Design and Development of a Quality Evaluation and Monitoring System for the Short-term Weather Forecast in Gansu Province
DOI: https://doi.org/10.62517/jbdc.202401207
Author(s)
Zhe Niu, Jie Fu*
Affiliation(s)
Gansu Meteorological Information and Technical Equipment Support Center, Lanzhou, Gansu, China
*Corresponding Author.
Abstract
In order to further improve the development of the meteorological observation quality management system in Gansu Province, this article takes the organic integration of quality management and meteorological observation as the concept, and combines practical business applications to develop a scoring model to quantitatively evaluate the quality of short-term warning signals and observation data transmission in Gansu Province. At the same time, a visual model is developed to achieve a personalized monitoring and analysis system for the entire process of “monitoring warning service”. System users can monitor the actual situation of various meteorological disasters, analyze disasters, and assess risks in the system, and display and apply decision information, thereby improving the scientific and standardized level of meteorological observation business management.
Keywords
Meteorological Disasters; Warning Signals; Observation Quality System
References
[1] Guo Fangwei, Meng Yaobin. Comparative analysis of disaster warning information dissemination methods for the public. China Disaster Reduction, 2012, (23):51-53
[2] Luo Yinhao, Fu Minjun, Qian Xuecheng. Design and Implementation of Jiangxi Province Early Warning Signal Scoring System. Meteorological and Disaster Reduction Research, 2021, 44 (03):235-240
[3] Peng Xingde, Wang Biao, Yang Jing, et al. Design, development, and application of a quality inspection system for meteorological disaster warning signals. Mid low latitude mountain meteorology, 2019, 43 (06):81-88
[4] Chen Qichuan. Design and Implementation of Comprehensive Management System for Meteorological Disaster Early Warning Signals in Fujian Province. Meteorological, Hydrological and Oceanic Instruments, 2020, 37 (02):63-66. DOI: 10.19441/j.cnki. issn1006-009x. 2020.02.015
[5] Tian Guanghui, Shen Xiaoyun, Wu Yu. Design and Implementation of Hainan Meteorological Disaster Warning Signal Effectiveness Evaluation System. Computer and Modernization, 2023 (05):75-79+85
[6] Zhang Lili, Lv Minghui, Sui Jianli, et al. Research on the timeliness evaluation model for the release of major meteorological disaster warning information in Inner Mongolia. Science and Technology Innovation and Application, 2024, 14 (02): 11-15. DOI: 10. 19981/j.CN23-1581/G3. 2024.02.003
[7] Zhang Wenjian. World Meteorological Organization Integrated Observation System (WIGOS). Meteorology, 2010, 36 (03):1-8
[8] Wu Xincai, Guo Lingling, Bai Yuqi WebGIS Development Technology Analysis and System Implementation. Computer Engineering and Applications, 2001 (05):96-99
[9] He Lin, Gao Gaoshu, Feng Jieqiong, et al. Research and Implementation of Key Technologies for Integrating Provincial Multi source Fusion Live Products into “Tianqing”. Shaanxi Meteorology, 2024, (02):69-75
[10] Huang Zhi, Huang Heng, Liang Weiliang, et al. Preliminary Exploration of Business Integration Design and Application Based on “Tianqing” DPL. Meteorological Research and Application, 2022, 43 (01):73-77. DOI: 10. 19849/j.cnki CN45-1356/P. 2022.1.13.