CN117473592A - Data display method and device based on industrial large model - Google Patents

Abstract

The invention discloses a data display method and device based on an industrial large model, wherein the method comprises the following steps: acquiring display requirement information of a user, wherein the display requirement information comprises: engineering time, engineering position, engineering scene and project content; invoking a preset industrial large model, extracting target engineering data from a preset industrial database according to fields of project contents, and invoking the preset industrial large model to construct an engineering model according to engineering positions and engineering scenes; and after the target engineering data and the engineering model are utilized to manufacture dynamic display animation, converting the engineering time into playing duration, and displaying the display animation according to the playing duration. According to the invention, a preset industrial large model can be called, target engineering data can be respectively extracted according to the display demand information, and an engineering model can be constructed; and making dynamic display animation by utilizing the target engineering data and the engineering model, and dynamically displaying the animation so as to reduce the displayed data quantity, improve the data display efficiency and combine the animation to improve the display effect.

Description

Data display method and device based on industrial large model

Technical Field

The invention relates to the technical field of data display processing, in particular to a data display method and device based on an industrial large model.

Background

Industrial big data refers to various data and the general name of related technologies and applications generated by various links of the whole life cycle of products, such as from customer demands to sales, orders, planning, research and development, design, process, manufacturing, purchasing, supply, inventory, shipping and delivering, after-sales, service, operation and maintenance, scrapping or recycling and remanufacturing, and the like, in the industrial field around a typical intelligent manufacturing mode, and the industrial big data takes the product data as a core, so that the traditional industrial data range is greatly expanded, and meanwhile, the industrial big data related technologies and applications are also included. Industrial big data is a key element for realizing intelligent manufacturing of basic raw materials and improving industrial productivity, competitiveness and innovation.

With the rapid development of the industrial internet, the digital assets such as production data, equipment operation data, mechanism model data, process flow data and the like show a series of level increases. Analysis and visual presentation of industrial data presents a significant challenge. In order to facilitate users to view various industrial data, the data display method commonly used at present is as follows: relevant industrial processing data is extracted from industrial business processes, and then the industrial processing data is visually displayed in the form of texts and charts.

However, the current common methods have the following technical problems: because of the large variety and large capacity of industrial data involved, for example, a piece of capital construction equipment calls the pipeline data from x months to y months. The data displayed only through the text and chart modes is single in format, the displayed data is redundant, the display effect is poor, and the existing display requirements are difficult to meet.

Disclosure of Invention

The invention provides a data display method and device based on an industrial large model, which are used for solving one or more technical problems existing in the technology.

A first aspect of the present invention provides a method for displaying data based on an industrial large model, the method comprising:

acquiring display demand information of a user, wherein the display demand information comprises: engineering time, engineering position, engineering scene and project content;

invoking a preset industrial large model, extracting target engineering data from a preset industrial database according to the field of the project content, and invoking the preset industrial large model to construct an engineering model according to the engineering position and the engineering scene;

and after the target engineering data and the engineering model are used for manufacturing dynamic display animation, converting the engineering time into playing duration, and displaying the display animation according to the playing duration.

In a possible implementation manner of the first aspect, the calling a preset industrial large model to construct an engineering model according to the engineering position and the engineering scene includes:

after a position coordinate point corresponding to the engineering position is obtained, a position area is built by taking the position coordinate point as a center;

searching a corresponding area map in a preset three-dimensional map based on the position area, and calling a preset industrial large model to construct a corresponding scene accessory model based on the engineering scene;

and adding the scene accessory model to the area map to obtain an engineering model.

In a possible implementation manner of the first aspect, the calling the preset industrial big model to extract the target engineering data from the preset industrial database according to the field of the project content includes:

splitting the item content into a plurality of fields to be identified according to a preset header field;

and identifying the field semantic corresponding to each field to be identified, calling a preset industrial large model, and searching corresponding data in a preset industrial database according to each field semantic to obtain target engineering data.

In a possible implementation manner of the first aspect, the generating a dynamic display animation by using the target engineering data and the engineering model includes:

acquiring the numerical value of each day of the target engineering data in the engineering time to obtain numerical value information;

adding numerical information corresponding to each target engineering data into a model of the engineering model according to the engineering time;

and dynamically adjusting the display color of the model in the engineering model according to the change of the numerical information to form a display animation.

In a possible implementation manner of the first aspect, the generating a dynamic display animation by using the target engineering data and the engineering model includes:

after the target engineering data are added to a model of the engineering model to obtain a display portrait, viewpoint information of a user is obtained, wherein the viewpoint information comprises a viewpoint starting point and a viewpoint end point;

connecting the viewpoint starting point and the viewpoint ending point to obtain a viewpoint connecting line, and then obtaining models of the viewpoint connecting line on two sides of the display portrait to obtain viewpoint models;

sequentially magnifying the viewpoint models in the engineering model to form a display animation.

In a possible implementation manner of the first aspect, the generating a dynamic display animation by using the target engineering data and the engineering model includes:

adding the target engineering data to a model of the engineering model to obtain a display portrait, and acquiring running dynamic data of equipment from the project content;

and controlling the model motion of the engineering model according to the running dynamic data to form a display animation.

In a possible implementation manner of the first aspect, after the step of displaying the display animation according to the playing duration, the method further includes:

and calling a preset industrial large model, and extracting predicted data from a preset industrial database according to the engineering time so as to be checked by a user.

A second aspect of the present invention provides an industrial large model-based data presentation apparatus, the apparatus comprising:

the acquisition module is used for acquiring display requirement information of a user, and the display requirement information comprises: engineering time, engineering position, engineering scene and project content;

the calling model module is used for calling a preset industrial large model to extract target engineering data from a preset industrial database according to the field of the project content, and calling the preset industrial large model to construct an engineering model according to the engineering position and the engineering scene;

and the data display module is used for converting the engineering time into the playing time length after the target engineering data and the engineering model are utilized to manufacture dynamic display animation, and displaying the display animation according to the playing time length.

In a possible implementation manner of the second aspect, the calling a preset industrial large model to construct an engineering model according to the engineering position and the engineering scene includes:

after a position coordinate point corresponding to the engineering position is obtained, a position area is built by taking the position coordinate point as a center;

searching a corresponding area map in a preset three-dimensional map based on the position area, and calling a preset industrial large model to construct a corresponding scene accessory model based on the engineering scene;

and adding the scene accessory model to the area map to obtain an engineering model.

In a possible implementation manner of the second aspect, the calling the preset industrial large model to extract the target engineering data from the preset industrial database according to the field of the project content includes:

splitting the item content into a plurality of fields to be identified according to a preset header field;

and identifying the field semantic corresponding to each field to be identified, calling a preset industrial large model, and searching corresponding data in a preset industrial database according to each field semantic to obtain target engineering data.

In a possible implementation manner of the second aspect, the generating a dynamic exhibition animation using the target engineering data and the engineering model includes:

acquiring the numerical value of each day of the target engineering data in the engineering time to obtain numerical value information;

adding numerical information corresponding to each target engineering data into a model of the engineering model according to the engineering time;

and dynamically adjusting the display color of the model in the engineering model according to the change of the numerical information to form a display animation.

In a possible implementation manner of the second aspect, the generating a dynamic exhibition animation using the target engineering data and the engineering model includes:

after the target engineering data are added to a model of the engineering model to obtain a display portrait, viewpoint information of a user is obtained, wherein the viewpoint information comprises a viewpoint starting point and a viewpoint end point;

connecting the viewpoint starting point and the viewpoint ending point to obtain a viewpoint connecting line, and then obtaining models of the viewpoint connecting line on two sides of the display portrait to obtain viewpoint models;

sequentially magnifying the viewpoint models in the engineering model to form a display animation.

In a possible implementation manner of the second aspect, the generating a dynamic exhibition animation using the target engineering data and the engineering model includes:

adding the target engineering data to a model of the engineering model to obtain a display portrait, and acquiring running dynamic data of equipment from the project content;

and controlling the model motion of the engineering model according to the running dynamic data to form a display animation.

In a possible implementation manner of the second aspect, the apparatus further includes:

and the prediction extraction module is used for calling a preset industrial large model to extract prediction data from a preset industrial database according to the engineering time so as to be checked by a user.

Compared with the prior art, the data display method and device based on the industrial large model provided by the invention have the beneficial effects that: the invention can acquire the display demand information of the user; invoking a preset industrial large model to respectively extract target engineering data according to the display demand information and constructing an engineering model; the target engineering data and the engineering model are utilized to manufacture dynamic display animation and dynamically display, so that on one hand, the data quantity of display can be reduced, the efficiency of data display is improved, and on the other hand, the display effect can be improved by combining the animation so as to meet the existing display requirement.

Drawings

FIG. 1 is a flow chart of a data display method based on an industrial large model according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a data display device based on an industrial large model according to an embodiment of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In order to solve the above problems, a data display method based on an industrial large model according to the present embodiment will be described and illustrated in detail by the following specific examples.

Referring to fig. 1, a flow chart of a data display method based on an industrial large model according to an embodiment of the invention is shown.

In one embodiment, the method is applicable to a management system of an engineering enterprise, which can communicate with a database of the enterprise and can be communicatively connected with intelligent terminals of managers of the enterprise or the engineering for receiving requests of different functions of the managers and input engineering-related data.

Wherein, as an example, the data presentation method based on the industrial large model can comprise the following steps:

s11, acquiring display requirement information of a user, wherein the display requirement information comprises: engineering time, engineering location, engineering scenario, and project content.

In one implementation, the management system may communicate with the intelligent terminals of different administrators, through which the administrators or users may enter their presentation requirement information. The presentation requirement information is a requirement related to data that the user wants to present. Including the relevant project progress of the data to be presented, the processing time of the project, the location of the project, etc.

In an alternative embodiment, the display requirement information includes: engineering time, engineering location, engineering scenario, and project content.

The project time is the processing time of the project to be displayed by the user, and comprises the time from the start of the project to the current submission of the display demand information, and can also be any time interval in the project.

The project location is the location coordinate of the project to be displayed by the user, for example, a building construction project on xx street, and the location coordinate is xx; for another example, an overpass is constructed from xx to xa, and the location coordinates are those of xx to xa.

The engineering scene refers to an environmental scene around the engineering, and also can be an internal progress scene of a land where the engineering is located, for example, a building construction project at xx street, and the engineering scene of the engineering can be a commercial building or greening surrounding the building. For another example, an overpass is constructed from xx road to xa road, and the engineering scene of the engineering may be bridge pier in construction or finished bridge.

The project content is various data of the engineering project, including equipment used, sources of materials, amounts of materials, heights of constructed bridges or buildings, widths of steel used, depths of piling and the like.

S12, calling a preset industrial large model, extracting target engineering data from a preset industrial database according to the field of the project content, and calling the preset industrial large model to construct an engineering model according to the engineering position and the engineering scene.

Because the project and the variety related to one project are various, and the related data are also various, if all the data are displayed, the time is long, and the displayed data are very redundant.

In order to find corresponding data according to the needs of the user, in an embodiment, a preset industrial large model may be called to extract target engineering data from a preset industrial database according to relevant fields of project contents.

In one embodiment, the predetermined industrial large model is a process model of industrial data. The preset industrial database may be a database of the engineering enterprise that stores data related to various projects of the enterprise. The target engineering data may be data to be presented by the user.

In an embodiment, after extracting the corresponding target engineering data, in order to construct a three-dimensional model to be displayed according to the requirement of a user, a preset industrial large model may be called to construct a three-dimensional engineering model according to the engineering position and the engineering scene.

Because the engineering position comprises the geographic position coordinates of the engineering, the engineering scene comprises the relevant scene of the engineering, the image of the engineering can be obtained according to the geographic position coordinates of the engineering, modeling is carried out by utilizing the image to form a model prototype, meanwhile, the model of the peripheral scene can be constructed according to the relevant scene of the engineering, and the three-dimensional engineering model can be obtained by combining the model of the prototype and the model of the scene.

Since the project content contains a plurality of project category data, in order to accurately extract the target engineering data to be displayed, in an alternative embodiment, the step of calling a preset industrial large model to extract the target engineering data from a preset industrial database according to the field of the project content may include the following substeps:

s121, splitting the item content into a plurality of fields to be identified according to a preset header field.

S122, identifying the field semantic corresponding to each field to be identified, and calling a preset industrial large model to search corresponding data according to each field semantic in a preset industrial database to obtain target engineering data.

In one embodiment, the intelligent terminal may pre-construct a data input list in order to clearly list item data or various categories of data contained in the item. When the user needs to present the data, the data to be presented can be input into the list.

Wherein the data entry list is made up of a plurality of columns by which the data entry list can be divided into a plurality of spaces into which data can be entered, each space having a corresponding header field, e.g., x11xx.

To distinguish each space, each bin has a corresponding number, e.g., 0100, 0200, or a001, a002, etc. The data input list can receive data items or contents to be acquired, which are input by a user, the plurality of data of the list can be split through a preset header field, and each data to be displayed in the list can be distinguished through a corresponding number.

For example, the header field corresponding to the data input list is x11xx, the data input list is composed of a plurality of rows and a plurality of columns, and a plurality of spaces can be obtained, and correspondingly, the numbers of each space are respectively: 0100. 0101, 0102 … 0211.

The user can input the item content to be displayed into the data input list, and the management system can split a plurality of data of the item content one by one into a plurality of fields to be identified according to the header fields when reading the data.

Then, as each field to be identified has a corresponding number, the semantic meaning of each field to be identified can be identified one by one according to the sequence of the numbers, and the field semantic meaning corresponding to each field to be identified is obtained. The field semantic may be a pier in the project, project start time, equipment name of the project, engineering personnel list or number, equipment number, and the like.

After the field semantics are obtained, a preset industrial large model can be called to search corresponding data according to each field meaning in a preset industrial database, and target engineering data to be displayed are obtained.

For example, the recognized field meaning is a device name, and the data corresponding to the device can be searched in an industrial database according to the device name to obtain the target engineering data. For another example, the identified field meaning is the a pier in the project, and the data such as the height, width, thickness, depth and the like corresponding to the a pier in the project can be searched in the industrial database according to the a pier in the project, so as to obtain the target project data.

In an alternative embodiment, in order to fit an actual application scenario, a three-dimensional model corresponding to the project is constructed for a user to view. Wherein, as an example, the calling the preset industrial large model to construct an engineering model according to the engineering position and the engineering scene may include the following substeps:

s123, after the position coordinate points corresponding to the engineering positions are obtained, a position area is built by taking the position coordinate points as the centers.

S124, searching a corresponding area map in a preset three-dimensional map based on the position area, and calling a preset industrial large model based on the engineering scene to construct a corresponding scene accessory model.

And S125, adding the scene accessory model to the area map to obtain an engineering model.

In one implementation, a location coordinate point corresponding to an engineering location may be obtained, specifically, a street or road location corresponding to the engineering location may be determined, and then, according to its location, a location coordinate corresponding to the location may be found in a map application of a third party, for example, a map application of x-de or x-degree may find the corresponding location coordinate point.

Then, a location area may be constructed with the location coordinate point as a center and a preset interval as a radius. For example, the preset spacing may be 100 meters, 500 meters, etc.

Then, the corresponding region map can be searched in a preset three-dimensional map based on the region corresponding to the position region. The preset three-dimensional map may be a three-dimensional map of a map application of a third party.

In the application program of the third party, a layer of the three-dimensional map exists, and the image of the corresponding area can be intercepted in the three-dimensional map according to the position area, so that the area map is obtained. The area map may also be a three-dimensional area map, and the area map includes a map model associated with the area.

Because the layer of the application program of the third party generally utilizes a model constructed by data acquired half year ago or one year ago, the intercepted regional map corresponds to the model and has deviation with reality, in order to reduce the deviation, a preset industrial large model can be called based on engineering scenes to construct a corresponding scene accessory model.

Specifically, the preset industrial large model can be connected with a BIM model database of the enterprise, and a BIM model constructed by an enterprise technician exists. And a corresponding scene accessory model can be constructed or searched according to the engineering scene call preset industrial large model. Such as a model of surrounding balustrades, a model of flowers, grass and trees, a model of equipment, etc.

And adding the scene accessory model into a model corresponding to the regional map, and combining the two models to obtain the engineering model.

Optionally, if the user only wants to display the two-dimensional map and the scene accessory model, in the previous step, the corresponding two-dimensional area map may be searched in the two-dimensional map image of the third party based on the location area, and then the scene accessory model is set in the area map to form a map with the bottom and the obtained engineering model of various models above the map.

S13, after the target engineering data and the engineering model are used for manufacturing dynamic display animation, converting the engineering time into playing duration, and displaying the display animation according to the playing duration.

After the engineering model required for the presentation is built, the target engineering data may be added to the engineering model, for example, at the side of the model or in a layer of the model. And performing visual rendering on the model added with the data, and adding a dynamic display effect, so as to form a display animation capable of being dynamically displayed.

Finally, the engineering time can be converted into the playing time length according to the preset conversion proportion, then the display animation is displayed according to the playing time length, and the display animation display data with the added effect can meet the display requirement of a user, and meanwhile, the display effect can be improved.

For example, the engineering time is 1 month 1 day to 1 month 30 days, for a total of 30 days. The conversion ratio may be 1 day to 1 second, which is converted to 30 seconds, resulting in a play duration of 30 seconds. For another example, the engineering time is 1 month 1 day to 1 month 30 days, the total of 30 days, the conversion ratio can be 1 day to 2 seconds, and the conversion is converted into 60 seconds, so as to obtain the playing time length of 60 seconds. The specific conversion ratio can be adjusted according to actual needs.

In one embodiment, the user needs to view both the change in data and the change in the overall process within the project, e.g., the project is to build a pedestrian overpass, the change in the overall process is from no overpass to forming a framing structure or complete, in which process the bridge pier height of the overpass changes from 0 to xx meters and the width changes from 0 to xx meters. In order to display both data and process variations, wherein, by way of example, the engineering model and the target engineering data are used to create a dynamic presentation animation, the method may comprise the following sub-steps:

s21, acquiring the numerical value of each day of the target engineering data in the engineering time to obtain numerical value information.

S22, adding the numerical value information corresponding to each target engineering data into the model of the engineering model according to the engineering time.

S23, dynamically adjusting the display color of the model in the engineering model according to the change of the numerical information to form a display animation.

In a specific operation, the change of the data can be acquired first, and specifically, the change of each data or numerical value can be aimed at in the engineering time to be checked by the user. The numerical value of each day can be obtained from the target engineering data according to the engineering time to obtain numerical value information.

For example, the engineering time is from 3 months 1 day to 3 months 15 days, and specific numerical values of the target engineering data can be obtained every day within 15 days to obtain numerical value information.

Numerical information of 3 months 1 day to 3 months 15 days can then be added to the model of the engineering model according to engineering time.

The specific adding mode may be to add the numerical information of the target engineering data to the corresponding model.

For example, the obtained numerical information is a numerical value of the height of the bridge pier within 3 months 1 day to 3 months 15 days, and these 15 numerical values may be added to the bridge pier model or may be added to the side of the bridge pier model. The addition may be in time sequence with the height values of 3 months and 1 day being placed lowest, the second being the height value of 3 months and 2 days, and so on, until the last being the height value of 3 months and 15 days.

And then calculating the change of the numerical value according to the numerical value information, and finally dynamically adjusting the display color of the model in the engineering model according to the change of the numerical value information, thereby forming the display animation.

For example, the number of the target engineering data is 6, the heights of the 6 piers are respectively corresponding, after a specific numerical value is added into the model of the 6 piers, the average value of the heights of each pier can be calculated according to the numerical value information of each pier, and then the color of the model can be adjusted according to the size of the average value. For example, the higher the average value, the more vivid the color, the lower the average value, and the more sinking the color; alternatively, the higher the average value, the higher the brightness of the color, whereas the lower the average value, the lower the brightness of the color. The specific changing mode can be adjusted according to actual needs.

According to the invention, the color of the model display can be adjusted according to different values by hooking the values and the display color, so that a user can visually check the values, check the change of the model according to the values, and adjust the color of the model according to the values, thereby improving the display effect.

In one embodiment, due to the large number of engineering models involved, the user needs to view them from different directions, e.g., the engineering is a commercial building, and the user needs to view the layout of the building. For the convenience of user's viewing, wherein, by way of example, the dynamic presentation animation is produced by using the target engineering data and the engineering model, the method may comprise the following substeps:

s31, adding the target engineering data to a model of the engineering model to obtain a display portrait, and then obtaining viewpoint information of a user, wherein the viewpoint information comprises a viewpoint starting point and a viewpoint end point.

S32, connecting the viewpoint starting point and the viewpoint ending point to obtain a viewpoint connecting line, and then obtaining models of the viewpoint connecting line on two sides of the display portrait to obtain viewpoint models.

S33, sequentially amplifying the viewpoint models in the engineering model to form a display animation.

In this operation, the user mainly wants to check the layout of the whole engineering construction to determine whether the construction object deviates from the actual design object, for example, the engineering is a commercial building, the two ends of the building are provided with elevators, and the two sides of the south and north are respectively provided with 10 shops with the same area size.

In order to facilitate users to check shops on both sides of the south and the north or check elevators on both ends of the things. The target engineering data may be added to a model of the engineering model to obtain a presentation, and then viewpoint information of the user may be obtained, where the viewpoint information may include a viewpoint start point and a viewpoint end point.

For example, target engineering data such as the area of a building, the area of a shop, or the number of stages of an elevator can be added to the sides of a building model, a shop model, and an elevator model of an engineering model, respectively, so that a user can view the model and view the numerical value.

Next, the user's view point, which is the starting point and ending point of the view model, may be obtained. For ease of viewing by the user, the height of the viewpoint is half the height of the model. For example, the user views a building model of first floor (F1 floor) which is 5 meters in height, then the viewpoint is 2.5 meters in height.

The viewpoint starting point of view is the east of the building and the viewpoint ending point is the west of the building. After two points are connected into a viewpoint connecting line, a model of which the viewpoint connecting line is arranged on two sides of the display portrait can be obtained. Referring to the above example, after connecting the two points, the two sides of the connection line are the north and south sides of the building, and the corresponding models are 10 shop models with the same area size, and the viewpoint model is used as the viewpoint model.

Then, the viewpoint model can be enlarged according to the direction of the connecting line, so that a user can intuitively check the models of ten commodities on both the north and the south.

Similarly, if the view point starting point is the south of the building, the view point end point is the north of the building, and the models on two sides after connection are two elevator models, the two elevator models can be amplified in sequence for users to view.

By acquiring the viewpoints and sequentially amplifying the models around the viewpoint connecting line, a user can more intuitively check the model to be checked without checking redundant data, so that on one hand, the checking effect can be improved, on the other hand, the checking time can be reduced, and the user can conveniently display the model.

In one embodiment, the monitoring state or the running state of the equipment in the project to be checked by the user is used for facilitating the check by the user, wherein the method for making dynamic display animation by using the target project data and the project model can comprise the following substeps:

s41, adding the target engineering data to a model of the engineering model to obtain a display portrait, and acquiring running dynamic data of equipment from the project content.

S42, controlling the model motion of the engineering model according to the operation dynamic data to form a display animation.

Specifically, the target engineering data may be added to the model of the engineering model to obtain the presentation, and the addition may be performed in the manner described in the above embodiment.

For example, the user needs to display data of each crane, and cement truck in the project, and target project data of the crane, and cement truck may be added to models of the crane, and cement truck to obtain a display image.

Next, operational dynamic data of the apparatus, such as operational data of the crane swinging from left to right, operational data of the cement truck entering from the doorway, etc., may be obtained from the project content.

Specifically, the model of the engineering model can be controlled to perform corresponding motions according to the operation data, for example, the model of the crane is controlled to swing from left to right, and the model of the cement truck is controlled to move from a doorway.

The model and the construction site of the construction site can be in one-to-one correspondence through corresponding movement by combining the data, so that a user can observe the construction condition of the construction site in real time through the checking module, and online checking supervision is realized.

After the user views the data, the user may need to view additional data, so as to facilitate the user to view different data later, where the method may further include, as an example:

s14, calling a preset industrial large model, and extracting prediction data from a preset industrial database according to the engineering time so as to be checked by a user.

Specifically, the data except the target engineering data can be randomly extracted from an industrial database preset by a preset industrial large model according to engineering time, and then the data is used as prediction data and is sent to an intelligent terminal of a user for the user to check to see whether the user needs to display the prediction data.

In this embodiment, the embodiment of the invention provides a data display method based on an industrial large model, which has the following beneficial effects: the invention can acquire the display demand information of the user; invoking a preset industrial large model to respectively extract target engineering data according to the display demand information and constructing an engineering model; the target engineering data and the engineering model are utilized to manufacture dynamic display animation and dynamically display, so that on one hand, the data quantity of display can be reduced, the efficiency of data display is improved, and on the other hand, the display effect can be improved by combining the animation so as to meet the existing display requirement.

The embodiment of the invention also provides a data display device based on the industrial large model, and referring to fig. 2, a schematic structural diagram of the data display device based on the industrial large model is shown.

Wherein, as an example, the industrial big model-based data presentation device may include:

an obtaining module 201, configured to obtain display requirement information of a user, where the display requirement information includes: engineering time, engineering position, engineering scene and project content;

a calling model module 202, configured to call a preset industrial large model to extract target engineering data from a preset industrial database according to a field of the project content, and call the preset industrial large model to construct an engineering model according to the engineering position and the engineering scene;

and the data display module 203 is configured to convert the engineering time into a playing duration after the target engineering data and the engineering model are used to make a dynamic display animation, and display the display animation according to the playing duration.

Optionally, the calling the preset industrial large model to construct an engineering model according to the engineering position and the engineering scene includes:

after a position coordinate point corresponding to the engineering position is obtained, a position area is built by taking the position coordinate point as a center;

searching a corresponding area map in a preset three-dimensional map based on the position area, and calling a preset industrial large model to construct a corresponding scene accessory model based on the engineering scene;

and adding the scene accessory model to the area map to obtain an engineering model.

Optionally, the calling the preset industrial big model to extract the target engineering data from the preset industrial database according to the field of the project content includes:

splitting the item content into a plurality of fields to be identified according to a preset header field;

and identifying the field semantic corresponding to each field to be identified, calling a preset industrial large model, and searching corresponding data in a preset industrial database according to each field semantic to obtain target engineering data.

Optionally, the generating dynamic display animation by using the target engineering data and the engineering model includes:

acquiring the numerical value of each day of the target engineering data in the engineering time to obtain numerical value information;

adding numerical information corresponding to each target engineering data into a model of the engineering model according to the engineering time;

and dynamically adjusting the display color of the model in the engineering model according to the change of the numerical information to form a display animation.

Optionally, the generating dynamic display animation by using the target engineering data and the engineering model includes:

after the target engineering data are added to a model of the engineering model to obtain a display portrait, viewpoint information of a user is obtained, wherein the viewpoint information comprises a viewpoint starting point and a viewpoint end point;

connecting the viewpoint starting point and the viewpoint ending point to obtain a viewpoint connecting line, and then obtaining models of the viewpoint connecting line on two sides of the display portrait to obtain viewpoint models;

sequentially magnifying the viewpoint models in the engineering model to form a display animation.

Optionally, the generating dynamic display animation by using the target engineering data and the engineering model includes:

adding the target engineering data to a model of the engineering model to obtain a display portrait, and acquiring running dynamic data of equipment from the project content;

and controlling the model motion of the engineering model according to the running dynamic data to form a display animation.

Optionally, the apparatus further comprises:

and the prediction extraction module is used for calling a preset industrial large model to extract prediction data from a preset industrial database according to the engineering time so as to be checked by a user.

It will be clearly understood by those skilled in the art that, for convenience and brevity, the specific working process of the apparatus described above may refer to the corresponding process in the foregoing method embodiment, which is not described herein again.

Further, an embodiment of the present application further provides an electronic device, including: memory, a processor and a computer program stored on the memory and executable on the processor, which when executed implements the industrial large model-based data presentation method as described in the above embodiments.

Further, the embodiment of the application also provides a computer readable storage medium, which stores a computer executable program for causing a computer to execute the data presentation method based on the industrial large model according to the embodiment.

It will be appreciated by those skilled in the art that embodiments of the present application may also provide a computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment, or an embodiment combining software and hardware aspects. Furthermore, the present application 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.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), devices and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations 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 apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, 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 apparatus 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 apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The foregoing is merely a preferred embodiment of the present invention, and it should be noted that modifications and variations could be made by those skilled in the art without departing from the technical principles of the present invention, and such modifications and variations should also be regarded as being within the scope of the invention.

Claims (10)

1. A method for displaying data based on an industrial large model, the method comprising:

acquiring display demand information of a user, wherein the display demand information comprises: engineering time, engineering position, engineering scene and project content;

invoking a preset industrial large model, extracting target engineering data from a preset industrial database according to the field of the project content, and invoking the preset industrial large model to construct an engineering model according to the engineering position and the engineering scene;

and after the target engineering data and the engineering model are used for manufacturing dynamic display animation, converting the engineering time into playing duration, and displaying the display animation according to the playing duration.

2. The method for displaying data based on an industrial large model according to claim 1, wherein the calling a preset industrial large model to construct an engineering model according to the engineering position and the engineering scene comprises:

after a position coordinate point corresponding to the engineering position is obtained, a position area is built by taking the position coordinate point as a center;

searching a corresponding area map in a preset three-dimensional map based on the position area, and calling a preset industrial large model to construct a corresponding scene accessory model based on the engineering scene;

and adding the scene accessory model to the area map to obtain an engineering model.

3. The method for displaying industrial large model-based data according to claim 1, wherein the calling a preset industrial large model to extract target engineering data from a preset industrial database according to the field of the item content comprises:

splitting the item content into a plurality of fields to be identified according to a preset header field;

and identifying the field semantic corresponding to each field to be identified, calling a preset industrial large model, and searching corresponding data in a preset industrial database according to each field semantic to obtain target engineering data.

4. The method for displaying data based on industrial large model according to claim 1, wherein said generating dynamic display animation using said target engineering data and said engineering model comprises:

acquiring the numerical value of each day of the target engineering data in the engineering time to obtain numerical value information;

adding numerical information corresponding to each target engineering data into a model of the engineering model according to the engineering time;

and dynamically adjusting the display color of the model in the engineering model according to the change of the numerical information to form a display animation.

5. The method for displaying data based on industrial large model according to claim 1, wherein said generating dynamic display animation using said target engineering data and said engineering model comprises:

after the target engineering data are added to a model of the engineering model to obtain a display portrait, viewpoint information of a user is obtained, wherein the viewpoint information comprises a viewpoint starting point and a viewpoint end point;

connecting the viewpoint starting point and the viewpoint ending point to obtain a viewpoint connecting line, and then obtaining models of the viewpoint connecting line on two sides of the display portrait to obtain viewpoint models;

sequentially magnifying the viewpoint models in the engineering model to form a display animation.

6. The method for displaying data based on industrial large model according to claim 1, wherein said generating dynamic display animation using said target engineering data and said engineering model comprises:

adding the target engineering data to a model of the engineering model to obtain a display portrait, and acquiring running dynamic data of equipment from the project content;

and controlling the model motion of the engineering model according to the running dynamic data to form a display animation.

7. The industrial large model-based data presentation method as claimed in any one of claims 1 to 6, wherein after the step of presenting the presentation animation according to the play time period, the method further comprises:

and calling a preset industrial large model, and extracting predicted data from a preset industrial database according to the engineering time so as to be checked by a user.

8. An industrial large model-based data presentation device, the device comprising:

the acquisition module is used for acquiring display requirement information of a user, and the display requirement information comprises: engineering time, engineering position, engineering scene and project content;

the calling model module is used for calling a preset industrial large model to extract target engineering data from a preset industrial database according to the field of the project content, and calling the preset industrial large model to construct an engineering model according to the engineering position and the engineering scene;

and the data display module is used for converting the engineering time into the playing time length after the target engineering data and the engineering model are utilized to manufacture dynamic display animation, and displaying the display animation according to the playing time length.

9. An electronic device, comprising: memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the processor implements the industrial large model based data presentation method according to any of the claims 1-7 when executing the computer program.

10. A computer-readable storage medium, wherein the computer-readable storage medium stores a computer-executable program for causing a computer to execute the industrial large model-based data presentation method according to any one of claims 1 to 7.