With the acceleration of urbanization, the security and stability of urban infrastructure has become an important issue of increasing public concern. As an important part of urban infrastructure, the safety of building structures is directly related to the safety of life and property of the general public. In order to monitor the health status of building structures in real time, and timely detect and eliminate potential safety hazards, the building structure health monitoring system came into being. The operation of this system will help ensure the safety and stability of the city's infrastructure and create a safer and more comfortable living environment for citizens.
The witbee building structure health monitoring system uses the perception layer composed of the world's lifeline intelligent monitor—intelligent structure diagnostic, building structure diagnostic, edge computing gateway, and Beidou ground-based enhanced micro base station, and through professional data analysis, it has formed a far stronger role than manual monitoring
1.Real-time monitoring of building structural deformation and damage.
In the process of long-term use, the building structure is affected by a variety of factors, such as **, wind load, temperature change, etc., which may lead to structural deformation and damage. Through the building structure health monitoring system, the deformation and damage of the building structure can be monitored in real time, providing accurate data support for the safety assessment of the structure.
2.Timely warning of potential safety hazards.
Through the analysis of real-time monitoring data, the building structure health monitoring system can detect potential safety hazards in time. Once an abnormal situation is found, the system will immediately send an early warning signal to remind relevant personnel to take timely measures to avoid accidents.
3.Evaluate the durability and load-bearing capacity of building structures.
The durability and load-bearing capacity of the building structure can be assessed through long-term, continuous monitoring. This helps to understand the performance degradation law of the structure and provides a scientific basis for structural maintenance and reinforcement.
4.Improve the level of architectural design.
The application of building structural health monitoring system helps to improve the level of building design. In the design stage, the design scheme is optimized by simulating and analyzing the structural response under different working conditions, and the seismic and wind resistance of the structure is improved.
3. Relevant cases.
1.A large commercial complex.
During the operation of a large commercial complex, a building structural health monitoring system was adopted. The system monitors the deformation and damage of the structure in real time through monitoring instruments arranged in key parts of the building. In the process of operation, once an abnormal situation is found, the system immediately sends out an early warning signal to remind relevant personnel to take corresponding measures to ensure construction safety. At the same time, the system also provides data support for structural design optimization, improving construction efficiency and quality.
2.A high-rise residential building.
In the process of long-term use, a high-rise residential building is affected by a variety of factors, and the structural performance is gradually degraded. In order to keep abreast of the health of the structure, the building has adopted a building structural health monitoring system. Through long-term, continuous monitoring, the system has identified a number of potential safety hazards. After timely maintenance and reinforcement, the accident was effectively avoided and the safety of residents' lives and property was guaranteed. At the same time, the application of the system also provides a scientific basis for the structural maintenance and reinforcement of the building.
Building structural health monitoring systems play an important role in the protection of the city's lifeline. It can monitor the deformation and damage of the building structure in real time, timely warn of potential safety hazards, evaluate the durability and bearing capacity of the structure, and improve the level of building design. Through the introduction of relevant cases, we can see the value and significance of the system in practical applications. In the future, with the continuous progress and development of science and technology, we have reason to believe that the building structure health monitoring system will play a greater role in the maintenance and management of urban infrastructure.