CN114090147A

CN114090147A - Data processing method based on geographic information platform

Info

Publication number: CN114090147A
Application number: CN202111266635.2A
Authority: CN
Inventors: 刘俊; 郭瑜杰; 叶孝杰; 郝玉杰; 许琦
Original assignee: Zhuhai Dahengqin Technology Development Co Ltd
Current assignee: Zhuhai Dahengqin Technology Development Co Ltd
Priority date: 2021-10-28
Filing date: 2021-10-28
Publication date: 2022-02-25

Abstract

The embodiment of the invention provides a data processing method based on a geographic information platform, wherein the geographic information platform is used for displaying outdoor equipment in a plurality of areas and comprises a geographic information engine, a portal front-end interface and a geographic information editor, the geographic information engine responds to the target operation of a first user, leads in the target geographic information of the outdoor equipment from a preset geographic information database and generates an accessible layer file based on the target geographic information; the portal front-end interface acquires the layer file, and performs visual display on the portal front-end interface based on the layer file; when detecting a target updating request associated with outdoor equipment, the geographic information editor adjusts the layer file based on the target updating request, and sends the adjusted layer file to a portal front-end interface for updating a visual interface. By the embodiment of the invention, the outdoor equipment is visually displayed and updated, the state of the outdoor equipment is quickly acquired, and the operation and maintenance efficiency is improved.

Description

Data processing method based on geographic information platform

Technical Field

The invention relates to the technical field of data processing, in particular to a data processing method based on a geographic information platform.

Background

In the process of building the smart city, when the smart city is in a stage of rapid development and change, different technological industries and services need to be developed, so that the technical requirements of smart city building are increasingly strong, and the smart city building has the characteristic of diversification.

In order to meet the requirement of operation and maintenance service in smart city construction, a cross-domain operation and maintenance platform needs to be constructed urgently, and unified management on city operation and maintenance in different regions is realized.

In the process of constructing the cross-domain operation and maintenance platform, a large amount of outdoor equipment in different areas and different projects is difficult to manage in the process of project construction, operation and maintenance; therefore, in the project construction process, when the state of some outdoor equipment is changed, the operation and maintenance personnel cannot rapidly and intuitively know the overall state of all outdoor equipment in the whole project.

Disclosure of Invention

In view of the above, it is proposed to provide a data processing method based on a geographic information platform that overcomes or at least partially solves the above mentioned problems, comprising:

a data processing method based on a geographic information platform is used for displaying outdoor equipment in a plurality of areas and comprises a geographic information engine, a portal front-end interface and a geographic information editor, and the method comprises the following steps:

the geographic information engine responds to target operation of a first user, leads target geographic information of the outdoor equipment into a preset geographic information database, and generates an accessible layer file based on the target geographic information;

the portal front-end interface acquires the layer file and performs visual display on the portal front-end interface based on the layer file;

and when detecting a target updating request associated with the outdoor equipment, the geographic information editor adjusts the layer file based on the target updating request and sends the adjusted layer file to the portal front-end interface to update the visual interface.

Optionally, when detecting an update request associated with the outdoor device, the geographic information editor adjusts the layer file based on the update request, including:

the geographic information editor acquires user number information of a second user when receiving an updating request associated with the outdoor equipment sent by the second user;

the geographic information editor judges whether the second user is a target user in a preset user list or not based on the user number information;

and when the geographic information editor judges that the second user is a target user in a preset user list, adjusting the layer file based on the updating request.

Optionally, the outdoor device is an outdoor device associated with a target project, and when detecting an update request associated with the outdoor device, the geographic information editor adjusts the layer file based on the update request, including:

the geographic information editor transitioning the target item from the first project phase to the second project phase in response to a confirmation completion operation by a third user upon completion of the first project phase of the target item;

and when detecting that the target project is changed from a first project stage to a second project stage, the geographic information editor generates an updating request and adjusts the layer file based on the updating request.

Optionally, when detecting that the target project is changed from the first project stage to the second project stage, the geographic information editor generates an update request, and adjusts the layer file based on the update request, including:

the geographic information editor determines status update information of a target outdoor device from one or more outdoor devices when detecting that the target project is changed from a first project phase to a second project phase;

adjusting the layer file according to the state updating information; wherein the update request includes icon color information of the target outdoor device at the second project stage;

determining an icon to be modified corresponding to the target outdoor equipment in the layer file;

and adjusting the icon to be modified according to the icon color information.

Optionally, the status of the outdoor device comprises any one of:

planning state, reservation state, build state, availability state, in-use state, fault state, retirement state, unavailability state, removal state.

A geographic information platform is used for displaying outdoor equipment in a plurality of areas, and comprises a geographic information engine, a portal front-end interface and a geographic information editor, wherein:

the geographic information engine is used for responding to target operation of a first user, importing target geographic information of the outdoor equipment from a preset geographic information database, and generating an accessible layer file based on the target geographic information;

the portal front-end interface is used for acquiring the layer file and performing visual display on the portal front-end interface based on the layer file;

and the geographic information editor is used for adjusting the layer file based on the target updating request when the target updating request associated with the outdoor equipment is detected, and sending the adjusted layer file to the portal front-end interface so as to update the visual interface.

Optionally, when the geographic information editor is configured to, when detecting an update request associated with the outdoor device, adjust the layer file based on the update request, specifically, to:

when an updating request associated with the outdoor equipment sent by a second user is received, acquiring user number information of the second user;

judging whether the second user is a target user in a preset user list or not based on the user number information;

and when the second user is judged to be a target user in a preset user list, adjusting the layer file based on the updating request.

Optionally, the outdoor device is an outdoor device associated with a target project, and the geographic information editor is configured to, when detecting an update request associated with the outdoor device, adjust the layer file based on the update request, and specifically configured to:

transitioning the target item from the first item phase to the second item phase in response to a confirmation completion operation by a third user upon completion of the first item phase of the target item;

when the target project is detected to be changed from the first project stage to the second project stage, an updating request is generated, and the layer file is adjusted based on the updating request.

Optionally, the geographic information editor is configured to generate an update request when it is detected that the target project is changed from a first project stage to a second project stage, and adjust the layer file based on the update request, specifically, to:

determining state update information of a target outdoor device from one or more outdoor devices upon detecting a transition of the target item from a first item phase to a second item phase;

generating an updating request according to the state updating information; wherein the update request includes icon color information of the target outdoor device at the second project stage;

and adjusting the icon to be modified according to the icon color information.

Optionally, the status of the outdoor device comprises any one of:

The embodiment of the invention has the following advantages:

in the embodiment of the invention, the geographic information platform comprises a geographic information engine, a portal front-end interface and a geographic information editor, wherein the geographic information engine responds to the target operation of a first user, leads in the target geographic information of outdoor equipment from a preset geographic information database, and generates an accessible layer file based on the target geographic information; the portal front-end interface acquires the layer file, and performs visual display on the portal front-end interface based on the layer file; when the geographic information editor detects a target updating request associated with outdoor equipment, the layer file is adjusted based on the target updating request, and the adjusted layer file is sent to a portal front-end interface to update a visual interface, so that visual display and updating of the outdoor equipment are realized, a user can visually know the actual condition of the outdoor equipment, the outdoor equipment can be managed conveniently, and the operation and maintenance service efficiency is improved.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings needed to be used in the description of the present invention will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

Fig. 1 is a flowchart illustrating steps of a data processing method based on a geographic information platform according to an embodiment of the present invention;

FIG. 2 is a flowchart illustrating steps of another data processing method based on a geographic information platform according to an embodiment of the present invention;

FIG. 3 is a flowchart illustrating steps of another data processing method based on a geographic information platform according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a geographic information platform according to an embodiment of the present invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, a flowchart illustrating steps of a data processing method based on a geographic information platform according to an embodiment of the present invention is shown, where the geographic information platform is used to display outdoor devices in multiple areas, and includes a geographic information engine, a portal front-end interface, and a geographic information editor, and specifically includes the following steps:

step 101, the geographic information engine responds to a target operation of a first user, imports target geographic information of the outdoor equipment from a preset geographic information database, and generates an accessible layer file based on the target geographic information;

in one example, the outdoor device may include any one or more of: (1) communication network infrastructure devices such as: communication pipelines, communication optical cables, optical cable cross-connecting boxes, manholes and the like. (2) Wi-Fi wireless network infrastructure devices, such as: an antenna, a support rod, a Wi-Fi controller and the like. (3) Security facility equipment such as electronic purse seine, if: front-end equipment, camera, control pole setting etc.. (4) Other utilities, such as: well lids, and the like. (5) Fire-fighting equipment, such as: fire hydrant, smoke sensor, fire alarm clock, etc. (6) Transportation facilities, such as: traffic signal lamps, velocimeters, monitoring cameras and the like. (7) Urban construction, such as: big trees, billboards, etc.

In the geographic information platform, when a first user performs a data import operation, a geographic information engine may respond to a corresponding operation to import target geographic information of the outdoor device from a preset geographic information database, where the target geographic information may include location information of outdoor device deployment, and after the location information is imported, an accessible layer file may be generated based on the target geographic information, and the layer file may be a composite layer obtained by merging a plurality of layers.

In an example, the target geographic information may be any one or more of:

(1) basic data

Basic geographic data, resource basic physical data.

Such as: the underlying geographic data may include: traditional data, live-action images, oblique images, new surveying and mapping product data, and the like; and resource basic physical data such as the length, width and height of a manhole, four-side pipeline discharge and the like.

(2) Intelligently perceived real-time data

The available information obtained by the sensing network including space, time and place in real time.

Such as: front-end equipment in the electronic purse net, other monitoring cameras and sensors transmit data in real time.

(3) Space planning data

The method comprises space planning blueprint files formulated by different departments.

Such as: Wi-Fi network coverage map, land development planning map, etc.

(4) Location name address data

And inputting an administrative place name corresponding to the target position.

(5) Model data

A visual model of a facility equipment resource, including its physical characteristics and attributes.

Such as: and establishing the three-dimensional appearance, the internal architecture and the resource ranking wiring information of the manhole.

(6) Mapping product data

Scale, grid, measuring tool, etc.

In one example, the geographic information engine can have at least the following capabilities: the editor registers an authentication function, sets time, a coordinate and elevation reference function, conversion time, the coordinate and elevation reference function, creates a layer file, edits a layer, sets layer attributes and releases the layer file service.

The function of creating the layer file may specifically be to automatically import layer basic data, for example, import data with reference spatio-temporal information and graphic information from a text file such as excel, txt, csv, or from a geographic information database.

A plurality of layers can be added on the existing layers through the function of editing the layers, and finally the layers are combined into a layer file form, so that a front-end interface can be conveniently displayed. And the basic information of the layer can be modified by editing the function of the layer, so that the layer information is automatically updated.

The setting of the layer attribute may include setting a style of each element in the layer, such as: size, color, transparency, etc.; setting display conditions of elements in the layer, such as: 1, reaching the following steps: 10000 of scaling to display icons; setting an association relation between layers, such as: when the conditions of 1: a scaling of 1000 would require the tag layers to be displayed simultaneously.

The publishing layer file service specifically includes that after the layer file is edited, the geographic information engine can publish the layer file into an accessible layer service.

102, the portal front-end interface acquires the layer file and performs visual display on the portal front-end interface based on the layer file;

the portal front-end interface is mainly used for visually displaying outdoor equipment, and specifically, layer files generated by a geographic information engine can be acquired, and visual display is performed according to the layer files.

In an example, the portal front-end interface is a visual interface and may include information of all outdoor devices, and since the outdoor devices have a large area space, in order to keep consistency among all the devices, a geographic information frame is used as a basis to display different types of devices in a stacked and layered form. The functionality of the portal front-end interface is described as follows:

(1) geographical layer presentation function

Existing outdoor facilities may be divided into different types according to different dimensions. Because different devices can provide various service types and generate various space-time data, in order to ensure that various types of services can be managed in a centralized and unified manner, and simultaneously, the space-time data generated or collected by various devices can be exchanged and shared, the space-time data can be summarized into the following layers, and if a new outdoor device type exists in the future, a new geographic layer can be added or the space-time data can be added into the existing layer as required.

The layer types can be divided into a whole island geographic information layer (containing whole island actual geographic information including roads, streets, terrains and the like), a building geographic information layer (containing an appearance model of main buildings of the whole island, an indoor three-dimensional model and the like), a communication facility equipment distribution layer (a communication facility takes a comprehensive pipe gallery as a center and contains all optical fiber network line resources and equipment), a Wi-Fi network facility equipment distribution layer (containing all equipment and optical cables which need to provide Wi-Fi service functions), an electronic fence facility equipment distribution layer (all equipment facilities forming the electronic fence and comprising optical cables, equipment, a front-end camera and the like), other public facility equipment distribution layers and the like

By way of example, other layers may be added according to user requirements to show all devices that need to incorporate the outdoor resource management. Since the infrastructure of a smart city is based on ICT (Information and Communications Technology) intelligent facilities, public facilities, such as trees, billboards and the like, which are not ICT-based facilities, need to be loaded with devices, such as attitude sensors and the like, in order to monitor and collect valuable spatio-temporal data, and therefore, the geographical positions of ICT-based facilities, such as various sensors, are mainly recorded on other public facility layers.

(b) Presentation of the function

Each layer may contain facilities of the same type and different states or different classifications, and when the layer is switched to the display state, the corresponding diagram should introduce the classification of the current layer information. Such as the WI-FI layer, different logo shapes may be used to represent network type, different colors may represent signal strength, etc.

(c) Scaling rule

When the platform is entered for the first time, the platform provides the optimal scale display according to the user terminal equipment, and meanwhile, a scale tool is provided to enable the user to self-define the optimal map scale under different requirements.

(d) Measuring tool bar

The platform should provide a variety of visual toolbars, such as measuring the distance between two points, calculating the area of a custom area, measuring the geographic coordinates of a selected site, and the like.

(e) Geographical name address query engine

Through the accurate positioning of a full-space information model of big data, various types of address information are paired, such as addresses meeting the specification, non-specification addresses, incomplete addresses, alias addresses or reverse matching.

(f) Attribute query

According to the facilities contained in each layer, the platform provides single or multiple key attributes to query the equipment.

(g) Positioning focus, positioning focus area and other functions

The user can customize the identification of the focus or the focus area and can customize the printing area according to the identification for different types of workers.

(h) Report function

And various report functions such as an automatic checking function, an auditing function and the like are provided.

And 103, when detecting a target updating request associated with the outdoor equipment, the geographic information editor adjusts the layer file based on the target updating request, and sends the adjusted layer file to the portal front-end interface to update the visual interface.

The geographic information editor may adjust the layer file when detecting a target update request associated with the outdoor device, and send the adjusted layer file to the portal front-end interface, and the portal front-end interface may update the visual interface based on the layer file after receiving the adjusted layer file.

In an example, a geographic information editor can be used to edit a model element, which is the most basic unit of a geospatial framework to represent a piece of equipment, a cable or a port, etc. In order to maximize the utilization of the asset value, the manager needs to know the physical appearance and internal structure of each component deeply, and is required to maximize the utilization of each asset. Therefore, the geographic information editor needs to provide a design assistant view interface for the user to manage the model elements.

(1) Model element management

The model element management mainly manages the appearance attributes, the internal structures, the attached attributes and the connection relations of various types of elements, and the actual physical current situation of the elements is truly reflected to the platform by carrying out three-dimensional model modeling on various types of equipment, so that managers can conveniently know the service condition of facility equipment from multiple angles.

(i) Model element creation

The editor needs to provide the following configuration tools to establish the guiding rules for model building or connection to the administrator. If the cable model needs to be connected with the equipment port model, the cable model cannot be directly connected with the cable model in an adjacent mode, and the like. After the modeling rules are established, various models can be created.

(ii) Model element editing

The platform provides a plurality of preset elements for a user to select single or combined creation, and a new self-defined element model can be created according to the modeling rule created by the user.

(iii) Automatic updating of model elements

After the physical appearance or the attribute of the model element is modified and edited, the platform can automatically update all the used or unused elements according to the requirement of a user and present the updated elements in the corresponding layer information of the platform interface.

(iv) Model element query

Name or number search of model elements can be formulated according to user needs

(v) Model element and internal development drawing function

The editor needs to preset a specific model (such as a telecommunication type, a fire fighting type and the like) and a plurality of internal expansion diagrams for a user to select, and simultaneously supports the user to define the appearance and the internal expansion plan of the model.

(vi) Planar space rendering function

The editor needs to provide a planar space drawing tool and guidance.

(vii) Model element attribute function

In making the model, it is necessary to add attributes to each of its elements to specify the physical appearance of the model, such as a light box comprising: unique identification, category of use, name, length, width, height, weight, identification, manufacturer, remark, number of internal input/output ports, etc.

(viii) Model element graphical preview

After the model element is created, the system provides a multi-angle view and an editor opens a preview of the newly created or existing element model.

(ix) Model element lifecycle setup

Such as using different colors to distinguish different states:

planning status, reservation status, build status, availability status, in-use status, fault status, scrap status, unavailable status, removal status, etc

(x) Correlation function between model elements

Since network communication devices need to be connected to be put into use, the network elements that need to be connected must be set up with a relationship, including but not limited to the following:

horizontal connection (for example: the connection between the wayside box and the optical cable is horizontal connection), vertical inclusion connection (for example: the connection between the pipeline in the integrated pipe bag and the optical cable placed in the pipeline is vertical inclusion connection)

(2) Layer management

(i) Creating layers

(ii) Edit layer

(iii) Setting of layer attributes

(3) Other auxiliary tools

(i) Measuring and drawing auxiliary tool bar

(ii) Analysis function

Optimal path analysis, two-point automation according to user definition on the graph layer, space utilization analysis (such as pipe gallery space, cable conduit space), route tracking

(iii) Role privilege configuration

The role authority can be configured into a terminal user, an administrator user, a system administrator user and the like according to the configuration of the page function; the configuration is carried out according to the geographic information database, and the role authority can be configured to a geographic information manager, a terminal developer and the like.

Referring to fig. 2, a flowchart illustrating steps of another data processing method based on a geographic information platform according to an embodiment of the present invention is shown, which may specifically include the following steps:

step 201, the geographic information engine responds to a target operation of a first user, imports target geographic information of the outdoor equipment from a preset geographic information database, and generates an accessible layer file based on the target geographic information;

step 202, the portal front-end interface acquires the layer file, and performs visual display on the portal front-end interface based on the layer file;

step 203, when the geographic information editor receives an update request associated with the outdoor equipment sent by a second user, obtaining user number information of the second user;

in the geographic information platform, the visual interface can be automatically updated, and can also be updated according to the operation of a specified user.

When an update request associated with the outdoor device is sent by the second user, in order to protect the layer security and avoid malicious modification of the layer, user number information of the second user may be obtained to determine whether the second user is a user having an authority to update the layer.

Step 204, the geographic information editor judges whether the second user is a target user in a preset user list or not based on the user number information;

the geographic information editor can store a preset user list, target users in the preset user list are users with updating layer authority, when the users initiate updating requests, the geographic information editor can execute corresponding updating, when the updating requests initiated by the users which are not in the preset user list are received, the updating requests can be judged to be unsafe updating requests, further alarm information can be generated, related operation and maintenance personnel can be informed to confirm whether safety risks exist, and meanwhile the updating requests are not processed.

After the user number information of the second user is obtained, searching and matching can be performed on the preset user list based on the user number information, when a target user corresponding to the user number information exists in the preset user list, it can be determined that the second user is a target user with authority for modifying the layer file, and the visual interface can be updated based on an updating request of the second user.

Step 205, when determining that the second user is a target user in a preset user list, the geographic information editor adjusts the layer file based on the update request, and sends the adjusted layer file to the portal front-end interface to update the visual interface.

When the second user is determined to be the target user in the preset user list, it is determined that the visual interface needs to be modified, the layer file can be adjusted according to the update request, when the layer file changes, the latest layer file can be sent to the portal front-end interface, and after the portal front-end interface receives the layer file, the portal front-end interface can display the layer file according to the latest layer file.

In the embodiment of the invention, the geographic information platform comprises a geographic information engine, a portal front-end interface and a geographic information editor, wherein the geographic information engine responds to the target operation of a first user, leads in the target geographic information of outdoor equipment from a preset geographic information database, and generates an accessible layer file based on the target geographic information; the portal front-end interface acquires the layer file, and performs visual display on the portal front-end interface based on the layer file; the geographic information editor acquires user number information of a second user when receiving an updating request associated with the outdoor equipment sent by the second user; the geographic information editor judges whether the second user is a target user in a preset user list or not based on the user number information; the geographic information editor is when judging the second user is for predetermineeing the target user in the user list, based on the update request, right layer file adjusts to with the layer file after the adjustment send to the door front end interface to carry out visual interface's update, thereby realized carrying out visual show to outdoor equipment, and when having the user of renewal authority to initiate the update request, update, make the user directly perceived know outdoor equipment's actual conditions, thereby be convenient for manage outdoor equipment, improve fortune dimension service efficiency, and ensure layer file safety.

Referring to fig. 3, a flowchart illustrating steps of another data processing method based on a geographic information platform according to an embodiment of the present invention is shown, where the geographic information platform is used to display outdoor devices in multiple areas, and includes a geographic information engine, a portal front-end interface, and a geographic information editor, and specifically includes the following steps:

step 301, the geographic information engine responds to a target operation of a first user, imports target geographic information of the outdoor equipment from a preset geographic information database, and generates an accessible layer file based on the target geographic information;

step 302, the portal front-end interface acquires the layer file, and performs visual display on the portal front-end interface based on the layer file;

step 303, the geographic information editor transitioning the target item from the first project phase to the second project phase in response to a confirmation completion operation by a third user after completion of the first project phase of the target item;

In the project construction process, after a project phase is completed, a visual interface of the next phase can be constructed, for example, the third user is a related user of the first project phase for managing the target project, after the first project phase is completed, the third user can perform the completion confirmation operation of the completion of the first project phase, and the geographic information editor can respond to the completion confirmation operation to change the target project from the first project phase to the second project phase, so that the visual interface is synchronously updated.

Step 304, when the geographic information editor detects that the target project is changed from the first project stage to the second project stage, generating an update request, and adjusting the layer file based on the update request.

When a project phase changes, the state change of outdoor equipment is usually involved, when a geographic information editor detects that the project phase is switched, an automatic updating visual interface can be triggered, specifically, a corresponding updating request can be generated based on the switching of the project phase, and thus, the layer file is adjusted according to the updating request.

In one example, at different project phases, the outdoor equipment for a project may be managed as follows:

(1) in the initial starting stage of a project, in the planning stage, a planner and a project coordinator can participate in the project to plan and allocate resources required by the project, for example, in the actual network planning, according to the requirements of orders or work orders, outdoor facilities such as a plurality of pipelines and cables may need to be additionally laid. At this time, the planner can draw and input the required information of new equipment, pipelines, optical cables and the like according to the using geographic position by means of the geographic information platform provided by the module, establish a model for the information, set necessary attribute parameters of the information, establish connection relations for the equipment, the pipelines, the cables and the like, set corresponding planning states, and mark reserved state marks on corresponding resources if part of the resources need to be allocated from the existing resources. And when the resource information of all the new facilities is recorded, displaying all the newly-built information on the corresponding geographical map layer in a graphical mode for the expansion of subsequent construction, tracking and other work.

(2) The project enters a construction stage, equipment constructors need to lay or construct resources on site, workers can locally enter a geographic information platform through an external interface, positioning construction is carried out according to the physical geographic information position drawn in the previous stage, completion information can be uploaded to the platform through the platform interface after construction is completed to wait for relevant workers to carry out acceptance work, and once the acceptance work is completed, the system automatically pushes the constructed resource state to the next stage.

(3) After all infrastructure facilities are completed, the project enters an operation stage, and at the moment, service management personnel need to manage and track the existing resources including work, reservation and maintenance. By carrying out big data analysis on the data acquisition of the current platform, the comprehensive demand for predicting the future network resource planning can be provided.

(4) In the resource maintenance stage, monitoring and management personnel can accurately and quickly position the blocked service area and influence by the platform, and automatically send a maintenance tracking work order through an interface with the service monitoring and management module. The accurate geographical position of the equipment needing to be maintained can be quickly positioned by the aid of the platform by equipment maintenance personnel, and after maintenance is completed, the completion data can be uploaded to the platform through the interface.

(5) In the scrapping and processing stages of resources, equipment maintenance personnel can conveniently carry out service interruption and recovery work on the resources by the mode.

(6) Asset management personnel can check, clear, audit, scrap and process the assets at any time point in the full life cycle of the assets through the platform report interface.

In an embodiment of the present invention, step 304 may include:

when the geographic information editor detects that the target project is changed from a first project stage to a second project stage, determining state updating information of target outdoor equipment from one or more pieces of outdoor equipment, and generating an updating request according to the state updating information; wherein the update request includes icon color information of the target outdoor device at the second project stage; determining an icon to be modified corresponding to the target outdoor equipment in the layer file; and adjusting the icon to be modified according to the icon color information.

In an embodiment of the present invention, the state of the outdoor device includes any one of:

In practical application, when switching occurs in a project phase, according to different requirements of different project phases on outdoor equipment, state update information of target outdoor equipment can be determined from one or more pieces of outdoor equipment, and when the outdoor equipment is in different states, the outdoor equipment can be represented by different colors in a layer file, so that an update request can be generated according to the state update information, wherein the update request includes icon color information of the target outdoor equipment in a second project phase, and therefore, an icon to be modified corresponding to the target outdoor equipment can be determined in the layer file, and the icon to be modified is adjusted according to the icon color information.

Step 305, the geographic information editor sends the adjusted layer file to the portal front-end interface to update the visual interface.

When the layer file changes, the geographic information editor can send the latest layer file to the portal front-end interface, and the portal front-end interface can display the latest layer file after receiving the layer file.

In the embodiment of the invention, the geographic information platform comprises a geographic information engine, a portal front-end interface and a geographic information editor, wherein the geographic information engine responds to the target operation of a first user, leads in the target geographic information of outdoor equipment from a preset geographic information database, and generates an accessible layer file based on the target geographic information; the portal front-end interface acquires the layer file, and performs visual display on the portal front-end interface based on the layer file; the geographic information editor transitioning the target item from the first project phase to the second project phase in response to a confirmation completion operation by a third user upon completion of the first project phase of the target item; when the geographic information editor detects that the target project is changed from a first project stage to a second project stage, an updating request is generated, the layer files are adjusted based on the updating request, and the adjusted layer files are sent to the portal front-end interface to update the visual interface, so that visual display of outdoor equipment is achieved, the visual interface is updated along with switching of the project stages in the project construction process, a user can visually know the actual situation of the outdoor equipment, management of the outdoor equipment is facilitated, and operation and maintenance service efficiency is improved.

It should be noted that, for simplicity of description, the method embodiments are described as a series of acts or combination of acts, but those skilled in the art will recognize that the present invention is not limited by the illustrated order of acts, as some steps may occur in other orders or concurrently in accordance with the embodiments of the present invention. Further, those skilled in the art will appreciate that the embodiments described in the specification are presently preferred and that no particular act is required to implement the invention.

Referring to fig. 4, a schematic structural diagram of a data processing method based on a geographic information platform according to an embodiment of the present invention is shown, where the geographic information platform 400 is used to display outdoor devices in multiple areas, and includes a geographic information engine 401, a portal front-end interface 402, and a geographic information editor 403, where:

the geographic information engine 401 is configured to, in response to a target operation of a first user, import target geographic information of the outdoor device from a preset geographic information database, and generate an accessible layer file based on the target geographic information;

the portal front-end interface 402 is configured to obtain the layer file, and perform visual display on the portal front-end interface based on the layer file;

the geographic information editor 403 is configured to, when a target update request associated with the outdoor device is detected, adjust the layer file based on the target update request, and send the adjusted layer file to the portal front-end interface to update the visual interface.

In an embodiment of the present invention, when the geographic information editor 403 is configured to, when detecting an update request associated with the outdoor device, adjust the layer file based on the update request, specifically:

In an embodiment of the present invention, the outdoor device is an outdoor device associated with a target project, and the geographic information editor 403 is configured to, when detecting an update request associated with the outdoor device, adjust the layer file based on the update request, specifically:

In an embodiment of the present invention, when the geographic information editor 404 is configured to generate an update request when it is detected that the target item is changed from the first item stage to the second item stage, and adjust the layer file based on the update request, specifically, when:

updating information according to the state; wherein the update request includes icon color information of the target outdoor device at the second project stage;

and adjusting the icon to be modified according to the icon color information.

An embodiment of the present invention further provides a server, which may include a processor, a memory, and a computer program stored in the memory and capable of running on the processor, and when executed by the processor, the computer program implements the data processing method based on the geographic information platform.

An embodiment of the present invention further provides a computer-readable storage medium, on which a computer program is stored, and when the computer program is executed by a processor, the data processing method based on the geographic information platform is implemented.

For the device embodiment, since it is basically similar to the method embodiment, the description is simple, and for the relevant points, refer to the partial description of the method embodiment.

The embodiments in the present specification are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, apparatus, or computer program product. Accordingly, embodiments of the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, embodiments of the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

Embodiments of the present invention are described with reference to flowchart illustrations and/or block diagrams of methods, terminal devices (systems), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing terminal to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing terminal, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing terminal to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing terminal to cause a series of operational steps to be performed on the computer or other programmable terminal to produce a computer implemented process such that the instructions which execute on the computer or other programmable terminal provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

While preferred embodiments of the present invention have been described, additional variations and modifications of these embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the embodiments of the invention.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or terminal that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or terminal. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or terminal that comprises the element.

The data processing method based on the geographic information platform is described in detail, and the principle and the implementation mode of the invention are explained by applying specific examples, and the description of the embodiments is only used for helping to understand the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims

1. A data processing method based on a geographic information platform is characterized in that the geographic information platform is used for displaying outdoor equipment in a plurality of areas and comprises a geographic information engine, a portal front-end interface and a geographic information editor, and the method comprises the following steps:

2. The method of claim 1, wherein the geographic information editor, upon detecting an update request associated with the outdoor device, adjusts the layer file based on the update request, comprising:

3. The method of claim 1, wherein the outdoor device is an outdoor device associated with a target item, and wherein the geographic information editor, upon detecting an update request associated with the outdoor device, adjusts the layer file based on the update request, comprising:

4. The method of claim 3, wherein the geographic information editor generates an update request when detecting that the target project is changed from a first project phase to a second project phase, and adjusts the layer file based on the update request, comprising:

and adjusting the icon to be modified according to the icon color information.

5. The method of claim 1 or 2 or 3 or 4, wherein the status of the outdoor device comprises any one of:

6. The geographic information platform is used for displaying outdoor equipment in a plurality of areas, and comprises a geographic information engine, a portal front-end interface and a geographic information editor, wherein:

7. The geographic information platform of claim 6, wherein the geographic information editor, when configured to detect an update request associated with the outdoor device, when adjusting the layer file based on the update request, is specifically configured to:

8. The geographic information platform of claim 6, wherein the outdoor device is an outdoor device associated with a target item, and the geographic information editor, when being configured to detect an update request associated with the outdoor device, is configured to, based on the update request, adjust the layer file, and specifically is configured to:

9. The geographic information platform of claim 6, wherein the geographic information editor, when being configured to detect that the target project is transitioned from a first project phase to a second project phase, generates an update request, and adjusts the layer file based on the update request, specifically to:

and adjusting the icon to be modified according to the icon color information.

10. The geographic information platform of claim 6, 7, 8, or 9, wherein the status of the outdoor device comprises any one of: