基于矿山物联网的井下物资管理系统设计
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摘要
针对井下物资管理混乱、物资消耗信息录入延迟且不准确、劳动力浪费等问题,设计了一套基于矿山物联网的井下物资管理系统,给出了该系统的物联网架构,阐述了该系统功能模块的设计。该系统利用有源RFID标签与智能手持终端从现场环境获取井下物资信息,并通过WiFi网关将数据上传到数据服务器中,服务器将数据处理后转存到数据库中,通过Web技术访问、处理并显示数据,从而实现对井下物资生命周期的实时监测与管理。
In order to solve problems of disordered underground material management,delayed and inaccurate information of material consumption and wasted labour,an underground material management system based on mine Internet of things was designed.Internet of things architecture of the system was given and function module design of the system was described.Material information collected from working environment is obtained by active RFID tag and intelligent handheld terminal,and uploaded to data sever through WiFi gateway.The data is processed in the server and stored in database,and the processed data is accessed,processed and displayed by Web technology.Therefore,real-time monitoring and management of life cycle of underground material can be achieved.
In order to solve problems of disordered underground material management,delayed and inaccurate information of material consumption and wasted labour,an underground material management system based on mine Internet of things was designed.Internet of things architecture of the system was given and function module design of the system was described.Material information collected from working environment is obtained by active RFID tag and intelligent handheld terminal,and uploaded to data sever through WiFi gateway.The data is processed in the server and stored in database,and the processed data is accessed,processed and displayed by Web technology.Therefore,real-time monitoring and management of life cycle of underground material can be achieved.
引文
[1]张申,丁恩杰,徐钊,等.物联网与感知矿山专题讲座之一——物联网基本概念及典型应用[J].工矿自动化,2010,36(10):104-108.ZHANG Shen,DING Enjie,XU Zhao,et al.PartⅠof lecture of Internet of things and sensor mine:basic concept of Internet of things and its typical application[J].Industry and Mine Automation,2010,36(10):104-108.
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[2]张申,丁恩杰,徐钊,等.物联网与感知矿山专题讲座之二——感知矿山与数字矿山、矿山综合自动化[J].工矿自动化,2010,36(11):129-132.ZHANG Shen,DING Enjie,XU Zhao,et al.PartⅡof lecture of Internet of things and sensor mine:sensor mine,digital mine and integrated automation of mine[J].Industry and Mine Automation,2010,36(11):129-132.
[3]张申,丁恩杰,徐钊,等.物联网与感知矿山专题讲座之三——感知矿山物联网的特征与关键技术[J].工矿自动化,2010,36(12):117-121.ZHANG Shen,DING Enjie,XU Zhao,et al.PartⅢof lecture of Internet of things and sensor mine:characteristics and key technologies of sensor mine Internet of things[J].Industry and Mine Automation,2010,36(12):117-121.
[4]张申,丁恩杰,徐钊,等.物联网与感知矿山专题讲座之四——感知矿山物联网与煤炭行业物联网规划建设[J].工矿自动化,2011,37(1):129-132.ZHANG Shen,DING Enjie,XU Zhao,et al.PartⅣof lecture of Internet of things and sensor mine:plan and construction of Internet of things of sensor mine and coal enterprise[J].Industry and Mine Automation,2011,37(1):129-132.
[5]丁恩杰,张申,郁万里.矿山个人双向信息传输系统设计与实现[J].科技导报,2011,29(35):55-59.DING Enjie,ZHANG Shen,YU Wanli.Design and implementation of personal two-way information transmission system for the coal mine[J].Science and Technology Review,2011,29(35):55-59.
[6]钟媛,魏国彬,李翠平,等.基于物联网的矿井设备管理系统设计[J].工矿自动化,2015,41(10):52-55.ZHONG Yuan,WEI Guobin,LI Cuiping,et al.Design of mine equipment management system based on Internet of things[J].Industry and Mine Automation,2015,41(10):52-55.
[7]夏文华.火电厂空气质量参数无线监测系统设计[D].秦皇岛:燕山大学,2016.
[8]李海峰,马海云.Struts2框架的接口和组件的配置研究[J].自动化与仪器仪表,2013(2):3-4.LI Haifeng,MA Haiyun.Study on interface and component configuration of Struts2framework[J].Automation&Instrumentation,2013(2):3-4.
[9]庄保良,侯金奎.基于WiFi的分布式无线数据采集系统[J].信息与电脑,2017(5):141-143.ZHUANG Baoliang,HOU Jinkui.Distributed wireless data acquisition system based on WiFi[J].China Computer and Communication,2017(5):141-143.
[10]张晓光.基于WiFi的无线数据采集系统设计[J].无线互联科技,2016(23):21-22.ZHANG Xiaoguang.Design of wireless data acquisition system based on WiFi[J].Wireless Internet Technology,2016(23):21-22.
[11]闫涛.基于物联网的空气质量监测系统设计与应用技术研究[D].济南:山东大学,2016.
[12]张高敏,王飞飞,周志青.基于WiFi的空气质量实时监测系统设计[J].现代电子技术,2016,39(8):76-79.ZHANG Gaomin,WANG Feifei,ZHOU Zhiqing.Design of WiFi-based real-time monitoring system for air quality[J].Modern Electronics Technique,2016,39(8):76-79.
[13]肖林京,文艺成,孙传余,等.矿井物流管理和人员定位系统数据库设计[J].工矿自动化,2015,41(4):26-29.XIAO Linjing,WEN Yicheng,SUN Chuanyu,et al.Design of database of mine logistics management and personnel positioning system[J].Industry and Mine Automation,2015,41(4):26-29.
[14]曹利刚,冯浩,于盛睿.基于B/S结构陶瓷窑炉远程监测系统软件设计[J].计算机测量与控制,2010,18(12):2894-2897.CAO Ligang,FENG Hao,YU Shengrui.Design of remote monitoring system for ceramic kiln based on B/S architecture[J].Computer Measurement and Control,2010,18(12):2894-2897.
[15]张建军,刘虎,倪芳英.基于SSH与Highcharts整合架构的Web应用研究[J].计算机技术与发展,2013,23(9):245-247.ZHANG Jianjun,LIU Hu,NI Fangying.Research and application of Web architecture based on SSH and Highcharts[J].Computer Technology and Development,2013,23(9):245-247.