Engineering construction risk source real-time monitoring and artificial intelligence prediction method based on 3DGIS+BIM technology
A technology of engineering construction and real-time monitoring, applied in the field of civil engineering construction, can solve problems such as limited working space, high concealment, and unobjective awareness of safety risks, and achieve the effects of preventing accidents, ensuring construction safety, and improving prediction accuracy
Inactive Publication Date: 2017-11-07
成都亮紫智能科技有限公司
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Problems solved by technology
Underground engineering in civil engineering has the characteristics of high concealment, inaccurate geotechnical physical and mechanical parameters, complex construction technology, limited operating space, harsh operating environment, long construction period, many unforeseen risk factors, and great impact on the social environment. In addition, due to subjective reasons such as unobjective understanding of underground engineering safety risks, unscientific risk management, and insufficient investment in risk management, accidents occur frequently in underground engineering construction, and the situation is very severe
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[0034] The technical solution of the present invention will be further described below in conjunction with the accompanying drawings and the construction of a rail transit project as an example.
[0035] Such as figure 1 Shown is a schematic diagram of real-time monitoring of major risk sources in rail transit, such as figure 2 Shown is the flow chart of the real-time monitoring method for major risk sources in rail transit. The real-time monitoring method for major risk sources in rail transit specifically includes the following steps:
[0036] (1) Using 3DGIS+BIM technology to establish a 3D environment model and a BIM construction management platform;
[0037] The 3D environment model includes terrain data, urban landscape data, geological information, underground pipeline information and project internal information. Geographic Information System (GIS) technology, Building Information Modeling (BIM) technology.
[0038] (2) Monitor major risk sources and upload the dat...
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The invention discloses an engineering construction risk source real-time monitoring and artificial intelligence prediction method based on 3DGIS+BIM technology. The method comprises firstly constructing a 3D environment model and a construction management platform by using 3DGIS+BIM technology; secondly acquiring data by an automatic monitoring means and then uploading the data to the BIM construction management platform; then setting an early-warning value on the BIM construction management platform in order that a system automatically give an alarm when monitored data exceeds the early-warning value; and finally analyzing and processing all the monitored results based on an adaptive gray Fourier index prediction model, predicting a risk trend, and giving early warning prior to a certain risk value. The method determines the safety and steady state of the risk source based on data analysis so as to timely take preventive measures to reduce the danger of the risk source and to avoid a construction risk, thereby effectively preventing accidents and ensuring construction safety.
Description
technical field [0001] The invention belongs to the field of civil engineering construction, and in particular relates to a method for real-time monitoring and artificial intelligence prediction of engineering construction risk sources based on 3DGIS+BIM technology. Background technique [0002] The risk sources of civil engineering construction mainly refer to the factors that have a significant impact on the project itself or the surrounding area environment during the construction process. Such as natural disaster risks (such as heavy rain, floods, mudslides, hurricanes, earthquakes, etc.), geological conditions, surrounding environmental impacts, construction techniques and methods, etc. [0003] The surrounding environment of civil engineering construction operations located in the central area of the city is often complex, with various buildings and underground pipelines, and high requirements for construction deformation control. Underground engineering in civil en...
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Patent Timeline
Login to View More IPC IPC(8): G06Q10/06G06Q10/04G06Q50/08G06T17/05
CPCG06Q10/04G06Q10/0635G06Q50/08G06T17/05
Inventor 李秉展罗紫萍
Owner 成都亮紫智能科技有限公司