A cloud platform and method for safety monitoring of underground engineering construction based on big data

Abstract

The invention discloses a real-time online monitoring cloud platform and online monitoring method for underground engineering construction safety based on big data analysis. By collecting environmental parameters of the underground engineering construction area and counting the construction environment risk coefficient of the underground engineering, at the same time, the underground engineering has been constructed. The project carries out pressure detection, settlement detection and soil vibration frequency detection, and then combines the detection results to calculate the fracture risk coefficient, settlement risk coefficient and vibration risk coefficient of the constructed underground project, and then combines the above risk factors to calculate the comprehensive construction risk coefficient of the underground project. The range of monitoring indicators for underground engineering construction safety has been improved, the comprehensiveness of the monitoring scope has been improved, the shortcomings of the current monitoring methods for underground engineering construction safety have been made up, the reliability of monitoring results has been improved, and the monitoring level of underground engineering construction safety has been improved. , which meets the current comprehensive and high-reliability monitoring requirements for underground engineering construction safety.

Description

technical field [0001] The invention belongs to the technical field of underground engineering construction safety monitoring, and in particular relates to a real-time online monitoring cloud platform and online monitoring method for underground engineering construction safety based on big data analysis. Background technique [0002] With the continuous progress of our country's society and economy, people have increased the protection of the ecological environment on the ground, and more and more underground engineering projects have been put into construction, which has increased the use of underground space resources. Underground engineering includes construction projects such as underground houses, subways, and highway tunnels. Because the construction environment of underground engineering is relatively complex and the construction is difficult, the construction period of underground engineering is relatively long. Once a collapse occurs during construction, it is easy t...

AI Technical Summary

Problems solved by technology

As we all know, compared with ground construction, the harmful gas content of underground construction is much higher than that of the ground. At the same time, the underground construction area has poor ventilation. Once the harmful gas content accumulates and exceeds the standard content, it will pose a huge threat to the safety of construction personnel.

To sum up, it can be seen that the current monitoring method for underground engineering construction safety has the disadvantages of single monitoring index and one-sided monitoring, resulting in low reliability of monitoring results, and it is difficult to meet the current comprehensive and high-reliability monitoring requirements for underground engineering construction safety.

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