acquisition of external envi-ronment parameters by WSN nodes and a software design for building network, data transmission, data fusion and transmit to the monitoring center. A means of transmission by WIFI was to build the remote monitoring platform in system. Test results indicate that: the system can accomplish remote monitoring for external environment and improve data accuracy and transmission rate by using data fusion.","PeriodicalId":66606,"journal":{"name":"无线通信","volume":"07 1","pages":"111-117"},"PeriodicalIF":0.0000,"publicationDate":"2017-06-19","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"无线通信","FirstCategoryId":"1093","ListUrlMain":"https://doi.org/10.12677/HJWC.2017.73014","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
针对无线传感网络节点在采集数据时存在大量冗余信息、数据准确性不高及系统监控不方便的问题,提出了一种基于无线传感网的数据采集及远程监控系统的设计方案。系统利用WSN节点完成对外部环境各参数的实时采集,对WSN节点的网络组建、数据传输、数据融合及传输到上位机进行了软件设计,并通过WIFI作为传输手段,构建了远程监控平台。测试结果表明,该系统可实现对外部环境远程实时监测,且使用数据融合算法使得节点间传输速率增大和数据准确性提高。 A data acquisition and remote monitoring system based on technique of WSN for solving the prob-lems of a large number of redundant data, low data accuracy and monitoring inconvenient was put forward when WSN nodes collect data. The system finished real-time acquisition of external envi-ronment parameters by WSN nodes and a software design for building network, data transmission, data fusion and transmit to the monitoring center. A means of transmission by WIFI was to build the remote monitoring platform in system. Test results indicate that: the system can accomplish remote monitoring for external environment and improve data accuracy and transmission rate by using data fusion.
基于无线传感网络的数据采集及远程监控系统研究与实现 Study and Implementation of Collecting Data and Remote Monitoring System Based on WSN
A design scheme for a data acquisition and remote monitoring system based on wireless sensor networks is proposed to address the problems of a large amount of redundant information, low data accuracy, and inconvenient system monitoring when collecting data for wireless sensor network nodes. The system utilizes WSN nodes to collect real-time parameters of the external environment, and designs software for network construction, data transmission, data fusion, and transmission to the upper computer of WSN nodes. Through WIFI as the transmission method, a remote monitoring platform is constructed. The test results show that the system can achieve remote real-time monitoring of the external environment, and the use of data fusion algorithms increases the transmission rate between nodes and improves data accuracy. A data acquisition and remote monitoring system based on technology of WSN for solving the prob-columns of a large number of redundant data, low data accuracy and monitoring inconveniently was put forward when WSN nodes collect data The system completed real-time acquisition of external environment parameters by WSN nodes and a software design for building network, data transmission, data fusion and transfer to the monitoring center A means of transmission by WIFI was to build the remote monitoring platform in the system Test results indicate that: the system can comply with remote monitoring for external environment and improve data accuracy and transmission rate by using data fusion