为充分发挥舰船故障信息对保证舰船安全航行的辅助功能,设计大数据环境下的海量多维舰船故障信息控制系统。使用大数据层的大数据采集模块获取海量多维舰船故障信息,并保存至大数据存储模块,利用网络通信层的网络传输通信模块,将存储的故障信息上传到核心服务层,该层运用总体控制模块控制接收到的故障信息,依次完成融合与征兆变量提取。在此基础上,舰船故障诊断模块运用概率神经网络,实现舰船故障辅助诊断。实验结果表明:该系统采集海量多维舰船故障信息时输出的动态范围符合规定标准,采集稳定性较好;能控制故障信息完成征兆变量的精准提取,且对不同海上环境的舰船故障诊断效果均较为理想。
In order to give full play to the auxiliary function of ship fault information to ensure the safe navigation of ships, a massive multi-dimensional ship fault information control system under the big data environment is designed. Use the big data acquisition module of the big data layer to obtain massive and multi-dimensional ship fault information and save it to the big data storage module. Use the network transmission communication module of the network communication layer to upload the stored fault information to the core service layer. This layer uses the overall control module to control the received fault information and complete the fusion and symptom variable extraction in turn. On this basis, the ship fault diagnosis module uses the probabilistic neural network, realize auxiliary fault diagnosis of ships. The experimental results show that the dynamic range of the output of the system when collecting massive multidimensional ship fault information meets the specified standards, and the collection stability is good. It can control the fault information to complete the accurate extraction of symptom variables, and the effect of ship fault diagnosis in different marine environments is ideal.
2022,44(16): 163-166 收稿日期:2022-01-20
DOI:10.3404/j.issn.1672-7649.2022.16.035
分类号:TP183
基金项目:教育部第二批新工科研究与实践项目(E-XTYR20200608);中国劳动关系学院院级科研项目(22XYJS024)
作者简介:张伟(1982-),男,硕士,副教授,研究方向为大数据技术应用及网络安全
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