CN117436840A - Intelligent monitoring method and device for modularized building, electronic equipment and medium - Google Patents

Abstract

The application relates to the technical field of safety, in particular to a modularized building intelligent monitoring method, a modularized building intelligent monitoring device, electronic equipment and a modularized building intelligent monitoring medium. Matching the obtained modularized building information with preset building information, and if the modularized building information is not successfully matched with the preset building information, determining error building information; determining error position information corresponding to the error building information based on the error building information; determining an erroneous building unit based on the erroneous location information; and generating fault maintenance information according to the error building unit and feeding back and displaying the fault maintenance information. The method and the device can improve the accuracy of the modularized building monitoring result and simultaneously provide accurate building unit fault maintenance information.

Description

Intelligent monitoring method and device for modularized building, electronic equipment and medium

Technical Field

The application relates to the technical field of safety, in particular to a modularized building intelligent monitoring method, a modularized building intelligent monitoring device, electronic equipment and a modularized building intelligent monitoring medium.

Background

With the continuous development of building industrialization, modular buildings are receiving more and more attention. However, as modular buildings evolve, so too does the need for health monitoring and early warning systems for modular buildings.

The traditional modularized building monitoring method mainly adopts manual timing inspection; or the sensor is used for detecting the building, and the data transmitted by the sensor is analyzed manually, so that the building state is judged.

However, in the traditional modularized building monitoring method, the monitoring result is easily affected by human factors by adopting a manual mode, and the reason of the fault cannot be rapidly and accurately determined by adopting a manually dominant monitoring mode.

Disclosure of Invention

In order to provide accurate building unit fault maintenance information while improving accuracy of modularized building monitoring results, the application provides an intelligent modularized building monitoring method, device, electronic equipment and medium.

In a first aspect, the present application provides a modular building intelligent monitoring method, which adopts the following technical scheme:

a modular building intelligent monitoring method comprising:

matching the obtained modularized building information with preset building information, and if the modularized building information is not successfully matched with the preset building information, determining error building information;

determining error position information corresponding to the error building information based on the error building information;

Determining an erroneous building unit based on the erroneous location information;

and generating fault maintenance information according to the error building unit and feeding back and displaying the fault maintenance information.

By adopting the technical scheme, after the modularized building information is acquired, the modularized building information is matched with the preset building information, and the reason of the abnormal modularized building is primarily judged by means of the matching condition of the preset building information and the modularized building information; if the modular building information is not successfully matched with the preset building information, the fact that the modular building is abnormal at the moment is indicated, and information inconsistent with the preset building information is determined to be error building information; determining error position information corresponding to the error building information through the error building information; analyzing the error position information, further determining an error building unit, generating fault maintenance information based on the error building unit, and finally feeding the fault maintenance information back to display equipment for display; therefore, the accuracy of the modularized building monitoring result is improved, and meanwhile, corresponding building unit maintenance information is provided, so that maintenance staff is helped to quickly maintain.

In one possible implementation manner, the preset building information includes a plurality of preset sub-building information, and if the modular building information is not successfully matched with the preset building information, determining the wrong building information includes:

Splitting the modularized building information to determine a plurality of sub-modularized building information;

matching the plurality of sub-modularized building information with a plurality of preset sub-building information;

the plurality of sub-modularized building information corresponds to the plurality of preset sub-building information one by one;

if the matching of any sub-modularized building information and any preset sub-building information is unsuccessful, determining error building information;

the error building information is sub-modularized building information which is not successfully matched with the preset sub-building information.

By adopting the technical scheme, the modularized building information is split to obtain a plurality of sub-modularized building information; each piece of sub-modularized building information has preset sub-building information uniquely corresponding to the sub-modularized building information; then matching the sub-modularized building information with the corresponding relation with preset sub-building information, when matching of any sub-modularized building information with any preset sub-building information is unsuccessful, indicating that deviation exists in any sub-modularized building information, and corresponding building is abnormal, further determining the building information with deviation based on any sub-modularized building information and preset sub-building information, and taking the building information with deviation as error building information; in order to subsequently determine the presence of an abnormal building unit.

In one possible implementation manner, the determining, based on the erroneous building information, erroneous location information corresponding to the erroneous building information includes:

acquiring modularized building drawing information;

determining drawing information corresponding to the wrong building information;

comparing the drawing information corresponding to the error building information with the modularized building drawing information, if the drawing information corresponding to the error building information is inconsistent with the modularized building drawing information, determining the position information, and taking the position information as the error position information.

By adopting the technical scheme, when the modularized building drawing information is obtained, the drawing information corresponding to the error building information is determined by analyzing and processing the error building information; and comparing the drawing information corresponding to the error building information with the modularized building drawing information, if the drawing information corresponding to the error building information is inconsistent with the modularized building drawing information, indicating that obvious abnormality occurs to the error building information on the building structure, and setting the position information inconsistent with the modularized building drawing information corresponding to the error building information as the error position information, thereby improving the accuracy of the modularized building monitoring result.

In one possible implementation manner, the determining an error building unit based on the error location information includes:

determining a target area according to the error position information;

determining building units corresponding to the target area based on the target area;

judging whether each building unit meets preset conditions or not based on the building unit corresponding to each target area;

the preset condition is that the modular building information is successfully matched with the preset building information after the building unit is replaced;

and if the preset condition is met, determining the building units meeting the preset condition as error building units.

By adopting the technical scheme, the target area is determined according to the error position information; after the target area is determined, building units corresponding to the target area are further determined; and then, judging whether each building unit meets the preset conditions or not based on the building unit corresponding to each area, judging whether the corresponding modularized building information is successfully matched with the preset building information after the building unit is replaced, screening out abnormal building units, and if the preset conditions are met, determining the building units meeting the preset conditions as error building units, so that the abnormal building units are determined.

In one possible implementation, the determining the wrong building unit further comprises:

determining the quantity information corresponding to the wrong building unit;

if the quantity information is not smaller than the preset quantity information, determining the influence degree corresponding to the wrong building unit;

and determining early warning information based on the influence degree and feeding back and displaying the early warning information.

By adopting the technical scheme, after the wrong building unit is determined, the quantity information corresponding to the wrong building unit is determined; after the quantity information of the wrong building units is determined, comparing the quantity information with preset quantity information, and if the quantity information is not smaller than the preset quantity information, indicating that a plurality of building units are abnormal; and then, evaluating the possible influence of each wrong building unit, namely the influence degree, determining early warning information and feeding back and displaying the early warning information, so as to accurately determine the number and the influence degree of the wrong building units.

In one possible implementation manner, the determining early warning information and feeding back display based on the influence degree includes:

determining an influence type based on the influence degree;

determining an emergency level based on the impact type;

and determining the early warning information based on the emergency degree and feeding back and displaying the early warning information.

By adopting the technical scheme, after the influence degree of the wrong building unit is determined, the specific type of influence, namely the influence type, is further determined, then the emergency degree corresponding to the early warning information is further evaluated based on the influence type, and the corresponding early warning information is generated and fed back for display based on the emergency degree; thereby accurately determining the type of influence and the degree of emergency of the wrong building unit, thereby improving the overall efficiency.

In one possible implementation manner, the generating fault maintenance information according to the wrong building unit and feeding back and displaying the fault maintenance information includes:

determining a fault signature based on the erroneous building unit;

the fault characterization is carried into a historical fault characterization database, and the fault reason corresponding to the wrong building unit is determined;

and generating the fault maintenance information and feeding back and displaying the fault maintenance information based on the fault cause.

By adopting the technical scheme, fault characterization corresponding to the error building unit is determined based on the error building unit; then, the fault characterization is brought into the historical fault characterization database by referring to the historical fault characterization database, and the fault reason corresponding to the wrong building unit is accurately determined; then, generating fault maintenance information and feeding back and displaying the fault maintenance information based on the fault reason; thereby determining the cause of the fault and forming accurate fault maintenance information.

In a second aspect, the application provides a modularized building intelligent monitoring device, which adopts the following technical scheme:

a modular building intelligent monitoring device, comprising: an error building information determining module, an error position information determining module, an error building unit determining module and a feedback module, wherein,

the error building information determining module is used for matching the acquired modularized building information with preset building information, and if the modularized building information is not successfully matched with the preset building information, the error building information is determined;

the error position information determining module is used for determining error position information corresponding to the error building information based on the error building information;

an erroneous building unit determination module for determining an erroneous building unit based on the erroneous location information;

and the feedback module is used for generating fault maintenance information according to the error building unit and feeding back and displaying the fault maintenance information.

By adopting the technical scheme, after the error building information determining module acquires the modularized building information, the modularized building information is matched with the preset building information, and the reason of the abnormal modularized building is primarily judged by means of the matching condition of the preset building information and the modularized building information; if the modular building information is not successfully matched with the preset building information, the fact that the modular building is abnormal at the moment is indicated, and information inconsistent with the preset building information is determined to be error building information; the error position information determining module determines error position information corresponding to the error building information through the error building information; the error building unit determining module analyzes the error position information to further determine an error building unit, then the feedback unit determining module generates fault maintenance information based on the error building unit, and finally the fault maintenance information is fed back to the display equipment for display; therefore, the accuracy of the modularized building monitoring result is improved, and meanwhile, corresponding building unit maintenance information is provided, so that maintenance staff is helped to quickly maintain.

In one possible implementation, the erroneous building information determination module includes: a sub-modularized building information determining unit, a matching unit and an erroneous building information determining unit, wherein,

the sub-modularized building information determining unit is used for splitting the modularized building information to determine a plurality of sub-modularized building information;

the matching unit is used for matching the plurality of sub-modularized building information with a plurality of preset sub-building information;

the plurality of sub-modularized building information corresponds to the plurality of preset sub-building information one by one;

the error building information determining unit is used for determining error building information if the matching of any sub-modularized building information and any preset sub-building information is unsuccessful;

the error building information is sub-modularized building information which is not successfully matched with the preset sub-building information.

In one possible implementation, the error location information determining module includes: an acquisition unit, a drawing information determination unit, and an error position information determination unit, wherein,

the acquisition unit is used for acquiring modularized building drawing information;

the drawing information determining unit is used for determining drawing information corresponding to the wrong building information;

And the error position information determining unit is used for comparing the drawing information corresponding to the error building information with the modularized building drawing information, determining the position information if the drawing information corresponding to the error building information is inconsistent with the modularized building drawing information, and taking the position information as the error position information.

In one possible implementation, the erroneous building unit determination module includes: target area determination unit, building unit determination unit, judgment determination unit, and erroneous building unit determination unit, wherein

A target area determining unit, configured to determine a target area according to the error location information;

a building unit determining unit, configured to determine, based on the target area, a building unit corresponding to the target area;

the judging unit is used for judging whether each building unit meets preset conditions or not based on the building unit corresponding to each target area;

the preset condition is that the modular building information is successfully matched with the preset building information after the building unit is replaced;

and the error building unit determining unit is used for determining the building unit meeting the preset condition as an error building unit if the preset condition is met.

In one possible implementation manner, the modular building intelligent monitoring device further includes: the system comprises a quantity information determining module, an influence degree determining module and an early warning information determining module, wherein,

the quantity information determining module is used for determining quantity information corresponding to the wrong building unit;

the influence degree determining module is used for determining the influence degree corresponding to the error building unit if the quantity information is not smaller than the preset quantity information;

and the early warning information determining module is used for determining early warning information and feeding back and displaying the early warning information based on the influence degree.

In a possible implementation manner, the influence degree determining unit is specifically configured to:

determining an influence type based on the influence degree;

determining an emergency level based on the impact type;

and determining the early warning information based on the emergency degree and feeding back and displaying the early warning information.

In one possible implementation, the feedback module further includes: a fault characterization determining unit, a fault cause determining unit and a feedback unit, wherein,

a fault characterization determining unit for determining a fault characterization based on the erroneous building unit;

the fault cause determining unit is used for bringing the fault representation into a historical fault representation database and determining a fault cause corresponding to the error building unit;

And the feedback unit is used for generating the fault maintenance information based on the fault reasons and feeding back and displaying the fault maintenance information.

In a third aspect, the present application provides an electronic device, which adopts the following technical scheme:

an electronic device, the electronic device comprising:

at least one processor;

a memory;

at least one application program, wherein the at least one application program is stored in the memory and configured to be executed by the at least one processor, the at least one application program configured to: and executing the modularized building intelligent monitoring method.

In a fourth aspect, the present application provides a computer readable storage medium, which adopts the following technical scheme:

a computer-readable storage medium, comprising: a computer program is stored that can be loaded by a processor and that performs the modular building intelligent monitoring method described above.

In summary, the present application includes the following beneficial technical effects: after the modularized building information is obtained, the modularized building information is matched with preset building information, and the reason of the abnormal modularized building is primarily judged by means of the matching condition of the preset building information and the modularized building information; if the modular building information is not successfully matched with the preset building information, the fact that the modular building is abnormal at the moment is indicated, and information inconsistent with the preset building information is determined to be error building information; determining error position information corresponding to the error building information through the error building information; analyzing the error position information, further determining an error building unit, generating fault maintenance information based on the error building unit, and finally feeding the fault maintenance information back to display equipment for display; therefore, the accuracy of the modularized building monitoring result is improved, and meanwhile, corresponding building unit maintenance information is provided, so that maintenance staff is helped to quickly maintain.

Drawings

FIG. 1 is a schematic flow chart of the modular building intelligent monitoring method of the present application;

FIG. 2 is a block schematic diagram of the modular building intelligent monitoring apparatus of the present application;

fig. 3 is a schematic diagram of an electronic device according to an embodiment of the present application.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-3.

For the purposes of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

The embodiment of the application provides an intelligent monitoring method for a modularized building, which is executed by electronic equipment, wherein the electronic equipment can be a server or terminal equipment, and the server can be an independent physical server, a server cluster or distributed equipment formed by a plurality of physical servers, or a cloud server for providing cloud computing service. The terminal device may be a smart phone, a tablet computer, a notebook computer, a desktop computer, etc., but is not limited thereto, and the terminal device and the server may be directly or indirectly connected through a wired or wireless communication manner, which is not limited herein.

Referring to fig. 1, the method includes: step S101, step S102, step S103, and step S104, wherein:

step S101, matching the obtained modularized building information with preset building information, and if the modularized building information is not successfully matched with the preset building information, determining error building information.

For the embodiment of the application, the modularized building information is information representing building data such as building size, materials, structures and the like, workers transmit drawing of the modularized building to electronic equipment, and the electronic equipment analyzes and extracts the drawing of the modularized building and sets the extracted building information as preset building information.

Specifically, after receiving the modularized building information transmitted by the monitoring equipment, the electronic equipment classifies and stores the modularized building according to different building parts, then matches the modularized building information with preset building information, and if the modularized building information is successfully matched with the preset building information, the electronic equipment indicates that the modularized building corresponding to the modularized building information has no abnormal condition; if the modular building information is not successfully matched with the preset building information, the fact that the modular building corresponding to the modular building information is abnormal is indicated, the abnormal situation can be that the building units are abnormal and/or the building units are abnormal, then the electronic equipment further compares the modular building information with the preset building information, and the determined deviation information is used as error building information; the subsequent electronic equipment takes the wrong building information as basic information for determining the modularized building with the real abnormality.

Step S102, based on the wrong building information, determining wrong position information corresponding to the wrong building information.

Specifically, the electronic equipment determines wrong building information, namely, the state of the modularized building at the moment is abnormal compared with the health state of the modularized building; and then, the electronic equipment analyzes and processes the error building information to determine the position presented by the error building information, namely, determine the error position information corresponding to the error building information.

Step S103, determining an error building unit based on the error position information.

Specifically, the electronic device determines error location information, namely, determines the building location where the error occurs, then, the electronic device marks the error location information into a building model established by the electronic device through preset building information based on the error location information, the electronic device accurately locates to a building unit through the building model, and the building unit is set to be the error building unit.

And step S104, generating fault maintenance information according to the wrong building unit and feeding back and displaying the fault maintenance information.

For the embodiments of the present application, a plurality of building modules are included in the erroneous building unit, the building modules including building unit structures, decorations, hydropower, equipment lines, and the like.

Specifically, the electronic device determines the wrong building unit, that is, determines the wrong building unit, and then generates fault maintenance information based on the wrong building unit, wherein the fault maintenance information includes fault occurrence time, the wrong building unit, a position corresponding to the wrong building unit and a related description of faults caused by the wrong building module corresponding to the wrong building unit, and then the electronic device can assign a maintainer to go to the site for targeted maintenance treatment according to the fault maintenance information.

Further, the situation that the building unit is deformed during transportation from a factory to a site also exists, so that after the detection equipment transmits modularized building information to the electronic equipment, the electronic equipment determines an error building unit, and therefore, after the electronic equipment determines the error building unit, the electronic equipment judges whether the building unit corresponding to the error building unit is caused by deformation during transportation or not based on the error building unit; if this is the case, the erroneous building unit generated by the electronic device contains an indication of the deformation during transportation.

The embodiment of the application provides an intelligent modularized building monitoring method, after electronic equipment acquires modularized building information, the modularized building information is matched with preset building information, and the electronic equipment preliminarily judges the abnormal reasons of the modularized building by means of the matching condition of the preset building information and the modularized building information; if the modular building information is not successfully matched with the preset building information, the fact that the modular building is abnormal at the moment is indicated, and information inconsistent with the preset building information is determined to be error building information; the electronic equipment determines error position information corresponding to the error building information through the error building information; the electronic equipment analyzes the error position information to further determine an error building unit, then the electronic equipment generates fault maintenance information based on the error building unit, and finally the fault maintenance information is fed back to the display equipment for display; therefore, the accuracy of the modularized building monitoring result is improved, and meanwhile, corresponding building unit maintenance information is provided, so that maintenance staff is helped to quickly maintain.

In step S101, if the matching between the modularized building information and the preset building information is unsuccessful, determining the wrong building information specifically includes: splitting the modularized building information to determine a plurality of sub-modularized building information; matching the plurality of sub-modularized building information with a plurality of preset sub-building information; the plurality of sub-modularized building information corresponds to the plurality of preset sub-building information one by one; if any sub-modularized building information is not successfully matched with any preset sub-building information, determining error building information; the error building information is sub-modularized building information which is not successfully matched with the preset sub-building information.

For the embodiment of the application, the preset building information includes a plurality of preset sub-building information.

The electronic equipment can split the modularized building information into a plurality of pieces of sub-modularized building information based on the structure and the function of modularized building, and the sub-modularized building information corresponds to the preset sub-building information one by one; then, the electronic equipment matches each piece of sub-modularized building information with the corresponding preset sub-building information, judges whether deviation exists between the sub-modularized building information with the corresponding relation and the preset sub-building information, and when matching of any piece of sub-modularized building information with any piece of preset sub-building information is unsuccessful, the fact that deviation exists in any piece of sub-modularized building information is indicated, the corresponding modularized building is abnormal, and then the building information with deviation can be further determined based on any piece of sub-modularized building information and the preset sub-building information, and the building information with deviation serves as error building information.

In step S102, based on the error building information, error location information corresponding to the error building information is determined, which specifically includes: acquiring modularized building drawing information; determining drawing information corresponding to the wrong building information; comparing the drawing information corresponding to the wrong building information with the modularized building drawing information, if the drawing information corresponding to the wrong building information is inconsistent with the modularized building drawing information, determining the position information, and taking the position information as the wrong position information.

Specifically, when the electronic equipment acquires modularized building drawing information transmitted by a worker, the electronic equipment analyzes and processes the wrong building information to draw drawing information corresponding to the wrong building information; then, the electronic equipment compares the drawing information corresponding to the error building information with the modularized building drawing information, judges whether the drawing information corresponding to the error building information with the modularized building drawing information with the corresponding relation has information deviation, and if the drawing information corresponding to the error building information is consistent with the modularized building drawing information, the error building information is not abnormal on the building structure, and the error building information is removed; if the drawing information corresponding to the wrong building information is inconsistent with the modularized building drawing information, the fact that obvious abnormality occurs to the wrong building information on the building structure is indicated, and immediately setting the position information of the inconsistent drawing information corresponding to the wrong building information and the modularized building drawing information as wrong position information by the electronic equipment.

In step S103, determining an error building unit based on the error location information specifically includes: determining a target area according to the error position information; determining building units corresponding to the target area based on the target area; judging whether each building unit meets preset conditions or not based on the building unit corresponding to each target area; the preset condition is that the modular building information is successfully matched with the preset building information after the building units are replaced; if the preset condition is met, determining the building units meeting the preset condition as error building units.

Specifically, after determining the error position information, the electronic equipment immediately establishes a building model through preset building information, marks the error position information into the building model, and accordingly determines a target area; after the target areas are determined, the electronic equipment identifies building units in the target areas, so that building units corresponding to each target area are determined; for the building units corresponding to each target area, the electronic equipment judges whether the building units meet preset conditions or not, so that whether the building units are successfully matched with the corresponding modularized building information after being replaced or not is judged, abnormal building units are screened out, if the preset conditions are met, the building units meeting the preset conditions are determined to be error building units, and therefore the abnormal building units, namely the error building units, are accurately determined.

Determining the wrong building unit, further comprising: determining the quantity information corresponding to the wrong building units; if the quantity information is not smaller than the preset quantity information, determining the influence degree corresponding to the wrong building unit; and determining early warning information and feeding back and displaying the early warning information based on the influence degree.

Specifically, after determining the wrong building unit, the electronic equipment counts the wrong building unit immediately, so as to determine the quantity information corresponding to the wrong building unit; after the electronic equipment determines the quantity information of the wrong building units, the electronic equipment compares the quantity information with preset quantity information, and if the quantity information is not smaller than the preset quantity information, the electronic equipment indicates that the building units are abnormal; thereupon, the electronic device evaluates the possible influence of each erroneous building unit, such as building structure, influence on safety, etc., wherein determining the degree of influence of the erroneous building unit may be based on historical data analysis or model prediction the embodiment is not particularly limited.

Further, after determining the influence degree corresponding to the wrong building unit, the electronic device generates corresponding early warning information, such as a warning level, suggested corresponding measures, and the like, based on the evaluation of the influence degree, and the early warning information can be displayed to the staff in the form of text, a chart, audio or video.

Based on the influence degree, determining early warning information and feeding back and displaying, specifically comprising: determining an influence type based on the influence degree; determining an emergency degree based on the impact type; and determining early warning information and feeding back and displaying the early warning information based on the emergency degree.

Specifically, after determining the degree of influence of the wrong building unit, the electronic device may further determine a specific type of influence, i.e. an influence type, such as a performance influence, a security influence, an economic influence, etc. The electronic device then further evaluates the degree of urgency corresponding to the pre-warning information based on the type of impact, e.g. if the type of impact of the wrong building unit is a security impact and such impact is severe, the electronic device may evaluate the degree of urgency as high. Based on the emergency degree, the electronic equipment generates corresponding early warning information and feeds back and displays the early warning information. Wherein the pre-warning information includes warning levels, suggested countermeasures, or other useful information. The warning information may be displayed to the staff in the form of text, charts, audio or video.

In step S104, generating fault maintenance information according to the wrong building unit and feeding back and displaying the fault maintenance information, which specifically includes: determining a fault signature based on the erroneous building units; the fault characterization is carried into a historical fault characterization database, and the fault reason corresponding to the wrong building unit is determined; based on the fault reasons, generating fault maintenance information and feeding back and displaying the fault maintenance information.

Specifically, after determining the wrong building unit, the electronic equipment receives the image corresponding to the wrong building unit transmitted by the monitoring equipment, and the electronic equipment further determines fault characterization by analyzing and processing the image corresponding to the wrong building unit; once the electronic equipment determines the fault representation, the electronic equipment brings the fault representation into a historical fault representation database, identifies the fault reason corresponding to the error building unit corresponding to the fault representation, then determines the fault reason based on historical data analysis, generates fault maintenance information for feedback display so as to prompt the staff, and assigns the operation and maintenance staff to carry out maintenance after the staff sees the feedback prompt.

Referring to fig. 2, the modular building intelligent monitoring apparatus 20 may specifically include: a false building information determination module 201, a false location information determination module 202, a false building unit determination module 203, and a feedback module 204, wherein,

the error building information determining module 201 is configured to match the obtained modularized building information with preset building information, and determine the error building information if the modularized building information is not successfully matched with the preset building information;

an error location information determining module 202, configured to determine, based on the error building information, error location information corresponding to the error building information;

an erroneous building unit determination module 203 for determining an erroneous building unit based on the erroneous location information;

and the feedback module 204 is used for generating fault maintenance information according to the wrong building unit and feeding back and displaying the fault maintenance information.

In one possible implementation manner of the embodiment of the present application, the erroneous building information determining module 201 includes: a sub-modularized building information determining unit, a matching unit and an erroneous building information determining unit, wherein,

the sub-modularized building information determining unit is used for splitting the modularized building information to determine a plurality of sub-modularized building information;

The matching unit is used for matching the plurality of sub-modularized building information with a plurality of preset sub-building information;

the plurality of sub-modularized building information corresponds to the plurality of preset sub-building information one by one;

the error building information determining unit is used for determining error building information if any one piece of sub-modularized building information is not successfully matched with any one piece of preset sub-building information;

the error building information is sub-modularized building information which is not successfully matched with the preset sub-building information.

In one possible implementation manner of the embodiment of the present application, the error location information determining module 202 includes: an acquisition unit, a drawing information determination unit, and an error position information determination unit, wherein,

the acquisition unit is used for acquiring modularized building drawing information;

the drawing information determining unit is used for determining drawing information corresponding to the wrong building information;

the error position information determining unit is used for comparing the drawing information corresponding to the error building information with the modularized building drawing information, determining the position information if the drawing information corresponding to the error building information is inconsistent with the modularized building drawing information, and taking the position information as the error position information.

In one possible implementation manner of the embodiment of the present application, the error building unit determining module 203 includes: target area determination unit, building unit determination unit, judgment determination unit, and erroneous building unit determination unit, wherein

A target area determining unit for determining a target area according to the error position information;

the building unit determining unit is used for determining building units corresponding to the target area based on the target area;

the judging unit is used for judging whether each building unit meets preset conditions or not based on the building unit corresponding to each target area;

the preset condition is that the modular building information is successfully matched with the preset building information after the building units are replaced;

and the error building unit determining unit is used for determining the building unit meeting the preset condition as an error building unit if the preset condition is met.

In one possible implementation manner of the embodiment of the present application, the modular building intelligent monitoring apparatus 20 further includes: the system comprises a quantity information determining module, an influence degree determining module and an early warning information determining module, wherein,

the quantity information determining module is used for determining quantity information corresponding to the wrong building unit;

the influence degree determining module is used for determining the influence degree corresponding to the wrong building unit if the quantity information is not smaller than the preset quantity information;

And the early warning information determining module is used for determining early warning information and feeding back and displaying the early warning information based on the influence degree.

In one possible implementation manner of the embodiment of the present application, the influence degree determining unit is specifically configured to:

determining an influence type based on the influence degree;

determining an emergency degree based on the impact type;

and determining early warning information and feeding back and displaying the early warning information based on the emergency degree.

In one possible implementation manner of the embodiment of the present application, the feedback module 204 further includes: a fault characterization determining unit, a fault cause determining unit and a feedback unit, wherein,

a fault characterization determining unit for determining a fault characterization based on the erroneous building unit;

the fault cause determining unit is used for bringing the fault representation into the historical fault representation database and determining the fault cause corresponding to the error building unit;

and the feedback unit is used for generating fault maintenance information based on the fault reasons and feeding back and displaying the fault maintenance information.

It will be clear to those skilled in the art that, for convenience and brevity of description, specific working procedures of the above-described systems, apparatuses and units may refer to corresponding procedures in the foregoing method embodiments, and are not repeated herein.

The embodiment of the application also describes an electronic device from the perspective of the entity apparatus, as shown in fig. 3, the electronic device 30 shown in fig. 3 includes: a processor 301 and a memory 303. Wherein the processor 301 is coupled to the memory 303, such as via a bus 302. Optionally, the electronic device 30 may also include a transceiver 304. It should be noted that, in practical applications, the transceiver 304 is not limited to one, and the structure of the electronic device 30 is not limited to the embodiment of the present application.

The processor 301 may be a CPU (Central Processing Unit ), general purpose processor, DSP (Digital Signal Processor, data signal processor), ASIC (Application Specific Integrated Circuit ), FPGA (Field Programmable Gate Array, field programmable gate array) or other programmable logic device, transistor logic device, hardware components, or any combination thereof. Which may implement or perform the various exemplary logic blocks, modules, and circuits described in connection with this disclosure. Processor 301 may also be a combination that implements computing functionality, e.g., comprising one or more microprocessor combinations, a combination of a DSP and a microprocessor, etc.

Bus 302 may include a path to transfer information between the components. Bus 302 may be a PCI (Peripheral Component Interconnect, peripheral component interconnect Standard) bus or an EISA (Extended Industry Standard Architecture ) bus, or the like. Bus 302 may be divided into an address bus, a data bus, a control bus, and the like. For ease of illustration, only one thick line is shown in fig. 3, but not only one bus or one type of bus.

The Memory 303 may be, but is not limited to, a ROM (Read Only Memory) or other type of static storage device that can store static information and instructions, a RAM (Random Access Memory ) or other type of dynamic storage device that can store information and instructions, an EEPROM (Electrically Erasable Programmable Read Only Memory ), a CD-ROM (Compact Disc Read Only Memory, compact disc Read Only Memory) or other optical disk storage, optical disk storage (including compact discs, laser discs, optical discs, digital versatile discs, blu-ray discs, etc.), magnetic disk storage media or other magnetic storage devices, or any other medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer.

The memory 303 is used for storing application program codes for executing the present application and is controlled to be executed by the processor 301. The processor 301 is configured to execute the application code stored in the memory 303 to implement what is shown in the foregoing method embodiments.

Among them, electronic devices include, but are not limited to: mobile terminals such as mobile phones, notebook computers, digital broadcast receivers, PDAs (personal digital assistants), PADs (tablet computers), PMPs (portable multimedia players), in-vehicle terminals (e.g., in-vehicle navigation terminals), and the like, and stationary terminals such as digital TVs, desktop computers, and the like. But may also be a server or the like. The electronic device shown in fig. 3 is only an example and should not be construed as limiting the functionality and scope of use of the embodiments herein.

It should be understood that, although the steps in the flowcharts of the figures are shown in order as indicated by the arrows, these steps are not necessarily performed in order as indicated by the arrows. The steps are not strictly limited in order and may be performed in other orders, unless explicitly stated herein. Moreover, at least some of the steps in the flowcharts of the figures may include a plurality of sub-steps or stages that are not necessarily performed at the same time, but may be performed at different times, the order of their execution not necessarily being sequential, but may be performed in turn or alternately with other steps or at least a portion of the other steps or stages.

The foregoing is only a partial embodiment of the present application and it should be noted that, for a person skilled in the art, several improvements and modifications can be made without departing from the principle of the present application, and these improvements and modifications should also be considered as the protection scope of the present application.

Claims (10)

1. A modular building intelligent monitoring method, comprising:

matching the obtained modularized building information with preset building information, and if the modularized building information is not successfully matched with the preset building information, determining error building information;

Determining error position information corresponding to the error building information based on the error building information;

determining an erroneous building unit based on the erroneous location information;

and generating fault maintenance information according to the error building unit and feeding back and displaying the fault maintenance information.

2. The method of claim 1, wherein the preset building information includes a plurality of preset sub-building information, and determining the wrong building information if the matching of the preset building information with the preset building information is unsuccessful comprises:

splitting the modularized building information to determine a plurality of sub-modularized building information;

matching the plurality of sub-modularized building information with a plurality of preset sub-building information;

the plurality of sub-modularized building information corresponds to the plurality of preset sub-building information one by one;

if the matching of any sub-modularized building information and any preset sub-building information is unsuccessful, determining error building information;

the error building information is sub-modularized building information which is not successfully matched with the preset sub-building information.

3. The method for intelligently monitoring a modular building according to claim 1, wherein the determining the error location information corresponding to the error building information based on the error building information comprises:

Acquiring modularized building drawing information;

determining drawing information corresponding to the wrong building information;

comparing the drawing information corresponding to the error building information with the modularized building drawing information, if the drawing information corresponding to the error building information is inconsistent with the modularized building drawing information, determining the position information, and taking the position information as the error position information.

4. The modular building intelligent monitoring method of claim 1, wherein said determining a false building unit based on said false location information comprises:

determining a target area according to the error position information;

determining building units corresponding to the target area based on the target area;

judging whether each building unit meets preset conditions or not based on the building unit corresponding to each target area;

the preset condition is that the modular building information is successfully matched with the preset building information after the building unit is replaced;

and if the preset condition is met, determining the building units meeting the preset condition as error building units.

5. The modular building intelligent monitoring method of claim 1, wherein the determining the wrong building unit further comprises:

Determining the quantity information corresponding to the wrong building unit;

if the quantity information is not smaller than the preset quantity information, determining the influence degree corresponding to the wrong building unit;

and determining early warning information based on the influence degree and feeding back and displaying the early warning information.

6. The method for intelligently monitoring a modular building according to claim 5, wherein the determining early warning information and feeding back display based on the influence degree comprises:

determining an influence type based on the influence degree;

determining an emergency level based on the impact type;

and determining the early warning information based on the emergency degree and feeding back and displaying the early warning information.

7. The intelligent monitoring method for modular building according to claim 1, wherein the generating fault maintenance information and feeding back display according to the faulty building unit comprises:

determining a fault signature based on the erroneous building unit;

the fault characterization is carried into a historical fault characterization database, and the fault reason corresponding to the wrong building unit is determined;

and generating the fault maintenance information and feeding back and displaying the fault maintenance information based on the fault cause.

8. A modular building intelligent monitoring device, comprising:

The error building information determining module is used for matching the acquired modularized building information with preset building information, and if the modularized building information is not successfully matched with the preset building information, the error building information is determined;

the error position information determining module is used for determining error position information corresponding to the error building information based on the error building information;

an erroneous building unit determination module for determining an erroneous building unit based on the erroneous location information;

and the feedback module is used for generating fault maintenance information according to the error building unit and feeding back and displaying the fault maintenance information.

9. An electronic device, comprising:

at least one processor;

a memory;

at least one application program, wherein the at least one application program is stored in the memory and configured to be executed by the at least one processor, the at least one application program configured to: a modular building intelligent monitoring method of any of claims 1-7.

10. A computer readable storage medium having stored thereon a computer program, characterized in that the computer program, when executed in a computer, causes the computer to perform a modular building intelligent monitoring method according to any of claims 1-7.