Whole-network monitoring method and system for meteorological data, computer equipment and storage medium

Abstract

The invention relates to a whole-network monitoring method and system for meteorological data, computer equipment and a storage medium, and the method comprises the steps: building a corresponding relation between observation data and a network link according to a radar data identifier and a radar link identifier, and associating the observation data with a key node in a transmission process to build a transmission model; acquiring data information of the observation data through an information processing and storage model, and performing statistical analysis on the data information to obtain monitoring information of the observation data; obtaining state information of all key host nodes in the transmission process of the observation data in real time through a host and file state information collection model; acquiring operation state information of the network equipment in real time through a network equipment state information acquisition model; and acquiring network connectivity information in real time through the network connectivity detection model, and marking each network link in the transmission model. According to the invention, whole-network and whole-process integrated monitoring of meteorological observation data is realized.

Description

technical field [0001] The invention relates to the technical field of meteorological observation, in particular to a method, system, computer equipment and storage medium for monitoring meteorological data across the network. Background technique [0002] Meteorological observation data is an important support for disastrous weather monitoring, early warning, forecasting and services. The timeliness of dynamic monitoring data processing can detect and solve possible abnormalities in the data processing process in a timely manner, optimize the data flow, and ensure that meteorological observation data can be delivered in the shortest possible time. Access to the forecast service platform is the main task of the routine operation monitoring service of the meteorological information network. For a long time, the National Meteorological Information Department has successively developed the 9210 system, the new generation domestic meteorological communication system and the Chin...

AI Technical Summary

Problems solved by technology

However, with the development of the meteorological industry, there are more and more types of real-time observation data, and the timeliness requirements are getting higher and higher. The existing methods of transmission and monitoring of meteorological observation data can no longer meet the needs.

[0003] At present, there are generally some problems in the existing meteorological observation data transmission and monitoring system, including: first, the user can only know the data transmission status (for example: timely, over-limit or missing status, etc.) through the system. It is impossible to know the cause of the exception. If you want to know the reason, you need to pass cumbersome inspections

Second, users can only know the status of the data through the system, but cannot know the status of the network that transmits the corresponding data

Third, for the above second point, even if the network status is obtained through the network monitoring system, the status of the network equipment (interface) that transmits the corresponding data cannot be obtained

Fourth, the existing meteorological observation system cannot judge whether the detection equipment has generated observation data normally in the event of an abnormal situation

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