CN113701819A - Building structure monitoring method, monitoring device, monitoring system and storage medium - Google Patents

Abstract

In order to solve the technical problem of difficulty in data redundancy maintenance caused by lack of efficient integration of monitoring parameter data in the prior art, the embodiment of the invention provides a building structure monitoring method, a monitoring device, a monitoring system and a storage medium. The method comprises the following steps: storing original monitoring parameter data of each parameter according to the classification of the parameter; comparing the original monitoring parameter data of each parameter with the monitoring alarm threshold value of each parameter respectively, screening out the monitoring parameter data close to the monitoring alarm threshold value of each parameter, and storing the monitoring parameter data as the parameter alarm data of each parameter according to the classification of the parameters; respectively generating alarm information of each parameter according to the parameter alarm data of each parameter and storing the alarm information in a classified manner according to the category of the item; and calling the alarm information of each parameter for display. The embodiment of the invention reduces the workload of data maintenance in the traditional mode, and reduces the data volume of calling by calling the alarm information of each parameter for display, thereby greatly reducing the maintenance cost.

Description

Building structure monitoring method, monitoring device, monitoring system and storage medium

Technical Field

The invention relates to a building structure monitoring method, a monitoring device, a monitoring system and a storage medium.

Background

Building structure health monitoring is increasingly widely applied to new buildings and existing public buildings and landmark buildings. Building structure health monitoring refers to the strategy and process of damage identification and characterization thereof for engineering structures. Structural damage refers to changes in the structural material parameters and their geometric characteristics. The structural health monitoring process involves the processes of obtaining structural response by using a sensor array for periodic sampling, and determining the current structural health condition through the extraction of damage sensitive indexes and the statistical analysis of the damage sensitive indexes.

At present, research and development aiming at building structure health monitoring devices mainly focus on realization of automatic acquisition, transmission and display of monitoring parameters (structural stress strain, deformation, inclination, dynamic characteristics, environmental wind speed and direction, environmental temperature and humidity, illumination and the like). Therefore, effective, quick and efficient integration and fusion of various monitoring parameter indexes are often ignored; and the building structure monitoring parameter data has the characteristic of large data volume.

When the data volume increases, the problem of difficult data redundancy maintenance easily occurs, and the health monitoring on the building structure is seriously influenced.

Disclosure of Invention

In order to solve the technical problem of difficulty in data redundancy maintenance caused by lack of efficient integration of monitoring parameter data in the existing building structure health monitoring, the embodiment of the invention provides a building structure monitoring method, a monitoring device, a monitoring system and a storage medium.

The embodiment of the invention is realized by the following technical scheme:

in a first aspect, an embodiment of the present invention provides a building structure monitoring method, including:

storing original monitoring parameter data of each parameter according to the classification of the parameter;

comparing the original monitoring parameter data of each parameter with the monitoring alarm threshold value of each parameter respectively, screening out the monitoring parameter data close to the monitoring alarm threshold value of each parameter, and storing the monitoring parameter data as the parameter alarm data of each parameter according to the classification of the parameters;

respectively generating alarm information of each parameter according to the parameter alarm data of each parameter and storing the alarm information in a classified manner according to the category of the item; and calling the alarm information of each parameter for display.

Further, the step of comparing the original monitoring parameter data of each parameter with the monitoring alarm threshold of each parameter, screening out the monitoring parameter data close to the monitoring alarm threshold of each parameter, and storing the monitoring parameter data as the parameter alarm data of each parameter according to the classification of the parameter includes:

and comparing the original monitoring parameter data of each parameter which are stored in a classified manner with the monitoring alarm threshold value of each parameter, and storing the parameter data which are more than or equal to 85% of the monitoring alarm threshold value of each parameter in the original monitoring parameter data of each parameter into the parameter alarm data of each parameter in a classified manner according to the parameter category.

Further, calling alarm information of each parameter for display, including: calling alarm information of each parameter in a hyperlink mode to display;

the classified storage according to the parameter categories comprises the step of storing the same parameter data of all the items as a category;

the classified storage according to the item categories comprises the step of storing all monitoring parameters under each item as a category.

Further, each parameter comprises wind speed, wind direction, inclination angle, strain, temperature or/and unmanned aerial vehicle inspection parameters.

Further, the method also comprises the following steps: and deleting the original monitoring parameter data of each parameter within a certain time regularly or irregularly.

In a second aspect, an embodiment of the present invention provides a building structure monitoring device, including:

the first classification storage unit is used for classifying and storing the original monitoring parameter data of each parameter according to the parameter class;

the comparison unit is used for comparing the original monitoring parameter data of each parameter with the monitoring alarm threshold value of each parameter respectively, and screening out the monitoring parameter data close to the monitoring alarm threshold value of each parameter;

the second classification storage unit is used for classifying and storing the monitoring parameter data close to the monitoring alarm threshold value of each parameter into the parameter alarm data of each parameter according to the parameter class;

the alarm information generating unit is used for respectively generating alarm information of each parameter according to the parameter alarm data of each parameter;

the alarm information storage unit is used for storing the alarm information of each parameter according to the classification of the item; and

and the calling display unit is used for calling the alarm information of each parameter to display.

In a third aspect, an embodiment of the present invention provides a building structure monitoring system, including:

the classified storage module is used for storing the original monitoring parameter data of each parameter according to the parameter class;

the monitoring parameter submodule is used for comparing the original monitoring parameter data of each parameter with the monitoring alarm threshold value of each parameter respectively, screening out the monitoring parameter data close to the monitoring alarm threshold value of each parameter and storing the monitoring parameter data in each monitoring parameter submodule in a classified mode according to the parameter category;

the alarm information generation and storage module is used for respectively generating alarm information of each parameter according to the parameter alarm data of each parameter and storing the alarm information in a classified manner according to the category of the project; and

and the main module is used for calling the alarm information of each parameter in each monitoring parameter submodule for display.

Further, the main module includes:

the retrieval module is used for retrieving the monitoring data corresponding to each monitoring parameter;

the map display module is used for displaying the structural information of the building structure and the position information of the building structure, which are acquired by the original monitoring parameter data;

the login module is used for opening corresponding processing permission by acquiring a user name and a password;

the reading display module is used for reading a detection report of the building structure and displaying report core information;

the sub-display module is used for calling the parameter alarm data in each monitoring parameter sub-module to display; and

and the three-dimensional model display module is used for displaying the three-dimensional model of the building structure.

Furthermore, the sub-display module is used for calling the parameter alarm data in each monitoring parameter sub-module for display in a hyperlink mode.

In a fourth aspect, embodiments of the present invention provide a computer-readable storage medium having stored thereon instructions that, when executed on a computer, perform the building structure monitoring method.

Compared with the prior art, the embodiment of the invention has the following advantages and beneficial effects:

according to the building structure monitoring method, the monitoring device, the monitoring system and the storage medium, original monitoring parameter data of each parameter are subjected to two times of unloading according to the parameter category, alarm information of each parameter is generated after parameter alarm data of each parameter are obtained, the alarm information is stored according to the item category and then the alarm information display is called, so that only the alarm information is displayed on a display module for displaying the alarm information, whether a certain parameter has a problem or not can be judged through whether the alarm information is normally updated on the display system, and only the parameter stored in the corresponding parameter category needs to be maintained during maintenance without influencing the normal use of other parameters; when the detected data needs to be expanded, the detected data can be increased by adding the parameter types or the item types, and the normal use of the data under other parameter types or the item types is not influenced.

The workload of data maintenance in the traditional mode is greatly reduced, the alarm information of each parameter is called for display, the called data volume is reduced, and the maintenance cost is greatly reduced; therefore, the technical problem that data redundancy maintenance is difficult due to the fact that efficient integration is not available for monitoring parameter data in the existing building structure health monitoring is solved.

Drawings

In order to more clearly illustrate the technical solutions of the exemplary embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and that for those skilled in the art, other related drawings can be obtained from these drawings without inventive effort.

Fig. 1 is a schematic flow chart of a building structure monitoring method.

Fig. 2 is a schematic diagram of a server.

Fig. 3 is a schematic diagram of a building structure monitoring system.

FIG. 4 is a schematic diagram of a data execution flow of the wind speed sub-module.

Fig. 5 is a flow chart of a building structure monitoring process.

FIG. 6 is a schematic diagram of a link of the main module invoking a sub-interface of the monitoring parameter sub-module.

FIG. 7 is a link diagram of a main interface for a main module to invoke a monitoring parameter sub-module.

Fig. 8 is a schematic view of a login main interface of a building curtain wall operation monitoring platform.

Fig. 9 is a schematic diagram of a main interface of the building curtain wall operation monitoring platform after login.

FIG. 10 is a diagram illustrating the main interface item retrieval and item display.

Fig. 11 is a diagram illustrating display contents of specific items.

FIG. 12 is a schematic view of a sub-interface displaying wind speed parameter alarm data.

Detailed Description

The invention is further described with reference to the following figures and specific embodiments. It should be noted that the following examples are provided to aid understanding of the present invention, but are not intended to limit the present invention. Specific structural and functional details disclosed herein are merely illustrative of example embodiments of the invention. This invention may, however, be embodied in many alternate forms and should not be construed as limited to the embodiments set forth herein.

It will be understood that, although the terms first, second, etc. may be used herein to describe various elements, these elements should not be limited by these terms. These terms are only used to distinguish one element from another. For example, a first element could be termed a second element, and, similarly, a second element could be termed a first element, without departing from the scope of example embodiments of the present invention.

It should be understood that, for the term "and/or" as may appear herein, it is merely an associative relationship that describes an associated object, meaning that three relationships may exist, e.g., a and/or B may mean: a exists alone, B exists alone, and A and B exist at the same time; for the term "/and" as may appear herein, which describes another associative object relationship, it means that two relationships may exist, e.g., a/and B, may mean: a exists independently, and A and B exist independently; in addition, for the character "/" that may appear herein, it generally means that the former and latter associated objects are in an "or" relationship.

It will be understood that when an element is referred to herein as being "connected," "connected," or "coupled" to another element, it can be directly connected or coupled to the other element or intervening elements may be present. In contrast, when an element is referred to herein as being "directly connected" or "directly coupled" to another element, it is not intended that an intervening element be present. In addition, other words used to describe the relationship between elements should be interpreted in a similar manner (e.g., "between … …" versus "directly between … …", "adjacent" versus "directly adjacent", etc.).

It is to be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments of the invention. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises," "comprising," "includes" and/or "including," when used herein, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, numbers, steps, operations, elements, components, and/or groups thereof.

It should also be noted that, in some alternative implementations, the functions/acts noted may occur out of the order noted in the figures. For example, two figures shown in succession may, in fact, be executed substantially concurrently, or the figures may sometimes be executed in the reverse order, depending upon the functionality/acts involved.

It should be understood that specific details are provided in the following description to facilitate a thorough understanding of example embodiments. However, it will be understood by those of ordinary skill in the art that the example embodiments may be practiced without these specific details. For example, systems may be shown in block diagrams in order not to obscure the examples in unnecessary detail. In other instances, well-known processes, structures and techniques may be shown without unnecessary detail in order to avoid obscuring example embodiments.

Examples

In order to solve the technical problem of difficulty in data redundancy maintenance caused by lack of efficient integration of monitoring parameter data in the existing building structure health monitoring, an embodiment of the present invention provides a building structure monitoring method, which is shown in fig. 1, and the method, taking a server as an execution subject, includes:

s101, storing original monitoring parameter data of each parameter according to parameter types in a classified mode.

The classified storage according to the parameter categories comprises the step of respectively storing the same parameter data of all items according to the categories of the parameters.

And receiving data packets collected by each monitoring device at each monitoring point of each monitoring project, and storing the data packets to corresponding parameter categories according to the monitored parameter categories. Such as wind speed parameters, the wind speed data of each project is stored under the same parameter category. The other parameters are similar.

S102, comparing the original monitoring parameter data of each parameter with the monitoring alarm threshold value of each parameter, screening out the monitoring parameter data close to the monitoring alarm threshold value of each parameter, and storing the monitoring parameter data as the parameter alarm data of each parameter according to the classification of the parameters.

Taking the wind speed parameter as an example, comparing the original monitoring parameter data of the wind speed with the wind speed monitoring alarm threshold of the building project, screening out the original monitoring parameter data of the wind speed close to the wind speed monitoring alarm threshold, and storing the original monitoring parameter data of the wind speed as the wind speed parameter alarm data according to the parameter category, namely storing the wind speed parameter alarm data of all projects under the same parameter category. The remaining parameters follow this treatment.

The monitoring alarm threshold value can be set according to actual conditions or can be determined according to the design standard of the building structure.

The proximity refers to a difference between the monitoring alarm threshold and the original monitoring parameter data being positive and less than or equal to 30% of the monitoring alarm threshold, or the proximity refers to the corresponding original monitoring parameter data being greater than or equal to the monitoring alarm threshold.

If the original monitoring parameter data of the temperature is 35 ℃, the monitoring alarm threshold value is 40 ℃, and the difference value of the monitoring alarm threshold value and the monitoring alarm threshold value is 5 ℃, the difference value is 12.5 percent of the monitoring alarm threshold value; less than 30% of the alarm threshold. Thus, storing the data as temperature parameter alarm data; and if the original monitoring parameter data of the temperature is 41 ℃, the temperature is greater than the monitoring alarm threshold value, and the data is stored as temperature parameter alarm data.

And S103, respectively generating alarm information of each parameter according to the parameter alarm data of each parameter and storing the alarm information in a classified manner according to the category of the item.

The classified storage according to the item categories comprises the step of storing all monitoring parameters under each item as a category.

The alarm information of each parameter is generated according to the parameter alarm data of each parameter, and the alarm information of each parameter can be generated according to the parameter alarm data of each parameter to generate yes or no alarm information. The generation mode can be that a part of or all data which is close to the monitoring alarm threshold value in each parameter alarm data is respectively generated into 'yes' or 'no' alarm information.

Taking the wind speed parameters as an example, the wind speed parameter alarm data of each parameter respectively generate corresponding alarm information, and the corresponding alarm information is classified and stored according to the category of the project. The project category can be all monitoring buildings in a certain cell or all monitoring buildings in a certain urban area; and all the alarm information stored according to the parameter types is stored again according to different item types. For example, the wind speed monitoring building parameters of a certain building in the A cell are stored in the project category of a certain building in the A cell. And simulating the processing of other parameters, and finally, under the item category of the cell A, including alarm information of all monitoring parameters of the building monitored by the cell A.

And S104, calling alarm information of each parameter to display.

Taking the wind speed parameter as an example, the wind speed alarm information monitoring display interface is directly called to display. The remaining parameters follow this treatment.

Optionally, the original monitoring parameter data of each parameter, the parameter alarm data of each parameter, and the alarm information of each parameter are stored in different hardware positions according to the classification of the parameter.

The original monitoring parameter data of each parameter is transferred and stored twice according to the parameter category to obtain the parameter alarm data of each parameter, then the alarm information of each parameter is generated and stored according to the item category and then the alarm information is called to be displayed, therefore, only the alarm information is displayed on the monitoring end displaying the alarm information, only the alarm information is called when the main interface of the monitoring end checks the monitoring data of a specific item, which greatly reduces the data processing amount and reduces the bug generation probability, because each monitoring parameter is stored in a classified way, the monitoring parameter data which is newly added later only needs to be added and called on the main interface of the monitoring end, such as linking to the new alarm information, the monitoring can be completed without changing the monitoring data of other items, thereby greatly reducing the maintenance workload, and when the bug occurs to the data under a certain parameter category or item category, the specific parameter category or item category can be quickly positioned, the bug is convenient to modify in the later period, so that the maintenance cost is greatly reduced; obviously, independent development and operation of the sub-modules are realized through two times of unloading, high-efficiency integration of data is realized, data redundancy is reduced, and maintenance is facilitated.

Specifically, the overall flow is shown in fig. 5. Firstly, receiving data packets of each acquisition device, and completing first unloading by classifying and storing data according to parameter classes, such as wind speed, wind direction, temperature and the like; screening the original data after the classified storage processing, classifying and storing the parameter alarm data of each parameter according to the parameter category, generating alarm information according to the parameter alarm data of each parameter, classifying and storing the alarm information as certain parameter alarm data of a certain item according to the item category, and displaying the parameter alarm data by calling a hyperlink mode, for example.

Optionally, the original monitoring parameter data of each parameter stored in a classified manner is respectively compared with the monitoring alarm threshold of each parameter, and the parameter data of more than or equal to 85% of the monitoring alarm threshold of each parameter in the original monitoring parameter data of each parameter is stored as the parameter alarm data of each parameter in a classified manner according to the parameter category.

Optionally, invoking alarm information of each parameter for display, including: calling alarm information of each parameter in a hyperlink mode to display;

the classified storage according to the parameter categories comprises the step of storing the same parameter data of all the items as a category;

the classified storage according to the item categories comprises the step of storing all monitoring parameters under each item as a category.

Optionally, the various parameters include, but are not limited to, wind speed, wind direction, inclination, strain, temperature, or/and drone patrol parameters.

Further, the method also comprises the following steps: and deleting the original monitoring parameter data of each parameter within a certain time regularly or irregularly.

Deleting original monitoring parameter data 3 years ago regularly or irregularly within a certain time, for example; the data processing amount is greatly reduced, and the bug generation probability is reduced.

In a second aspect, an embodiment of the present invention provides a building structure monitoring device, as shown in fig. 2, the device including:

the first classification storage unit is used for classifying and storing the original monitoring parameter data of each parameter according to the parameter class;

the comparison unit is used for comparing the original monitoring parameter data of each parameter with the monitoring alarm threshold value of each parameter respectively, and screening out the monitoring parameter data close to the monitoring alarm threshold value of each parameter;

the second classification storage unit is used for classifying and storing the monitoring parameter data close to the monitoring alarm threshold value of each parameter into the parameter alarm data of each parameter according to the parameter class;

the alarm information generating unit is used for respectively generating alarm information of each parameter according to the parameter alarm data of each parameter;

the alarm information storage unit is used for storing the alarm information of each parameter according to the classification of the item; and

and the calling display unit is used for calling the alarm information of each parameter to display.

The principle and implementation of the building structure monitoring device refer to the monitoring method, which is not described herein again.

In a third aspect, an embodiment of the present invention provides a building structure monitoring system, and referring to fig. 3, the monitoring system includes:

the classified storage module is used for storing the original monitoring parameter data of each parameter according to the parameter class;

the monitoring parameter submodule is used for comparing the original monitoring parameter data of each parameter with the monitoring alarm threshold value of each parameter respectively, screening out the monitoring parameter data close to the monitoring alarm threshold value of each parameter and storing the monitoring parameter data in each monitoring parameter submodule in a classified mode according to the parameter category;

the alarm information generation and storage module is used for respectively generating alarm information of each parameter according to the parameter alarm data of each parameter and storing the alarm information in a classified manner according to the category of the project; and

and the main module is used for calling the alarm information of each parameter in each monitoring parameter submodule for display.

Further, the main module includes:

the retrieval module is used for retrieving the monitoring data corresponding to each monitoring parameter;

the map display module is used for displaying the structural information of the building structure and the position information of the building structure, which are acquired by the original monitoring parameter data;

the login module is used for opening corresponding processing permission by acquiring a user name and a password;

the reading display module is used for reading a detection report of the building structure and displaying report core information;

the sub-display module is used for calling the parameter alarm data in each monitoring parameter sub-module to display; and

and the three-dimensional model display module is used for displaying the three-dimensional model of the building structure.

Furthermore, the sub-display module is used for calling the parameter alarm data in each monitoring parameter sub-module for display in a hyperlink mode.

Referring to fig. 3-7, the building structure monitoring system adopts modular processing, each module is an independent subsystem, a certain sub-module is a self-made system, the breakdown of the sub-module does not affect other modules, different sub-modules do not interfere with each other, and the breakdown of the sub-module does not affect a main module therein. The building structure monitoring system comprises a classified storage module, a monitoring parameter sub-module and a main module; the monitoring parameter submodule can be deleted or expanded according to the requirement. The wind speed, the inclination angle, the strain, the temperature and the like of the monitoring parameter sub-module can independently form independent modules, and are independently developed according to the modules, but the storage rules of the database should be similar. To facilitate modifying the code to add new parameters.

A login interface of the main module and a project data retrieval module. The integrated login function and map display, brief information map update and project data retrieval function project monitoring alarm information integration module integrates alarm information of monitoring parameters of various projects.

The classified storage according to the item categories comprises the step of storing all monitoring parameters under each item as a category.

Specifically, referring to fig. 3 and 6, the sub-module stores the raw data under the parameter folders according to the parameter categories, and the parameter folders of each parameter category include parameter data of each item, such as wind speed, wind direction, inclination angle and the like.

Each submodule generates alarm data of each parameter by comparing the parameter data in the parameter folder of each parameter category with an alarm threshold; each submodule generates alarm information according to the alarm data and stores the alarm information according to the item type; and finally, displaying through the main module.

Taking wind speed as an example, the wind speed submodule stores original wind speed data of each project under a wind speed parameter folder; comparing the original wind speed data of each project in the wind speed parameter folder with a wind speed threshold, storing the screened wind speed alarm data of each project according to the wind speed parameter category, and optionally storing the wind speed alarm data in the same wind speed alarm data folder; and the wind speed sub-module generates wind speed alarm information of each project according to the wind speed alarm data of each project, and forwards and stores the wind speed alarm information of the building (project) A into the alarm information file A according to the project type, and optionally stores the wind speed alarm information of the building (project) B into the alarm information file B. And then the main module calls the data of the B alarm information folder for display.

And other parameters are simulated, and the parameter alarm information of all buildings (projects) is stored in respective alarm information folders in each building (project) so as to facilitate calling and subsequent maintenance. It should be noted that each sub-module for monitoring parameters can be infinitely extended as required, for example, an illumination sub-module can be added; the added sub-modules and the existing sub-modules work independently without mutual influence, thereby facilitating the calling and the subsequent maintenance.

Specific examples are shown with reference to fig. 8-12. The building structure monitoring system is an existing building curtain wall operation monitoring platform, and the main interface of fig. 8 enters the system through user login and administrator login of a login interface and simultaneously develops corresponding management authority or access authority; FIG. 9 shows the map display module and the project retrieval module on the main interface after login, and a building at a corresponding position can be selected through the map display module; searching a corresponding monitoring item through an item retrieval module; the results of the specific search items are shown in fig. 10; clicking on a specific item results in the content shown in fig. 11. Entering a sub-interface from the main interface, for example, calling parameter alarm data in the sub-interface of fig. 12, and displaying the hyperlink access ports of the monitoring points and the monitoring parameters of a certain project and project name.

As shown in fig. 11, the reading display module of the system may enter the inspection detection report to provide a corresponding download port, and generate core information; the core information includes the latest detection date, engineering address, construction time and the like. Optionally, the three-dimensional model display module of the building structure monitoring system may further display the three-dimensional model of the building structure by embedding the three-dimensional display model in the web model.

In a fourth aspect, embodiments of the present invention provide a computer-readable storage medium having stored thereon instructions that, when executed on a computer, perform the building structure monitoring method.

According to the method and the device, original monitoring parameter data of each parameter are subjected to two times of unloading according to the parameter category to obtain parameter alarm data of each parameter, then alarm information of each parameter is generated and stored according to the item category, and then alarm information display is called, so that only the alarm information is displayed on a display module for displaying the alarm information, whether a certain parameter has a problem can be judged through whether the alarm information is normally updated on a display system, and only the parameter stored in the corresponding parameter category needs to be maintained during maintenance without influencing the normal use of other parameters; when the detected data needs to be expanded, the detected data can be increased by adding the parameter types or the item types, and the normal use of the data under other parameter types or the item types is not influenced.

The workload of data maintenance in the traditional mode is greatly reduced, the alarm information of each parameter is called for display, the called data volume is reduced, and the maintenance cost is greatly reduced; therefore, the technical problem that data redundancy maintenance is difficult due to the fact that efficient integration is not available for monitoring parameter data in the existing building structure health monitoring is solved.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. A building structure monitoring method, comprising:

storing original monitoring parameter data of each parameter according to the classification of the parameter;

comparing the original monitoring parameter data of each parameter with the monitoring alarm threshold value of each parameter respectively, screening out the monitoring parameter data close to the monitoring alarm threshold value of each parameter, and storing the monitoring parameter data as the parameter alarm data of each parameter according to the classification of the parameters;

respectively generating alarm information of each parameter according to the parameter alarm data of each parameter and storing the alarm information in a classified manner according to the category of the item;

and calling the alarm information of each parameter for display.

2. The building structure monitoring method according to claim 1, wherein the comparing the raw monitoring parameter data of each parameter with the monitoring alarm threshold value of each parameter respectively, screening out the monitoring parameter data close to the monitoring alarm threshold value of each parameter and storing the monitoring parameter data as the parameter alarm data of each parameter according to the classification of the parameters comprises:

and comparing the original monitoring parameter data of each parameter which are stored in a classified manner with the monitoring alarm threshold value of each parameter, and storing the parameter data which are more than or equal to 85% of the monitoring alarm threshold value of each parameter in the original monitoring parameter data of each parameter into the parameter alarm data of each parameter in a classified manner according to the parameter category.

3. The building structure monitoring method according to claim 1, wherein invoking the alarm information of each parameter for display comprises: calling alarm information of each parameter in a hyperlink mode to display;

the classified storage according to the parameter categories comprises the step of storing the same parameter data of all the items as a category;

the classified storage according to the item categories comprises the step of storing all monitoring parameters under each item as a category.

4. The building structure monitoring method according to claim 1, wherein the parameters comprise wind speed, wind direction, inclination angle, strain, temperature or/and unmanned aerial vehicle inspection parameters.

5. The building structure monitoring method of claim 1, further comprising: and deleting the original monitoring parameter data of each parameter within a certain time regularly or irregularly.

6. A building structure monitoring device, comprising:

the first classification storage unit is used for classifying and storing the original monitoring parameter data of each parameter according to the parameter class;

the comparison unit is used for comparing the original monitoring parameter data of each parameter with the monitoring alarm threshold value of each parameter respectively, and screening out the monitoring parameter data close to the monitoring alarm threshold value of each parameter;

the second classification storage unit is used for classifying and storing the monitoring parameter data close to the monitoring alarm threshold value of each parameter into the parameter alarm data of each parameter according to the parameter class;

the alarm information generating unit is used for respectively generating alarm information of each parameter according to the parameter alarm data of each parameter;

the alarm information storage unit is used for storing the alarm information of each parameter according to the classification of the item; and

and the calling display unit is used for calling the alarm information of each parameter to display.

7. A building structure monitoring system, comprising:

the classified storage module is used for storing the original monitoring parameter data of each parameter according to the parameter class;

the monitoring parameter submodule is used for comparing the original monitoring parameter data of each parameter with the monitoring alarm threshold value of each parameter respectively, screening out the monitoring parameter data close to the monitoring alarm threshold value of each parameter and storing the monitoring parameter data in each monitoring parameter submodule in a classified mode according to the parameter category;

the alarm information generation and storage module is used for respectively generating alarm information of each parameter according to the parameter alarm data of each parameter and storing the alarm information in a classified manner according to the category of the project; and

and the main module is used for calling the alarm information of each parameter in each monitoring parameter submodule for display.

8. The building structure monitoring system according to claim 7, wherein the main module comprises:

the retrieval module is used for retrieving the monitoring data corresponding to each monitoring parameter;

the map display module is used for displaying the structural information of the building structure and the position information of the building structure, which are acquired by the original monitoring parameter data;

the login module is used for opening corresponding processing permission by acquiring a user name and a password;

the reading display module is used for reading a detection report of the building structure and displaying report core information;

the sub-display module is used for calling the parameter alarm data in each monitoring parameter sub-module to display; and

and the three-dimensional model display module is used for displaying the three-dimensional model of the building structure.

9. The building structure monitoring system according to claim 8, wherein the sub-display module is configured to invoke the parameter alarm data in each monitoring parameter sub-module for display by means of a hyperlink.

10. A computer-readable storage medium characterized by: the computer-readable storage medium has stored thereon instructions that, when executed on a computer, perform the building structure monitoring method according to any one of claims 1 to 5.

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