Design and development of marine meteorological disaster early warning system for ocean buoy station based on multiple communication modes
Pang Mingwen1, Luo Jingjing2, Huang Sheng2, Zhang Ting3, Huang Yanbo4,5, Cai Min4
1. Hepu Meteorological Bureau of Guangxi Zhuang Autonomous Region,Guangxi 536000; 2. Nanning Meteorological Bureau of Guangxi Zhuang Autonomous Region,Guangxi 530000; 3. Chongzuo Meteorological Bureau of Guangxi Zhuang Autonomous Region,Guangxi 532500; 4. Beihai Meteorological Bureau of Guangxi Zhuang Autonomous Region,Guangxi 536000; 5. Beihai National Climate Observatory Open Laboratory,Guangxi 536000
Abstract:In order to further strengthen the capacity building of marine meteorological monitoring and early warning service,this paper designed a marine meteorological disaster early warning system for ocean buoy station based on multiple communication modes.The system consists of five parts:data collection,transmission,processing,analysis and release.The data collection and transmission part is mainly responsible for collecting and transmitting various meteorological data and information,including real-time data of buoys and detectors,data of various meteorological stations,etc,ensuring the quality and accuracy of the data and ensuring the reliability of the data source.The data processing and analysis part is mainly responsible for processing and analyzing the collected data,including data correction,integration,mining and model establishment,forming various meteorological disaster prediction models and early warning indicators,effectively monitoring the occurrence of marine meteorological disasters and timely decision-making,providing important reference and guarantee for decision makers and the public.
庞茗文, 罗晶晶, 黄圣, 张婷, 黄燕波, 蔡敏. 基于多种通信方式的海洋浮标站海洋气象灾害预警系统设计与开发[J]. 气象水文海洋仪器, 2024, 41(1): 111-114.
Pang Mingwen, Luo Jingjing, Huang Sheng, Zhang Ting, Huang Yanbo, Cai Min. Design and development of marine meteorological disaster early warning system for ocean buoy station based on multiple communication modes. Meteorological Hydrological and Marine Instrument, 2024, 41(1): 111-114.