CN109697326B - Road disease processing method, device, computer equipment and storage medium - Google Patents

Abstract

The application relates to a road disease processing method, a device, a computer device and a storage medium, comprising: acquiring a facility identifier of a traffic infrastructure to be detected, and loading a BIM model corresponding to the traffic infrastructure to be detected based on the facility identifier; the BIM model comprises component information of the traffic infrastructure to be detected; acquiring a component selection instruction to be detected, and loading relevant information of the component to be detected in the BIM based on the component selection instruction to be detected; and acquiring inspection data of the to-be-inspected component, and updating relevant information of the to-be-inspected component in a BIM model corresponding to the to-be-inspected traffic infrastructure based on the inspection data of the to-be-inspected component when the existence of diseases is determined based on the inspection data of the to-be-inspected component. By the method, the inspection personnel can quickly update the disease information to the traffic infrastructure inspection system when the inspection personnel find the disease in the inspection process, so that the efficiency of recording the disease is improved.

Description

Road disease processing method, device, computer equipment and storage medium

Technical Field

The present application relates to the field of road inspection technology, and in particular, to a road disease processing method, a road disease processing device, a computer device, and a storage medium.

Background

With the continuous deep and perfect development of road construction, the requirements for road maintenance and management work are also increasing.

Most of the existing traffic infrastructure inspection systems finish the tracking of facility inspection tracks based on a two-dimensional planar map, and have certain limitations, mainly in that the management of data information of facilities is scattered and not uniform enough, and the recording and displaying of facility diseases and the like are represented in the form of data reports, and the like. Therefore, after the road inspector finds the disease, the efficiency of recording the disease is low.

Disclosure of Invention

In view of the foregoing, it is desirable to provide a method, apparatus, computer device, and storage medium for treating road diseases.

A method of treating a road disease, the method comprising:

acquiring a facility identifier of a traffic infrastructure to be detected, and loading a BIM model corresponding to the traffic infrastructure to be detected based on the facility identifier; the BIM model comprises component information of the traffic infrastructure to be detected;

acquiring a component selection instruction to be detected, and loading relevant information of the component to be detected in the BIM based on the component selection instruction to be detected;

And acquiring inspection data of the to-be-inspected component, and updating relevant information of the to-be-inspected component in the BIM corresponding to the to-be-inspected traffic infrastructure based on the inspection data of the to-be-inspected component when the existence of diseases is determined based on the inspection data of the to-be-inspected component.

In one embodiment, when it is determined that there is a disease based on inspection data of the member to be inspected, the method further includes the steps of:

and loading a disease solution corresponding to the disease based on the inspection data of the member to be inspected.

In one embodiment, the inspection data of the member to be inspected includes: the disease type of the member to be detected;

the inspection data based on the member to be inspected loads a disease solution corresponding to the disease, comprising:

and searching a disease solution corresponding to the disease based on the disease type of the member to be detected.

In one embodiment, the inspection data of the member to be inspected includes: a photograph of the member to be inspected;

the determining that the disease exists based on the inspection data of the member to be inspected comprises: determining that diseases exist in the member to be detected based on the photo of the member to be detected;

the inspection data based on the member to be inspected loads a disease solution corresponding to the disease, comprising:

Determining the disease type of the disease existing in the member to be detected based on the photo of the member to be detected; and searching a disease solution corresponding to the disease based on the disease type of the disease of the member to be detected.

In one embodiment, loading a disease solution corresponding to the disease based on inspection data of the member to be inspected includes:

after searching the disease solution corresponding to the disease based on the inspection data of the member to be inspected, loading the disease solution corresponding to the disease in a text mode;

or after searching the disease solution corresponding to the disease based on the inspection data of the member to be inspected, loading the disease solution corresponding to the disease into the BIM model combined with a live-action.

In one embodiment, obtaining a facility identification of the traffic infrastructure to be inspected includes at least one of:

acquiring a coding identifier associated with the traffic infrastructure to be inspected;

acquiring a two-dimensional code identifier which is obtained through scanning and is associated with the traffic infrastructure to be detected;

and acquiring a facility identification of the traffic infrastructure to be inspected, which is determined by AR scanning the traffic infrastructure to be inspected.

In one embodiment, when it is determined that there is a disease based on inspection data of the member to be inspected, the method further includes:

determining relevant information of diseases of the member to be detected based on the inspection data of the member to be detected; uploading the relevant information of the diseases of the member to be detected to a disease warehouse for storage.

A road disease treatment device, the device comprising:

the BIM model loading module is used for acquiring a facility identifier of the traffic infrastructure to be detected, and loading a BIM model corresponding to the traffic infrastructure to be detected based on the facility identifier; the BIM model comprises component information of the traffic infrastructure to be detected;

the component loading module is used for acquiring a component selection instruction to be detected, and loading the component to be detected in the BIM based on the component selection instruction to be detected, wherein the component to be detected comprises related information of the component to be detected;

the information updating module is used for acquiring the inspection data of the to-be-inspected component, and updating the relevant information of the to-be-inspected component in the BIM model corresponding to the to-be-inspected traffic infrastructure based on the inspection data of the to-be-inspected component when the existence of the disease is determined based on the inspection data of the to-be-inspected component.

A computer device comprising a memory storing a computer program and a processor implementing the steps of the method described above when the processor executes the computer program.

A computer readable storage medium having stored thereon a computer program which when executed by a processor performs the steps of the above method.

According to the road disease processing method, the device, the computer equipment and the storage medium, through acquiring the facility identification of the traffic infrastructure to be inspected, the BIM model corresponding to the traffic infrastructure to be inspected is loaded on the current interface, the inspection personnel can select the member to be inspected in the BIM model to check the related information of the member to be inspected, the inspection personnel inputs the inspection data of the member to be inspected into the traffic infrastructure inspection system, and after the inspection data are acquired by the system, the related information of the member to be inspected in the BIM model is updated when the existence of the disease of the member to be inspected is determined based on the inspection data. By the method, the inspection personnel can quickly input the disease information into the traffic infrastructure inspection system when the disease is found in the inspection process, so that the efficiency of recording the disease is improved.

Drawings

FIG. 1 is an application environment diagram of a road disease treatment method in one embodiment;

FIG. 2 is a flow chart of a method for treating road diseases according to an embodiment;

FIG. 3 is a flow chart of a method for treating road diseases according to another embodiment;

FIG. 4 is a flow chart of a method for treating road diseases according to another embodiment;

FIG. 5 is a flow chart of a method for treating road diseases according to an embodiment;

FIG. 6 is a block diagram showing a construction of a road disease treatment apparatus in one embodiment;

fig. 7 is an internal structural diagram of a computer device in one embodiment.

Detailed Description

The present application will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present application more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the application.

The road disease treatment method provided by the application can be applied to an application environment shown in figure 1. Wherein the terminal 110 communicates with the server 120 via a network. In the road inspection process, a user can inspect a BIM (Building Information Modeling, building information model) model of the traffic infrastructure to be inspected through the terminal 110, and when the disease is found, the terminal 110 records the disease to a corresponding component in the corresponding BIM model so as to update the related information of the component. The terminal 110 may be, but not limited to, various smartphones, tablet computers and portable wearable devices, and the server 120 may be implemented as a stand-alone server or a server cluster composed of a plurality of servers.

In one embodiment, as shown in fig. 2, a method for treating road diseases is provided, and the method is applied to the server in fig. 1, and is described as an example, and includes the following steps S210 to S230.

Step S210, obtaining a facility identifier of the traffic infrastructure to be inspected, and loading a BIM model corresponding to the traffic infrastructure to be inspected based on the facility identifier. The BIM model comprises component information of the traffic infrastructure to be detected.

In this embodiment, a user sequentially inspects each traffic infrastructure during the road inspection process, and marks the traffic infrastructure to be inspected as the traffic infrastructure to be inspected. In the road inspection process, a user can check a BIM model corresponding to the traffic infrastructure to be inspected through the terminal, specifically, the user is required to input the facility identification of the traffic infrastructure to be inspected into the server, and the server loads and displays the BIM model of the corresponding traffic infrastructure on the interface based on the facility identification.

The facility identification of the traffic infrastructure is a unique identification representing the corresponding relation between the traffic infrastructure and the BIM model stored in the traffic infrastructure inspection system. The system for inspecting the traffic infrastructures stores BIM models of the traffic infrastructures, and records the corresponding relation between the traffic infrastructures and the corresponding BIM models. In one embodiment, the facility identifier may be a string of coded numbers, may be a two-dimensional code, or may be a coded identifier obtained by scanning the traffic infrastructure to be inspected through the AR function.

The traffic infrastructure inspection system is an informatization inspection management system, realizes the inspection operation informatization of traffic infrastructure, adopts a workflow engine to drive maintenance business, comprises the task dispatch of inspection personnel and the daily maintenance inspection disease report reporting of a mobile terminal by the system, realizes the conventional processing flow from the process of compiling and issuing a task execution discovery disease report from an inspection task network, the process of compiling a maintenance engineering budget sheet to the process of issuing an audit work sheet, the process of maintenance completion and the process of managing a work unijunction bundle, and realizes the closed-loop informatization management from the process of discovering road diseases to the process of completing the maintenance of the diseases. The embodiment of the application mainly relates to the processes of disease reporting, disease maintenance and the like of a foundation inspection system.

In one embodiment, obtaining a facility identification of a traffic infrastructure to be inspected includes: acquiring a coding identifier associated with a traffic infrastructure to be detected; in this embodiment, the correspondence between each traffic infrastructure and its corresponding BIM model is stored in a digitally encoded form. The unique digital code is used as the code identification of the traffic infrastructure and recorded on the traffic infrastructure when the model information is input into the inspection system; in the road inspection process, a user inputs the code identification of the traffic infrastructure to be inspected into an inspection system, and the inspection system can find a BIM model corresponding to the traffic infrastructure to be inspected according to the stored corresponding relation based on the code identification and load the BIM model on a current interface.

In another embodiment, obtaining a facility identification of a traffic infrastructure to be inspected includes: acquiring a two-dimensional code identifier which is obtained through scanning and is associated with a traffic infrastructure to be detected; in this embodiment, the correspondence between each traffic infrastructure and its corresponding BIM model is stored in the form of a two-dimensional code. When the model information is input into the inspection system, the unique two-dimensional code is used as the code identifier of the traffic infrastructure and is recorded on the traffic infrastructure; in the road inspection process, a user opens an inspection system through a terminal to scan the code identification of the traffic infrastructure to be inspected, and the inspection system can find a BIM model corresponding to the traffic infrastructure to be inspected according to the stored corresponding relation based on the code identification and load the BIM model on a current interface.

Alternatively, in another embodiment, the obtaining of the facility identification of the traffic infrastructure under inspection may also be: and acquiring the facility identification of the traffic infrastructure to be inspected, which is determined by AR scanning the traffic infrastructure to be inspected. AR (Augmented Reality ) is a technique that calculates the position and angle of camera images in real time and adds corresponding images, video, 3D models, the goal of which is to fit the virtual world around the real world and interact on the screen. In this embodiment, when building the BIM model of the traffic infrastructure, relevant information of each facility is scanned and recorded, in the process of road inspection, a user opens an inspection system at a terminal, scans the traffic infrastructure to be inspected through an AR scanning function, and the system can find a corresponding code identifier according to the scanned content, further find the BIM model corresponding to the traffic infrastructure to be inspected, and load the BIM model on a current interface.

A traffic infrastructure typically includes a plurality of components, and thus component information for the traffic infrastructure is entered into the inspection system when building a corresponding BIM model of the traffic infrastructure. Further, in one embodiment, the component information of the traffic infrastructure includes: geometric attribute data, administrative identification data, structural technical grade status, historical diseases, maintenance records, completion drawings, detection report data and other multidimensional, multi-source and multi-level data information of the components. Further, in one embodiment, the component information of the traffic infrastructure may be actively pushed through AR technology in a preset content and manner. For example, when the facility identification is obtained through the AR scanning, the user opens the AR scanning function, scans the traffic infrastructure to be inspected, loads the BIM model of the traffic infrastructure to be inspected when the traffic infrastructure to be inspected is detected, and loads the relevant information of the member to be inspected at the member to be inspected of the BIM model when the member to be inspected of the traffic infrastructure to be inspected is detected (the camera scans the member to be inspected).

In this embodiment, after the server obtains the code identifier of the traffic infrastructure to be inspected, the stored BIM model corresponding to the traffic infrastructure to be inspected is loaded and displayed on the current display interface based on the code identifier, and the user views the information such as the multi-layer data and the related data files from the whole to the minimum component unit of the infrastructure through the BIM model of the traffic infrastructure. After loading the BIM model, the user begins to patrol the facility. In one embodiment, the user finds the disease or abnormality, and the disease information can be directly recorded on the component units of the BIM model corresponding to the facility, and the BIM model after recording the disease information can display the disease at the corresponding positions of the component units of the BIM model in a visual manner, for example, the information such as the picture, the severity, the damage area and the like of the disease can be displayed.

Step S220, obtaining a component selection instruction to be detected, and loading relevant information of the component to be detected in the BIM model based on the component selection instruction to be detected.

Wherein, the member to be inspected is marked as the member to be inspected; the to-be-detected component selection instruction is an instruction initiated by a user hopefully opening the BIM model to view the related information; in one embodiment, the member to be inspected selection instruction may be a BIM model of the current display interface, initiated by clicking a member to be inspected in the BIM model, and the interface will display specific information of the member to be inspected after the user clicks the member to be inspected. And when the server acquires the selection instruction of the component to be detected, the server invokes the stored relevant information of the component and loads the relevant information on the current interface.

In the embodiment of obtaining the facility identifier through AR scanning, the member to be inspected selecting instruction may be that the server identifies the member to be inspected when the member to be inspected is scanned through AR, and if the member to be inspected is identified, the member to be inspected selecting instruction is considered to be initiated. In this embodiment, the loading of the relevant information of the component to be inspected in the BIM model based on the component to be inspected selection instruction may be: and loading the related information of the member to be detected at the position nearby the member to be detected of the BIM through an AR technology. When another member is scanned by AR, then the relevant information of the other member is loaded at a position in its vicinity.

In this embodiment, when the server obtains the selection instruction of the member to be inspected, the server searches the related information of the member to be inspected based on the selection instruction of the member to be inspected, and loads the related information in the current interface for the user to view.

Step S230, the inspection data of the to-be-inspected component is obtained, and when the existence of diseases is determined based on the inspection data of the to-be-inspected component, the relevant information of the to-be-inspected component in the BIM model corresponding to the to-be-inspected traffic infrastructure is updated based on the inspection data of the to-be-inspected component.

The inspection data of the member to be inspected is data obtained after the user inspects the member to be inspected; in one embodiment, after the user checks the member to be checked and confirms that the member to be checked has a disease, the related information of the disease of the member to be checked is uploaded to the server as inspection data, and the inspection data of the member to be checked may include: disease category, disease photo, disease description, damage degree, disease coordinates, etc.

In another embodiment, the user may take a photograph of the member to be inspected and upload the photograph as inspection data to the server, and the server determines whether the member to be inspected has a disease, and the disease type, related information, and the like of the existing disease based on the photograph, so that the inspection data of the member to be inspected in this embodiment includes the photograph of the member to be inspected. In the above embodiment, the user uploads the image to the server, and the server identifies whether the disease exists, so that the requirement on the patrol personnel can be reduced, and the road patrol efficiency can be improved.

In one embodiment, updating the relevant information of the member to be inspected in the BIM model corresponding to the traffic infrastructure to be inspected based on the inspection data of the member to be inspected includes updating the disease type, the disease severity, the disease coordinate information, and the description of the disease of the member to be inspected to the relevant information of the member to be inspected.

Further, after updating the relevant information of the member to be detected in the BIM model corresponding to the traffic infrastructure to be detected, the BIM model can display the diseases at the corresponding positions of the member to be detected in a visual mode.

According to the road disease processing method, the facility identification of the traffic infrastructure to be detected is obtained, the BIM model corresponding to the traffic infrastructure to be detected is loaded on the current interface, the member to be detected can be selected in the BIM model by the patrol personnel to check the related information of the member to be detected, the patrol personnel inputs the patrol data of the member to be detected into the traffic infrastructure patrol system, and after the system obtains the patrol data, the related information of the member to be detected in the BIM model is updated when the condition that the disease exists in the member to be detected is determined based on the patrol data. By the method, the inspection personnel can quickly input the disease information into the inspection system when the disease is found in the inspection process, so that the efficiency of recording the disease is improved.

As shown in fig. 3, in one embodiment, when it is determined that there is a disease based on inspection data of the member to be inspected, step S310 is further included: and loading a disease solution corresponding to the disease based on inspection data of the member to be inspected.

Wherein, in one embodiment, the inspection data of the member to be inspected comprises: disease type of the member to be inspected; in this embodiment, the disease solution corresponding to the disease is loaded based on the inspection data of the member to be inspected, including: and searching a disease solution corresponding to the disease based on the disease type of the member to be detected. In this embodiment, the inspection data of the member to be inspected may further include information such as a photograph of the disease, a description of the disease, a severity of the disease, and coordinates of the disease; wherein, the picture of the disease can be obtained by shooting the disease position of the member to be detected by a user; the description of the disease, the severity of the disease may be manually entered by the user; the coordinate information of the disease can be manually input by a user, or can be imported into a server after being positioned by the positioning function of the terminal.

It can be appreciated that in this embodiment, the user checks the member to be checked to determine whether there is a disease, and if the user determines that there is a disease in the member to be checked, relevant data of the disease is recorded as inspection data of the member to be checked. Further, when the server acquires the relevant data of the disease, the server can search for a corresponding disease solution based on the disease type and the facility type. The server searches the corresponding disease solution based on the disease type, which can be performed by searching a disease library in the inspection system or by other methods. After finding the disease solution corresponding to the disease, load it in the current interface.

In another embodiment, inspection data of a component to be inspected includes: a photograph of the member to be inspected; in this embodiment, determining that there is a disease based on inspection data of a member to be inspected includes: and determining that the member to be detected has diseases based on the photo of the member to be detected. The inspection data loading and disease solving scheme based on the member to be inspected comprises the following steps: determining the disease type of the disease existing in the member to be detected based on the photo of the member to be detected; and searching a disease solution corresponding to the disease based on the disease type of the disease of the member to be detected.

In this embodiment, the user photographs the member to be inspected to obtain a photograph, uploads the photograph to the server, and the server identifies whether a disease exists on the photograph and information such as the disease type of the disease. In this case, a large amount of disease information including types of diseases, photos, descriptions and the like of different types of diseases may be stored in a disease library in the server, when the server obtains the photos of the member to be detected, the photos are input into the disease library to find out whether the same diseases exist, and if the same types of diseases are found in the disease library, the member to be detected is determined to exist.

Alternatively, in another embodiment, the server may upload the photo to the network to search when receiving the photo of the member to be inspected, so as to determine whether the member to be inspected has a disease and the disease type of the existing disease. For example, a link may be created when a photo is obtained, the user may click on the link, the server links to the browser of the terminal, and the photo is uploaded to the browser to search for information, which is similar to searching in a disease library. In this embodiment, the user only needs to photograph the member to be inspected, and can confirm whether the member to be inspected has diseases. Further, if it is determined that the disease exists in the member to be detected based on the photo of the member to be detected, the disease of the member to be detected is determined to be of the same type as the found disease, the server may input the disease information of the member to be detected into the BIM model according to the information of the found disease, so as to update the related information of the member of the BIM model.

Further, in one embodiment, the loading of the lesion solution corresponding to the lesion based on the inspection data of the member to be inspected may be: after searching the disease solution corresponding to the disease based on the inspection data of the member to be inspected, loading the disease solution corresponding to the disease in a text mode. Alternatively, in another embodiment, the disease solution corresponding to the disease based on the inspection data of the member to be inspected may be: after searching for a disease solution corresponding to the disease based on inspection data of the member to be inspected, loading the disease solution corresponding to the disease into a BIM model combined with the live-action.

The disease solution corresponding to the disease may be the same as the disease type of the present disease found in the previous case, the type of the generated facilities is the same, and the existing corresponding maintenance solution may be used to provide the user with a maintenance reference for the disease of the member to be detected. Also, the searching for the corresponding disease solution may be by searching for the corresponding disease solution in a disease library, or may be by searching for the corresponding disease solution on the internet. Further, the found disease solution is loaded on the current interface for viewing and reference by the user. The disease solution can comprise description of case diseases (diseases with the same disease type as the diseases of the member to be detected), and the maintenance solution of case diseases can further comprise description of effects after maintenance, information of required materials for maintenance, required mechanical equipment, construction details and the like.

In one embodiment, the found disease solution may be displayed to the user in text form; the found disease solution can be loaded into a BIM model combined with the live action for a user to watch through an AR technology, so that the user can more intuitively watch the operation flow of the maintenance process method. Further, after checking the disease solution, the user judges the disease solution provided by the server, determines whether the material consumption and the mechanical equipment type in the disease solution are scientific and reasonable, verifies whether the effect after the disease repair can meet the requirements, and therefore recommends an optimal disease treatment countermeasure proposal for disease maintainers, reduces construction uncertainty and quickens maintenance treatment efficiency.

In the road disease processing method, after the server determines the disease information of the disease based on the inspection data of the member to be inspected, the server can find a corresponding disease solution according to the disease information and push the solution to the user as a reference suggestion for maintaining the disease, so that the user can be assisted to make a reasonable and scientific maintenance decision.

In one embodiment, as shown in fig. 4, when it is determined that there is a disease based on inspection data of the member to be inspected, step S410 is further included: determining relevant information of diseases of the member to be detected based on inspection data of the member to be detected; and uploading relevant information of the diseases of the member to be detected to a disease warehouse for storage.

Disease information of diseases of the member to be detected can be determined through inspection data of the member to be detected, and further the information can be uploaded to a disease warehouse for storage. In the road disease processing method, when the server determines that the member to be detected has the disease based on the inspection data of the member to be detected, the disease information determined by the inspection data is uploaded to the disease library, so that the disease information of the disease library can be continuously increased, and the disease richness of the disease library is improved.

In a specific embodiment, as shown in fig. 5, a flow chart of a method for treating road diseases in this embodiment is shown. In this embodiment, taking an example that a user uses a handheld terminal of a traffic infrastructure inspection system to perform road inspection, the user is an inspection person. The method comprises the following steps:

the patrol personnel of the traffic infrastructure reach the appointed position according to the route and the position coordinates of the facility to be patrol, which are distributed by the handheld terminal of the patrol system; the patrol personnel opens the handheld terminal equipment of the patrol system, and calls out the three-dimensional BIM model of the traffic infrastructure to be detected by inputting the facility identification of the traffic infrastructure to be detected. The input of the facility identifier may be a two-dimensional code of the traffic infrastructure to be detected, or a coded identifier of the traffic infrastructure to be detected, or a facility identifier of the traffic infrastructure to be detected, which is determined by scanning the traffic infrastructure to be detected through an AR function.

At this time, the handheld terminal device display interface displays the BIM model of the traffic infrastructure to be inspected, corresponding data information and the like, and the inspector can freely and quickly select and view multi-level data, related data files and the like from the whole facility to the minimum component unit and the like. The patrol personnel can retrieve and check the related information of the traffic infrastructure and the components thereof stored in the patrol system background foundation database by clicking the menu tree or the BIM model component unit. Wherein the information about the component includes: geometric attribute data, administrative identification data, structural technical grade conditions, historical diseases, maintenance records, completion drawings, detection report data and other multidimensional, multi-source and multi-level data information; the data information of facilities and components can be actively pushed through an AR technology according to preset content and mode, and human, machine and object friendly interaction is achieved.

Then, the patrol personnel starts to patrol the traffic infrastructure to be detected, when one of the components is patrol, the component is marked as the component to be detected, the patrol personnel can check the component to be detected at the handheld terminal so as to check the related information of the component to be detected, and the patrol data of the component to be detected are uploaded to the server.

Specifically, the patrol personnel can complete the patrol task of the traffic infrastructure to be detected in a shooting and scanning mode through the handheld terminal equipment, the handheld terminal equipment transmits the shot and scanned live-action pictures to a disease library of a background server of the patrol system for disease automatic identification, and whether the component to be detected of the traffic infrastructure to be detected is diseased or abnormal is judged; if the inspection system judges that the facility has diseases or is abnormal, the handheld terminal equipment automatically records the information such as disease category, disease photo, disease description, damage degree, disease coordinates and the like to the corresponding component of the BIM model of the traffic infrastructure to be inspected, and uploads the disease information to a disease library of a background server of the inspection system for storage.

Or in other embodiments, the disease information can be recorded by the inspector according to experience to determine that the member to be inspected has diseases or anomalies, and then the inspector directly records the disease information to the member corresponding to the BIM model of the traffic infrastructure to be inspected. Further, after the inspection personnel records the disease information, the server can visually display the disease at the corresponding position of the corresponding member of the BIM model.

After the disease is recorded, the inspection system searches corresponding disease solutions according to the facility type and the disease type, and pushes the solutions to inspection staff. The disease solution may include: and proper disease maintenance and treatment measures, and information such as standard technological process, materials, mechanical equipment, construction details and the like. It will be appreciated that the inspection system may also find and push the disease solution either simultaneously with or before the disease is recorded, after determining that the member to be inspected is diseased.

The inspection staff can check the disease solution, can check the text description of the disease solution, and can also check the operation flow of the maintenance process method through BIM and AR technology to repair the effect. After checking the disease solution, the inspection staff can judge whether the material consumption and the mechanical equipment type in the disease solution pushed by the system are scientific and reasonable, and verify whether the effect after the disease repair is finished can meet the requirements, so that the optimal disease treatment countermeasure suggestion is recommended for the disease maintenance staff, the construction uncertainty is reduced, and the maintenance and treatment efficiency is accelerated.

By the road disease processing method, the patrol personnel can quickly and conveniently check the traffic infrastructure data information and the BIM model, so that time and energy are saved, intuitiveness is improved, and the method is close to reality; in addition, the method can accurately position and store the diseases of the traffic infrastructure to the components, and the disease solution pushed by the traffic infrastructure inspection system can assist users to make reasonable and scientific maintenance decisions.

It should be understood that, although the steps in the flowcharts of fig. 2 to 5 are sequentially shown as indicated by arrows, these steps are not necessarily sequentially performed in the order indicated by the arrows. The steps are not strictly limited to the order of execution unless explicitly recited herein, and the steps may be executed in other orders. Moreover, at least some of the steps in fig. 2-5 may include multiple sub-steps or stages that are not necessarily performed at the same time, but may be performed at different times, nor does the order in which the sub-steps or stages are performed necessarily occur in sequence, but may be performed alternately or alternately with at least a portion of the other steps or sub-steps of other steps.

In one embodiment, as shown in fig. 6, there is provided a road disease treatment apparatus comprising: BIM model loading module 610, component loading module 620, and information updating module 630, wherein:

the BIM model loading module 610 is configured to obtain a facility identifier of a traffic infrastructure to be detected, and load a BIM model corresponding to the traffic infrastructure to be detected based on the facility identifier; the BIM model contains component information of the traffic infrastructure to be inspected.

The component loading module 620 is configured to obtain a component selection instruction to be inspected, load a component to be inspected in the BIM model based on the component selection instruction to be inspected, where the component to be inspected includes information related to the component to be inspected.

The information updating module 630 is configured to obtain inspection data of the member to be inspected, and update related information of the member to be inspected in the BIM model corresponding to the traffic infrastructure to be inspected based on the inspection data of the member to be inspected when it is determined that the disease exists based on the inspection data of the member to be inspected.

For specific limitations of the road disease treatment device, reference may be made to the above limitations of the road disease treatment method, and no further description is given here. The respective modules in the road disease processing apparatus described above may be implemented in whole or in part by software, hardware, and a combination thereof. The above modules may be embedded in hardware or may be independent of a processor in the computer device, or may be stored in software in a memory in the computer device, so that the processor may call and execute operations corresponding to the above modules.

In one embodiment, a computer device is provided, which may be a server, the internal structure of which may be as shown in fig. 7. The computer device includes a processor, a memory, a network interface, and a database connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device includes a non-volatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, computer programs, and a database. The internal memory provides an environment for the operation of the operating system and computer programs in the non-volatile storage media. The database of the computer device is used to store BIM model data and case disorder data of the traffic infrastructure. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program, when executed by a processor, implements a method of treating a road hazard.

It will be appreciated by those skilled in the art that the structure shown in FIG. 7 is merely a block diagram of some of the structures associated with the present inventive arrangements and is not limiting of the computer device to which the present inventive arrangements may be applied, and that a particular computer device may include more or fewer components than shown, or may combine some of the components, or have a different arrangement of components.

In one embodiment, a computer device is provided comprising a memory and a processor, the memory having stored therein a computer program, the processor when executing the computer program performing the steps of:

acquiring a facility identifier of a traffic infrastructure to be detected, and loading a BIM model corresponding to the traffic infrastructure to be detected based on the facility identifier; the BIM model comprises component information of the traffic infrastructure to be detected;

acquiring a component selection instruction to be detected, and loading relevant information of the component to be detected in the BIM based on the component selection instruction to be detected;

and acquiring inspection data of the to-be-inspected component, and updating relevant information of the to-be-inspected component in the BIM model corresponding to the to-be-inspected traffic infrastructure based on the inspection data of the to-be-inspected component when the existence of diseases is determined based on the inspection data of the to-be-inspected component.

In one embodiment, the processor when executing the computer program further performs the steps of: when it is determined that there is a disease based on inspection data of the member to be inspected, the method further includes the steps of: and loading a disease solution corresponding to the disease based on inspection data of the member to be inspected.

In one embodiment, the processor when executing the computer program further performs the steps of: the inspection data of the member to be inspected comprises: disease type of the member to be inspected;

the inspection data loading and disease solving scheme based on the member to be inspected comprises the following steps: and searching a disease solution corresponding to the disease based on the disease type of the member to be detected.

In one embodiment, the processor when executing the computer program further performs the steps of: the inspection data of the member to be inspected comprises: a photograph of the member to be inspected;

determining that there is a disease based on inspection data of a member to be inspected, comprising: determining that the member to be detected has diseases based on the photo of the member to be detected;

the inspection data loading and disease solving scheme based on the member to be inspected comprises the following steps: determining the disease type of the disease existing in the member to be detected based on the photo of the member to be detected; and searching a disease solution corresponding to the disease based on the disease type of the disease of the member to be detected.

In one embodiment, the processor when executing the computer program further performs the steps of: the inspection data loading and disease solving scheme based on the member to be inspected comprises the following steps:

after searching the disease solution corresponding to the disease based on the inspection data of the member to be inspected, loading the disease solution corresponding to the disease in a text mode.

In one embodiment, the processor when executing the computer program further performs the steps of: after searching for a disease solution corresponding to the disease based on inspection data of the member to be inspected, loading the disease solution corresponding to the disease into the BIM model combined with the live-action.

In one embodiment, the processor when executing the computer program further performs the steps of: obtaining a facility identification of a traffic infrastructure to be inspected, comprising: and acquiring the code identification associated with the traffic infrastructure to be inspected.

In one embodiment, the processor when executing the computer program further performs the steps of: obtaining a facility identification of a traffic infrastructure to be inspected, comprising: and acquiring a two-dimensional code identifier which is obtained through scanning and is associated with the traffic infrastructure to be detected.

In one embodiment, the processor when executing the computer program further performs the steps of: obtaining a facility identification of a traffic infrastructure to be inspected, comprising: and acquiring the facility identification of the traffic infrastructure to be inspected, which is determined by AR scanning the traffic infrastructure to be inspected.

In one embodiment, the processor when executing the computer program further performs the steps of: when it is determined that there is a disease based on inspection data of the member to be inspected, further comprising:

determining relevant information of diseases of the member to be detected based on inspection data of the member to be detected; and uploading relevant information of the diseases of the member to be detected to a disease warehouse for storage.

In one embodiment, a computer readable storage medium is provided having a computer program stored thereon, which when executed by a processor, performs the steps of:

acquiring a facility identifier of a traffic infrastructure to be detected, and loading a BIM model corresponding to the traffic infrastructure to be detected based on the facility identifier; the BIM model comprises component information of the traffic infrastructure to be detected;

acquiring a component selection instruction to be detected, and loading relevant information of the component to be detected in the BIM based on the component selection instruction to be detected;

and acquiring inspection data of the to-be-inspected component, and updating relevant information of the to-be-inspected component in the BIM model corresponding to the to-be-inspected traffic infrastructure based on the inspection data of the to-be-inspected component when the existence of diseases is determined based on the inspection data of the to-be-inspected component.

In one embodiment, the computer program when executed by the processor further performs the steps of: when it is determined that there is a disease based on inspection data of the member to be inspected, the method further includes the steps of: and loading a disease solution corresponding to the disease based on inspection data of the member to be inspected.

In one embodiment, the computer program when executed by the processor further performs the steps of: the inspection data of the member to be inspected comprises: disease type of the member to be inspected;

the inspection data loading and disease solving scheme based on the member to be inspected comprises the following steps: and searching a disease solution corresponding to the disease based on the disease type of the member to be detected.

In one embodiment, the computer program when executed by the processor further performs the steps of:

the inspection data of the member to be inspected comprises: a photograph of the member to be inspected;

determining that there is a disease based on inspection data of a member to be inspected, comprising: determining that the member to be detected has diseases based on the photo of the member to be detected;

the inspection data loading and disease solving scheme based on the member to be inspected comprises the following steps: determining the disease type of the disease existing in the member to be detected based on the photo of the member to be detected; and searching a disease solution corresponding to the disease based on the disease type of the disease of the member to be detected.

In one embodiment, the computer program when executed by the processor further performs the steps of: the inspection data loading and disease solving scheme based on the member to be inspected comprises the following steps:

after searching the disease solution corresponding to the disease based on the inspection data of the member to be inspected, loading the disease solution corresponding to the disease in a text mode.

In one embodiment, the computer program when executed by the processor further performs the steps of: after searching for a disease solution corresponding to the disease based on inspection data of the member to be inspected, loading the disease solution corresponding to the disease into the BIM model combined with the live-action.

In one embodiment, the computer program when executed by the processor further performs the steps of: obtaining a facility identification of a traffic infrastructure to be inspected, comprising: and acquiring the code identification associated with the traffic infrastructure to be inspected.

In one embodiment, the computer program when executed by the processor further performs the steps of: obtaining a facility identification of a traffic infrastructure to be inspected, comprising: and acquiring a two-dimensional code identifier which is obtained through scanning and is associated with the traffic infrastructure to be detected.

In one embodiment, the computer program when executed by the processor further performs the steps of: obtaining a facility identification of a traffic infrastructure to be inspected, comprising: and acquiring the facility identification of the traffic infrastructure to be inspected, which is determined by AR scanning the traffic infrastructure to be inspected.

In one embodiment, the computer program when executed by the processor further performs the steps of: when it is determined that there is a disease based on inspection data of the member to be inspected, further comprising:

Determining relevant information of diseases of the member to be detected based on inspection data of the member to be detected; and uploading relevant information of the diseases of the member to be detected to a disease warehouse for storage.

According to the road disease processing device, the computer equipment and the storage medium, the BIM model corresponding to the to-be-detected facility is loaded on the current interface by acquiring the facility identification of the to-be-detected traffic infrastructure, the inspection personnel can select the to-be-detected member in the BIM model to check the related information of the to-be-detected member, the inspection personnel inputs the inspection data of the to-be-detected member into the traffic infrastructure inspection system, and after the inspection data is acquired by the system, the related information of the to-be-detected member in the BIM model is updated when the existence of the disease of the to-be-detected member is determined based on the inspection data. By the method, the inspection personnel can quickly input the disease information into the traffic infrastructure inspection system when the disease is found in the inspection process, so that the efficiency of recording the disease is improved.

Those skilled in the art will appreciate that implementing all or part of the above described methods may be accomplished by way of a computer program stored on a non-transitory computer readable storage medium, which when executed, may comprise the steps of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in embodiments provided herein may include non-volatile and/or volatile memory. The nonvolatile memory can include Read Only Memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double Data Rate SDRAM (DDRSDRAM), enhanced SDRAM (ESDRAM), synchronous Link DRAM (SLDRAM), memory bus direct RAM (RDRAM), direct memory bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM), among others.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the application, which are described in detail and are not to be construed as limiting the scope of the application. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the application, which are all within the scope of the application. Accordingly, the scope of protection of the present application is to be determined by the appended claims.

Claims (7)

1. A method of treating a road disease, the method comprising:

acquiring a facility identifier of a traffic infrastructure to be detected, and loading a BIM model corresponding to the traffic infrastructure to be detected based on the facility identifier; the BIM model comprises component information of the traffic infrastructure to be detected;

acquiring a component selection instruction to be detected, and loading relevant information of the component to be detected in the BIM based on the component selection instruction to be detected;

Acquiring inspection data of the member to be inspected, when the existence of diseases is determined based on the inspection data of the member to be inspected, updating relevant information of the member to be inspected in a BIM model corresponding to the traffic infrastructure to be inspected based on the inspection data of the member to be inspected, loading a disease solution corresponding to the diseases based on the inspection data of the member to be inspected, wherein the inspection data of the member to be inspected comprises: a photograph of the member to be inspected;

the inspection data based on the member to be inspected loads a disease solution corresponding to the disease, comprising: after searching the disease solution corresponding to the disease based on the inspection data of the member to be inspected, loading the disease solution corresponding to the disease in a text mode; or after searching for the disease solution corresponding to the disease based on the inspection data of the member to be inspected, loading the disease solution corresponding to the disease into the BIM model combined with the live-action;

the determining that the disease exists based on the inspection data of the member to be inspected comprises: determining that diseases exist in the member to be detected based on the photo of the member to be detected;

The inspection data based on the member to be inspected loads a disease solution corresponding to the disease, comprising: determining the disease type of the disease existing in the member to be detected based on the photo of the member to be detected; searching a disease solution corresponding to the disease based on the disease type of the disease of the member to be detected;

the determining that the member to be inspected has a disease based on the photograph of the member to be inspected includes: and inputting the photo of the member to be detected into a disease library to find out whether the same disease exists or uploading the photo of the member to be detected to a network to find out, and determining that the member to be detected has the disease.

2. The method of claim 1, wherein the inspection data of the component to be inspected comprises: the disease type of the member to be detected;

the inspection data based on the member to be inspected loads a disease solution corresponding to the disease, comprising:

and searching a disease solution corresponding to the disease based on the disease type of the member to be detected.

3. The method according to any one of claims 1 to 2, characterized in that the acquisition of the facility identification of the traffic infrastructure to be inspected comprises at least one of the following:

Acquiring a coding identifier associated with the traffic infrastructure to be inspected;

acquiring a two-dimensional code identifier which is obtained through scanning and is associated with the traffic infrastructure to be detected;

and acquiring a facility identification of the traffic infrastructure to be inspected, which is determined by AR scanning the traffic infrastructure to be inspected.

4. The method according to any one of claims 1 to 2, wherein when it is determined that there is a disease based on inspection data of the member to be inspected, further comprising:

determining relevant information of diseases of the member to be detected based on the inspection data of the member to be detected; uploading the relevant information of the diseases of the member to be detected to a disease warehouse for storage.

5. A device for treating road diseases, the device comprising:

the BIM model loading module is used for acquiring a facility identifier of the traffic infrastructure to be detected, and loading a BIM model corresponding to the traffic infrastructure to be detected based on the facility identifier; the BIM model comprises component information of the traffic infrastructure to be detected;

the component loading module is used for acquiring a component selection instruction to be detected, and loading the component to be detected in the BIM based on the component selection instruction to be detected, wherein the component to be detected comprises related information of the component to be detected;

The information updating module is used for acquiring inspection data of the member to be inspected, when the existence of diseases is determined based on the inspection data of the member to be inspected, updating relevant information of the member to be inspected in the BIM model corresponding to the traffic infrastructure to be inspected based on the inspection data of the member to be inspected, loading a disease solution corresponding to the diseases based on the inspection data of the member to be inspected, wherein the inspection data of the member to be inspected comprises: a photograph of the member to be inspected;

the inspection data based on the member to be inspected loads a disease solution corresponding to the disease, comprising: after searching the disease solution corresponding to the disease based on the inspection data of the member to be inspected, loading the disease solution corresponding to the disease in a text mode; or after searching for the disease solution corresponding to the disease based on the inspection data of the member to be inspected, loading the disease solution corresponding to the disease into the BIM model combined with the live-action;

the determining that the disease exists based on the inspection data of the member to be inspected comprises: determining that diseases exist in the member to be detected based on the photo of the member to be detected;

The inspection data based on the member to be inspected loads a disease solution corresponding to the disease, comprising: determining the disease type of the disease existing in the member to be detected based on the photo of the member to be detected; searching a disease solution corresponding to the disease based on the disease type of the disease of the member to be detected;

the determining that the member to be inspected has a disease based on the photograph of the member to be inspected includes: and inputting the photo of the member to be detected into a disease library to find out whether the same disease exists or uploading the photo of the member to be detected to a network to find out, and determining that the member to be detected has the disease.

6. A computer device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor implements the steps of the method of any of claims 1 to 4 when the computer program is executed.

7. A computer readable storage medium, on which a computer program is stored, characterized in that the computer program, when being executed by a processor, implements the steps of the method of any of claims 1 to 4.