基于SAE云平台的疏浚管道磨损远程监测平台设计
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摘要
为了实时监测疏浚管道磨损情况,避免爆管风险,延长管道使用寿命,设计了一种基于SAE云平台的疏浚管道磨损远程实时监测平台。在对SAE云平台的架构原理进行分析的基础上,提出了监测平台的总体设计方案,进行了SAE云服务器的部署和云数据库的设计,利用HTTP GET方法实现数据传输。最后,经管道磨损实验台的调试验证,监测平台能够远程实时获取所测管段的壁厚信息,实现了数据的远程接收、显示和存储,具有较好的可行性和可靠性。
In order to monitor the wear of dredged pipelines in real time, avoid the risk of pipe bursting and prolong the service life of the pipeline, a remote real-time monitoring platform for dredging pipeline wear based on SAE cloud platform was designed. Firstly, based on the analysis of the architecture principle of SAE cloud platform, the overall design scheme of the monitoring platform was proposed. Then the SAE cloud server deployment and cloud database design were carried out, and the data transmission was realized by HTTP GET method. Finally, through the pipeline wear test bench debugging verification, the monitoring platform can obtain the wall thickness information of the measured pipe segments in real time, and realize the remote reception, display and storage of data, which has good feasibility and reliability.
In order to monitor the wear of dredged pipelines in real time, avoid the risk of pipe bursting and prolong the service life of the pipeline, a remote real-time monitoring platform for dredging pipeline wear based on SAE cloud platform was designed. Firstly, based on the analysis of the architecture principle of SAE cloud platform, the overall design scheme of the monitoring platform was proposed. Then the SAE cloud server deployment and cloud database design were carried out, and the data transmission was realized by HTTP GET method. Finally, through the pipeline wear test bench debugging verification, the monitoring platform can obtain the wall thickness information of the measured pipe segments in real time, and realize the remote reception, display and storage of data, which has good feasibility and reliability.
引文
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[2] 蒋爽,倪福生,谢子阳,等.基于GPRS的疏浚钢管远程测厚系统的研究[J].机械与电子,2017,35(11):51-54.
[3] 晏涛,胥建群.基于遗传算法煤粉管道磨损状况在线监测[J]. 能源研究与利用, 2003(5):14-16.
[4] Kaita T, Nishioka H, Sugiyama Y, et al. Basal study on reliability improvement of thickness measuring result by applying portable ultrasonic thickness gauge to corroded plate[C]// International Structural Engineering and Construction Conference,2013:453-458.
[5] 付元杰.自动超声波测厚信号噪声成因及对策分析[J]. 装备制造技术,2011(5):88-89.
[6] 魏海潮,李丽芳,李伟娜,等.一种多通道超声波测厚系统的研究[J]. 传感器世界, 2011, 17(6):19-22.
[7] 孙德明,何正嘉.快速构建基于Web的远程测控系统[J].计算机工程与应用,2003,39(23):160-162.
[8] 刘锐. 基于B/S架构的客户服务系统的设计与实现[D]. 沈阳:东北大学, 2014.
[9] 吴水平, 关桂霞, 焦健楠,等.基于SAE云平台的仿生偏振导航测量误差分析[J].全球定位系统,2016, 41(2):43-49.
[10] 刘瑶. PaaS云平台技术研究与应用[D]. 西安:长安大学,2015.
[11] 王雪,董博.基于SAE云计算平台进行教学实践[J]. 电脑知识与技术, 2016, 12(4):64-65.
[12] Ye S, Wang C D, Lin K C, et al. Schedule management application ‘WiDay’based on SAE cloud platform[C]//2015 Ninth International Conference on Frontier of Computer Science and Technology, 2015:292-297.
[13] 樊宁.云数据库的关键技术探析[J]. 电子技术与软件工程, 2015(19):200.
[14] 孙远辉.云服务资源管理体系架构及可视化技术研究[D].济南:山东大学, 2011.