Geological hazard monitoring system and method based on low-power communication network

Abstract

The present invention discloses a geological disaster monitoring system and method based on a low -power communication network. By constitutes a star -shaped low -power communication network by forming a monitoring station with multiple monitoring terminals, the data of the monitoring terminal based on dormant and wake -up models will monitor the terminal dataSend to the monitoring station, the monitoring station is executed by the geological disaster warning model that has been trained by the cloud platform to calculate the edge of the data sent by the monitoring terminal, obtain the current geological disaster early warning information, and issue control instructions to link control during the discovery of the disaster situation.Controlling the early warning and disposal of geological disasters. This method not only guarantees the low power operation of the geological disaster monitoring system, but also makes the collection of geological disaster data and the release of early warning information.Discovery, timely alarm and timely disposal.

Description

technical field [0001] The invention relates to the technical field of geological disaster monitoring, in particular to a geological disaster monitoring system and method based on a low power consumption communication network. Background technique [0002] The existing geological disaster monitoring technology mainly obtains the parameter changes of the monitoring points through wiring and various sensors, machinery and other facilities, and infers the geological state of the monitoring points through the corresponding parameter changes. Because earthquakes, landslides, debris flows and other dangerous situations are closely related to the geological environment factors and rainfall conditions of the monitoring sites, and the existing monitoring data cannot effectively collect and use this information, when abnormal situations are monitored, most disasters have already occurred. Can not play the role of early warning. [0003] In the existing disaster early warning system, ...

AI Technical Summary

Problems solved by technology

Because earthquakes, landslides, debris flows and other dangerous situations are closely related to the geological environment factors and rainfall conditions of the monitoring points, and the existing monitoring data cannot be effectively collected and utilized. When abnormal conditions are detected, most disasters have already occurred. Cannot play an early warning role

[0003] In the existing disaster early warning system, most of the data collected by the monitoring equipment at the monitoring point is transmitted through the operator's network. However, in actual situations, once a serious disaster occurs, the operator's network is often destroyed and cannot provide network transmission. , resulting in the disaster monitoring data not being sent out in time, and the expected effect of geological disaster monitoring and early warning cannot be achieved

In addition, once the monitoring equipment at the monitoring point is powered on, it is in a constant working state, regardless of whether there is data transmission, which results in high power consumption and low effective utilization of the monitoring equipment, which increases the cost of geological disaster monitoring and early warning.

Images