摘要
为了提高海洋环境变化下渔港渔船安全监管能力,提出了海洋环境变化下渔港渔船安全监管可追溯系统设计方案.首先构建海洋环境变化下渔港渔船安全监管系统的总体构架,采用嵌入式的Linux设计系统的集成模块,进行海洋环境变化下渔港渔船安全监管可追溯控制.结合模糊信息调度方法进行渔港渔船安全监管可追溯信息处理设计,该系统主要功能模块有渔港渔船安全监管信息采集模块、嵌入式模糊信息调度模块、交叉编译模块、远程监控模块、视频信息分析模块和人机交互模块.在海洋环境变化下,进行渔港渔船安全监管过程中的大数据分析和优化调度.实验结果表明:所设计渔港渔船安全监管可追溯系统稳定性能较好,所需时间开销较少,时间响应能力较好,同时渔港渔船数据读写输入输出结果保持一致,提高了海洋变化环境下渔港渔船安全监管可追溯能力.
In order to improve the safety supervision ability of fishing vessels in fishing ports,this paper puts forward the design scheme of traceability system for safety supervision of fishing vessels in fishing ports under the change of marine environment.Firstly,the overall framework of the safety supervision system is constructed,and the integrated module of the embedded Linux design system is used for the traceability control of fishing vessel safety supervision,and the traceability information processing is designed by the fuzzy information scheduling method.The main function modules of the system include fishing vessel safety supervision information collection module,embedded fuzzy information scheduling module,cross compilation module,remote monitoring module,video information analysis module and human-computer interaction module.Under the change of marine environment,the process of fishing vessel safety supervision is analyzed with big data and optimized.The experimental results show that the traceability system has good stability,less time and strong time response ability.At the same time,the input and output of fishing vessel data are consistent,which can improve the traceability of safety supervision.
作者
严岩
陈添铮
何伟
YAN Yan;CHEN Tian-zheng;HE Wei(Fujian Polytechnic of Information Technology, Fuzhou Fujian 350001, China;Fuzhou Marine and Fishery Technology Center, Fuzhou Fujian 350001, China;School of Economics and Management, Minjiang University, Fuzhou Fujian 350001, China)
出处
《菏泽学院学报》
2020年第2期60-64,共5页
Journal of Heze University
基金
福州市科技计划项目(2016-S-117)。
关键词
海洋环境变化
渔港渔船
安全监管
可追溯系统
人机交互
the change of marine environment
fishing vessel
safety supervision
traceability system
human-computer interaction
