CN114741582A

CN114741582A - Product specification acquisition method based on identification analysis and computer storage medium

Info

Publication number: CN114741582A
Application number: CN202210658757.4A
Authority: CN
Inventors: 陈文曲; 刘阳; 池程; 韩天宇; 朱斯语
Original assignee: China Academy of Information and Communications Technology CAICT
Current assignee: China Academy of Information and Communications Technology CAICT
Priority date: 2022-06-13
Filing date: 2022-06-13
Publication date: 2022-07-12

Abstract

A product specification acquisition method based on identification analysis and a computer storage medium relate to the technical field of industrial Internet, and the method comprises the following steps: splitting a product design drawing of a target product into a plurality of design subgraphs, wherein the target product has an industrial internet identifier; obtaining description information corresponding to the multiple design subgraphs to obtain multiple description information; generating an electronic specification of the target product based on the plurality of design subgraphs and the plurality of description information; binding the electronic specification with an industrial internet identifier; receiving an identifier analysis request sent by a first terminal device, wherein the identifier analysis request carries an industrial internet identifier; and responding to the identification resolving request, and returning the electronic specification bound with the industrial Internet identification to the first terminal equipment. In the scheme that this application provided, even if do not have paper version description, the user also can know fast and understand the product to avoid the waste of paper resource, and guarantee the normal use of user to the product.

Description

Product specification acquisition method based on identification analysis and computer storage medium

Technical Field

The present application relates to industrial internet technologies, and in particular, to a method for obtaining a product specification based on identification resolution and a computer storage medium.

Background

The product specification can also be called a commodity specification, and the product specification usually adopts special texts to describe the product in detail so as to clearly and intuitively present information such as the structure, the performance and the like of the product to a user, thereby helping the user to know and understand the product.

Generally, the product specification is in a paper edition and delivered to the user together with the product, and the product specification in the paper edition is easily lost or damaged, so that once the product specification is lost or damaged, the user can not easily know and understand the product by means of the product specification in the paper edition, thereby possibly influencing the normal use of the product by the user, and the product specification in the paper edition also causes waste of paper resources.

Disclosure of Invention

The embodiment of the application provides a product specification acquisition method based on identification analysis and a computer storage medium, so as to solve the technical problems.

According to a first aspect of the embodiments of the present application, there is provided a method for obtaining a product specification based on identity resolution, including:

splitting a product design drawing of a target product into a plurality of design subgraphs, wherein the target product has an industrial internet identifier;

obtaining description information corresponding to the plurality of design subgraphs to obtain a plurality of description information;

generating an electronic specification of the target product based on the plurality of design subgraphs and the plurality of description information;

binding the electronic specification with the industrial internet identification;

receiving an identifier analysis request sent by a first terminal device, wherein the identifier analysis request carries the industrial internet identifier;

and responding to the identification analysis request, and returning the electronic specification bound with the industrial Internet identification to the first terminal equipment.

In an optional example, each design sub-graph of the plurality of design sub-graphs corresponds to a product module of the target product;

the obtaining of the description information corresponding to each of the plurality of design subgraphs includes:

obtaining a plurality of module information of a product module corresponding to the first design subgraph in a plurality of preset information dimensions; wherein the plurality of preset information dimensions comprise at least one of an element dimension, an installation dimension, a use dimension, and a notice dimension, and the first design subgraph is any one of the plurality of design subgraphs;

integrating a plurality of module information of the product module corresponding to the first design subgraph in the plurality of preset information dimensions to obtain description information corresponding to the first design subgraph.

In an optional example, the obtaining of the plurality of module information of the product module corresponding to the first design sub-graph in the plurality of preset information dimensions includes:

determining a first database corresponding to a first preset information dimension; the first preset information dimension is any one of the plurality of preset information dimensions;

judging whether module information of a product module corresponding to the first design subgraph in the first preset information dimension exists in the first database;

if so, acquiring module information of the product module corresponding to the first design subgraph in the first preset information dimension from the first database;

if the data do not exist, sending a data supplement request to the second terminal equipment; the second terminal device is a terminal device associated with a first object, the first object is an object associated with the preset information dimension, and the data supplement request carries identification information of a product module corresponding to the first design subgraph and identification information of the first preset information dimension; and if receiving supplementary data returned by the second terminal equipment in response to the data supplementary request, determining module information of the product module corresponding to the first design subgraph in the first preset information dimension based on the supplementary data.

In an optional example, the data supplement request carries a data supplement deadline;

if receiving supplementary data returned by the second terminal device in response to the data supplementary request, determining module information of the product module corresponding to the first design subgraph in the first preset information dimension based on the supplementary data, including:

if supplementary data returned by the second terminal device in response to the data supplement request are received within the data supplement period, determining module information of a product module corresponding to the first design subgraph in the first preset information dimension based on the supplementary data;

the method further comprises the following steps:

if the supplementary data is not received within the data supplement time limit, sending a data overdue non-supplement prompt aiming at the first object to a third terminal device; the third terminal device is a terminal device associated with a second object, and the second object is an object having a second preset relationship with the first object.

In an optional example, before the integrating the product module corresponding to the first design sub-graph into the module information of the preset information dimensions to obtain the description information corresponding to the first design sub-graph, the method further includes:

identifying error information of a product module corresponding to the first design subgraph in module information of a second preset information dimension by using an artificial intelligence algorithm; the second preset information dimension is any preset information dimension in the plurality of preset information dimensions;

sending an information updating request to a second terminal device, wherein the information updating request carries identification information of a product module corresponding to the first design subgraph, identification information of a second preset information dimension and identification information of an information item to which the error information belongs;

and if receiving update information returned by the second terminal equipment in response to the information update request, updating the error information by using the update information.

In one optional example, the module information of the element dimension includes at least one of: component number information, component structure information, component size information, component material information, component performance information, and component assembly information.

In an optional example, the generating an electronic specification of the target product based on the plurality of design subgraphs and the plurality of description information comprises:

acquiring historical reading condition data of a third object from a second database, wherein the third object is an object associated with the first terminal equipment;

determining a typesetting mode and a page setting mode which are matched with the third object based on the historical reading condition data;

generating pages according to the typesetting mode and the page setting mode based on the plurality of design subgraphs and the plurality of explanatory information so as to obtain a plurality of pages which are sequentially arranged;

generating an electronic specification comprising the plurality of pages.

In an optional example, the splitting the product design drawing into a plurality of design subgraphs comprises:

obtaining a design drawing splitting model obtained by pre-training;

and splitting the product design drawing into a plurality of design subgraphs through the design drawing splitting model.

According to a second aspect of embodiments of the present application, there is provided a computer storage medium having stored thereon a computer program which, when executed by a processor, performs the steps of the method according to the first aspect as described above.

According to a third aspect of embodiments herein, there is provided an electronic device comprising memory for storing one or more programs, and one or more processors; the one or more programs, when executed by the one or more processors, implement the method of the first aspect as described above.

In the scheme provided by the embodiment of the application, the product design drawing of the target product can be split into a plurality of design subgraphs, and a plurality of description information corresponding to the plurality of design subgraphs is obtained, so that the plurality of design subgraphs and the plurality of description information are used for generating the electronic specification of the target product, and the generated electronic specification can be bound with the industrial internet identifier of the target product. Like this, when the user initiated the mark analytic request of the industry internet sign that carries the target product through first terminal equipment, can return the electronic specification of binding with the industry internet sign of target product for first terminal equipment automatically, the user can know and know the target product through looking up the electronic specification, like this, even if do not have paper version description, the user also can know fast and know the product, consequently, the waste of paper resource not only can be avoided to this application embodiment, can also guarantee the normal use of user to the product.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

fig. 1 illustrates a flowchart of a method for obtaining a product specification based on identification resolution provided in an embodiment of the present application;

fig. 2 is another schematic flow chart of a product specification obtaining method based on identity resolution provided in an embodiment of the present application;

fig. 3 shows a further flowchart of a product specification obtaining method based on identification resolution provided in this embodiment of the present application;

fig. 4 is a schematic flowchart illustrating a product specification obtaining method based on identity resolution provided in an embodiment of the present application;

FIG. 5 is a schematic diagram showing the generation of an electronic specification in an embodiment of the application;

fig. 6 shows a schematic structural diagram of an electronic device provided in an embodiment of the present application.

Detailed Description

In order to enable a user to quickly know a product without a paper version specification of the product, the embodiment of the application provides a product specification obtaining method based on identification analysis.

Referring to fig. 1, a flowchart of a method for obtaining a product specification based on identity resolution according to an embodiment of the present application is shown. As shown in fig. 1, the method includes step 110, step 120, step 130, step 140, step 150, and step 160.

And step 110, splitting the product design drawing of the target product into a plurality of design subgraphs, wherein the target product has an industrial internet mark.

It should be noted that the target product may be any type of product applied in industry, and the "target" in the target product does not constitute any limitation on the target product; the target commodity can be pasted with a bar code or a two-dimensional code of an industrial internet mark.

In step 110, a product design drawing of the target product may be obtained first, and the product design drawing of the target product may be a design drawing in a format of CAD, 3Dmax, and the like, and then the product design drawing of the target product is split to obtain a plurality of design subgraphs; the number of design subgraphs may be 3, 5, 8, 10 or more than 10, which are not listed here.

Alternatively, each design subgraph may correspond to a product module of the target product. In a specific example, the target product is an intelligent robot, the intelligent robot includes three product modules, which are a main module, a moving module (which may include universal wheels) and an interaction module, and three design subgraphs may be obtained by splitting a product design drawing of the target product, where a first design subgraph corresponds to the main module, a second design subgraph corresponds to the moving module, and a third design subgraph corresponds to the interaction module.

And step 120, obtaining the description information corresponding to each of the plurality of design subgraphs to obtain a plurality of description information.

In step 120, for each design subgraph in the multiple design subgraphs, obtaining the description information corresponding to the design subgraph to obtain multiple description information corresponding to the multiple design subgraphs one to one; the description information corresponding to any design subgraph includes, but is not limited to, information related to the number, structure, size, material, performance and the like of a product module corresponding to the design subgraph.

And step 130, generating an electronic specification of the target product based on the plurality of design subgraphs and the plurality of description information.

Optionally, the electronic specification of the target product may include a plurality of design subgraphs which are scaled and adjusted to suitable sizes, the plurality of design subgraphs may be arranged in an order from small to large corresponding to the module number, and the description information corresponding to each design subgraph may be located at a predetermined position of the design subgraph, for example, at the left, right, below, etc. of the design subgraph.

Alternatively, the electronic specification of the target product may be in WORD format, TXT format, PDF format, or the like.

And step 140, binding the electronic specification with the industrial internet identification.

In step 140, the electronic specification of the target product may be bound to the industrial internet identity of the target product, for example, a mapping relationship between the electronic specification of the target product and the industrial internet identity of the target product may be stored in a preset area.

And 150, receiving an identifier analysis request sent by the first terminal device, wherein the identifier analysis request carries an industrial internet identifier.

Optionally, the first terminal device may be a fixed terminal device such as a desktop computer, or may also be a mobile terminal device such as a mobile phone and a tablet computer.

Optionally, the user may scan a barcode or a two-dimensional code of the industrial internet identifier attached to the target commodity through the first terminal device, and at this time, the first terminal device may initiate an identifier resolution request carrying the industrial internet identifier.

And step 160, responding to the identification analysis request, and returning the electronic specification bound with the industrial internet identification to the first terminal equipment.

In step 160, the industrial internet identifier in the identifier parsing request sent by the first terminal device may be parsed by the identifier parsing server, and it may be determined that the user wants to know the target product through parsing, at this time, the electronic specification of the target product may be obtained from the preset area, and the electronic specification of the target product may be returned to the first terminal device. After that, the first terminal device may display the electronic specification of the target product through the display screen, and the user may know the structure, performance, material, and the like of the target product by referring to the electronic specification of the target product.

In the embodiment of the application, a product design drawing of a target product can be split into a plurality of design subgraphs, a plurality of description information corresponding to the design subgraphs is obtained, the design subgraphs and the description information are used for generating an electronic specification of the target product, and the generated electronic specification can be bound with an industrial internet identifier of the target product. Therefore, when a user initiates an identification analysis request carrying an industrial internet identification of a target product through the first terminal device, the electronic specification bound with the industrial internet identification of the target product can be automatically returned to the first terminal device, and the user can know and understand the target product by looking up the electronic specification.

In one optional example, each design sub-graph of the plurality of design sub-graphs corresponds to a product module of the target product;

on the basis of the embodiment shown in fig. 1, as shown in fig. 2, step 120 includes step 1201 and step 1203.

Step 1201, obtaining a plurality of module information of a product module corresponding to the first design subgraph in a plurality of preset information dimensions; the first design subgraph is any one of a plurality of design subgraphs.

Alternatively, "a plurality" of the plurality of preset information dimensions may be two, three, four, five or more, and are not listed here.

Optionally, the module information of the component dimension includes, but is not limited to, component number information, component structure information, component size information, component material information, component performance information, component assembly information, and the like.

Optionally, the module information of the installation dimension includes, but is not limited to, an installation step diagram, an installation video, and the like.

In one embodiment, step 1201 includes:

determining a first database corresponding to a first preset information dimension; the first preset information dimension is any one of a plurality of preset information dimensions;

judging whether module information of a product module corresponding to the first design subgraph in a first preset information dimension exists in a first database;

if so, acquiring module information of a product module corresponding to the first design subgraph in a first preset information dimension from a first database;

if the data do not exist, sending a data supplement request to the second terminal equipment; the second terminal device is a terminal device associated with the first object, the first object is an object associated with a first preset information dimension, and the data supplement request carries identification information of a product module corresponding to the first design subgraph and identification information of the first preset information dimension; and if receiving supplementary data returned by the second terminal equipment in response to the data supplementary request, determining module information of the product module corresponding to the first design subgraph in a first preset information dimension based on the supplementary data.

If the first preset information dimension is an element dimension, the first object can be a designer of a product design drawing of the target product, and the second terminal device associated with the first object can be a terminal device used by the designer; if the preset information dimension is the installation dimension, the use dimension or the notice dimension, the first object may be a manufacturer/producer of the target product, and the second terminal device associated with the first object may be a terminal device used by after-sales personnel of the manufacturer/producer. Alternatively, the second terminal device may be a fixed terminal device or a mobile terminal device.

Optionally, the identification information of the product module corresponding to the first design subgraph may be a module number of the product module corresponding to the first design subgraph; the identification information of the first preset information dimension may be a dimension name or a dimension number of the first preset information dimension.

It should be noted that the corresponding relationship between the preset information dimensions and the databases may be preset, and a database corresponding to any preset information dimension is a database for storing module information of the preset information dimension. Therefore, the first database corresponding to the first preset information dimension can be determined very conveniently according to the preset corresponding relation. Assuming that the first preset information dimension is an element dimension, the first database may also be referred to as an element database, and in this case, a database of software for generating a product design drawing of the target product may serve as the first database.

In specific implementation, whether the first database has module information of the product module corresponding to the first design subgraph in the first preset information dimension or not can be judged by traversing the information in the first database, and the module information of the product module corresponding to the first design subgraph in the first preset information dimension can be obtained in a corresponding mode according to the judgment result.

If the judgment result represents that the first database has the module information of the product module corresponding to the first design subgraph in the first preset information dimension, the module information of the product module corresponding to the first design subgraph in the first preset information dimension can be directly extracted from the first data.

If the judgment result indicates that the module information of the product module corresponding to the first design subgraph in the first preset information dimension does not exist in the first database, a data supplement request carrying the identification information of the product module corresponding to the first design subgraph and the identification information of the first preset information dimension can be sent to the second terminal device. In this way, based on the data supplement request, the first object can learn that the module information of the product module corresponding to the first design subgraph in the first preset information dimension is missing, and in response to the data supplement request, the second terminal device returns the supplement data, where the supplement data may include the module information of the product module corresponding to the first design subgraph provided by the first object in the first preset information dimension, and then the module information of the product module corresponding to the first design subgraph in the first preset information dimension may be directly extracted from the supplement data.

In this embodiment, whether the first database has module information of the product module corresponding to the first design sub-graph in the first preset information dimension or not, the acquisition of the module information of the product module corresponding to the first design sub-graph in the first preset information dimension can be quickly achieved in a proper manner.

Of course, the specific implementation of step 1201 is not limited to this, and for example, the first object may provide the module information of the product module corresponding to the first design sub-graph in the first preset information dimension directly by sending the data supplement request without considering whether the first database has the module information of the product module corresponding to the first design sub-graph in the first preset information dimension.

Step 1203, integrating a plurality of module information of the product module corresponding to the first design subgraph in a plurality of preset information dimensions to obtain explanatory information corresponding to the first design subgraph.

It should be noted that, a specific manner of obtaining module information of a product module corresponding to the first design sub-graph in the first preset information dimension is introduced above, according to this manner, a plurality of module information of the product module corresponding to the first design sub-graph in a plurality of preset information dimensions can be obtained, and a one-to-one correspondence relationship may be formed between the plurality of module information and the plurality of preset information dimensions. Next, the description information corresponding to the first design subgraph may be directly composed of a plurality of module information, or the plurality of module information may be preprocessed, and the preprocessed plurality of module information may be composed of the description information corresponding to the first design subgraph.

In the embodiment of the application, the description information corresponding to the first design subgraph can be acquired by integrating the product module corresponding to the first design subgraph in the information of a plurality of modules in a plurality of preset information dimensions, so that when the acquired description information is used for generating an electronic specification in the following process, introduction information of a plurality of dimensions of a target product can be recorded in the electronic specification, and a user can know and know the target product from the plurality of dimensions by looking up the electronic specification.

if receiving supplementary data returned by the second terminal device in response to the data supplementary request, determining module information of a product module corresponding to the first design subgraph in a first preset information dimension based on the supplementary data, wherein the module information comprises:

if supplementary data returned by the second terminal equipment in response to the data supplement request are received within the data supplement time limit, determining module information of a product module corresponding to the first design subgraph in a first preset information dimension based on the supplementary data;

the method further comprises the following steps:

if the supplementary data is not received within the data supplementary period, sending a data overdue non-supplementary prompt aiming at the first object to the third terminal equipment; the third terminal device is a terminal device associated with the second object, and the second object is an object having a second preset relationship with the first object.

Alternatively, the data supplement period may be within 1 day, within 3 days, within 5 days, within 7 days, or the like from the generation time of the data supplement request; the object having the second preset relationship with the first object may be an object that manages the first object, such as an upper level of the first object; the third terminal device associated with the second object may be a terminal device used by the second object, and the third terminal device may be a fixed terminal device or a mobile terminal device.

Assuming that the first object is a designer of a product design drawing of a target product, the data supplement time limit may be considered as a time limit specified by the designer and supplementing module information of a product module corresponding to the first design sub-drawing in the element dimension, and if the designer supplements corresponding module information within the time limit, description information corresponding to the first design sub-drawing may be obtained according to the time limit, so as to generate an electronic specification of the target product; if the designer does not supplement the corresponding module information within the time limit, a data expiration unsupplemented prompt for the designer may be sent to the third terminal device. In this way, the direct higher level of the designer can know that the designer has not performed data supplementation on time, and the direct higher level of the designer can prompt the designer to perform data supplementation.

In the embodiment of the application, the data supplement period is set, and the sending of the overdue non-supplement prompt is beneficial to enabling the first object to supplement data as soon as possible, so that the generation of the electronic specification is realized as soon as possible.

In an optional example, before integrating a product module corresponding to the first design sub-graph into a plurality of module information of a plurality of preset information dimensions to obtain description information corresponding to the first design sub-graph, the method further includes:

identifying error information of a product module corresponding to the first design subgraph in module information of a second preset information dimension by using an artificial intelligence algorithm; the second preset information dimension is any one of a plurality of preset information dimensions;

sending an information updating request to second terminal equipment, wherein the information updating request carries identification information of a product module corresponding to the first design subgraph, identification information of a second preset information dimension and identification information of an information item to which the error information belongs;

and if receiving the updating information returned by the second terminal equipment in response to the information updating request, updating the error information by using the updating information.

Alternatively, the identification information of the information item may be a number or a name of the information item.

Here, the artificial intelligence algorithm may be used to determine whether the module information of the product module corresponding to the first design sub-graph in the second preset information dimension is correct, so as to identify the error information of the product module corresponding to the first design sub-graph in the module information of the second preset information dimension. For example, the second preset information dimension is an element dimension, the product module corresponding to the first design sub-graph has an ambient temperature value (in units of celsius) and a power value (in units of watt) in the module information of the second preset information dimension, and a normal temperature value range is-50 to 100 celsius, and a normal power value range is 0 to kw, and when the ambient temperature value in the module information is higher than 100 celsius (for example, 120 celsius), the ambient temperature value in the module information can be identified as an error message by using an artificial intelligence algorithm, and when the power value in the module information is ten thousand watts, the power value in the module information can be identified as an error message by using an artificial intelligence algorithm. It should be noted that the information item to which the ambient temperature value belongs is an ambient temperature item; the information item to which the power value belongs is a power item.

After identifying the error information in the module information, an information updating request may be sent to the second terminal device, where the information updating request carries the identification information of the product module corresponding to the first design subgraph, the identification information of the second preset information dimension, and the identification information of the information item to which the error information belongs. In this way, based on the information update request, the designer of the product design drawing of the target product can specify the information (i.e., error information) that needs to be updated in the module information, and return the update information through the second terminal device in response to the information update request, where the update information may include the correct ambient temperature value and the correct power value. Thereafter, based on the updated information, the error information in the module information can be corrected. Therefore, the method and the device for generating the electronic specification can ensure the correctness of the module information of the product module corresponding to the first design subgraph in each preset information dimension, so that the specification information can be determined and the electronic specification can be generated by using the correct module information, and the correctness of the information in the electronic specification can be better ensured.

On the basis of the embodiment shown in fig. 1, as shown in fig. 3, step 130 includes step 1301, step 1303, step 1305 and step 1307.

Step 1301, obtaining historical reading condition data of a third object from the second database, wherein the third object is an object associated with the first terminal device.

It should be noted that the second database is a preset database for storing historical reading condition data, where the historical reading condition data includes, but is not limited to, reading start time, reading end time, reading duration, a typesetting manner selected during reading, a page setting manner selected during reading, and the like. Optionally, the typesetting manner may include the following information: information for representing whether the text is displayed above the picture, below the picture or around the picture; the page setting mode may include the following information: information for characterizing whether the page numbers are left-aligned, right-aligned, or centered; information used for representing the font type adopted by the characters in the page; information characterizing the font size employed by the text in the page.

Alternatively, the third object may be an object using the first terminal device.

And step 1303, determining a typesetting mode and a page setting mode which are matched with the third object based on the historical reading condition data.

In step 1303, based on the historical reading condition data, statistical analysis may be performed on the reading habit of the third object, so as to determine the preferred layout mode and page setting mode of the third object, and the determined layout mode and page setting mode may be considered as a layout mode and page setting mode adapted to the third object.

Step 1305, based on the multiple design subgraphs and the multiple description information, generating pages according to the typesetting mode and the page setting mode to obtain multiple pages which are sequentially arranged.

In step 1305, for each design subgraph in the multiple design subgraphs, a corresponding page may be generated based on the design subgraph and the description information corresponding to the design subgraph, where the page includes the design subgraph and the description information corresponding to the design subgraph, and the page adopts a typesetting manner and a page setting manner adapted to the third object. In this way, pages corresponding to multiple design subgraphs can be obtained, and the pages can be arranged in sequence.

At step 1307, an electronic specification is generated that includes a plurality of pages.

In step 1307, the multiple pages may be integrated to form an electronic specification including only the multiple pages, or, of course, the cover page may be added before or after the multiple pages, respectively, to form an electronic specification including the cover page and the multiple pages.

In the embodiment of the application, the electronic specification can be generated by referring to the preferred typesetting mode and the preferred page setting mode of the third object associated with the first terminal device, so that the user experience of the third object when the third object refers to the electronic specification can be better ensured.

On the basis of the embodiment shown in fig. 1, as shown in fig. 4, step 110 includes step 1101 and step 1103.

Step 1101, obtaining a design drawing splitting model obtained by pre-training.

It should be noted that a large amount of sample data can be used in advance to train and obtain the design drawing splitting model. Optionally, each sample data may include a product design drawing and a plurality of splitting lines manually labeled for the product design drawing, the plurality of splitting lines are used for splitting the product design drawing into a plurality of sub-images, each sub-image may include a product module, and through training, the design drawing splitting model can learn how to split any given product design drawing.

And 1103, splitting the product design drawing into a plurality of design subgraphs through the design drawing splitting model.

In step 1103, the product design drawing may be provided as an input to the design drawing splitting model, the design drawing splitting model may perform operations according to the input, determine a plurality of splitting lines on the product design drawing, split the product design drawing from positions where the plurality of splitting lines are located, and split the product design drawing into a plurality of parts, where each part serves as a design subgraph.

In the embodiment of the application, the design drawing splitting model is utilized, and the splitting of the product design drawing can be efficiently and reliably realized.

In an alternative example, as shown in fig. 5, a product design drawing (equivalent to the product design drawing in the foregoing) may be obtained first, then the product design drawing is split into a plurality of product design sub-drawings (equivalent to the product design drawing split into the plurality of design sub-drawings in the foregoing), for each product design sub-drawing, its component may be matched in a component database, if the matching is successful, component structure information, component performance information, and the like pre-stored in the component database are obtained (equivalent to if module information of a component dimension of a product module corresponding to the product design sub-drawing exists in the first database, the module information is obtained from the first database), and the obtained information may be regarded as partial information in the sub-drawing related information, and if the matching is failed, supplementary component structure information, and the like are sent to a terminal of a designer, A request for element performance information or the like (corresponding to the data supplement request above), and a data supplement period may be set so that the designer supplements the relevant data. When the designer does not perform data supplement beyond the data supplement period, prompt information for representing that the designer does not perform data supplement beyond the date of data supplement can be sent to the personnel for managing the designer.

After all the commodity design subgraphs of the commodity design drawing are detected to have a plurality of module information including element structure information, element material information, element performance information and the like, all the commodity design subgraphs can be sequenced, and an electronic specification of the commodity is automatically generated based on all the sequenced commodity design subgraphs and the plurality of module information.

Alternatively, after the electronic specification of the product is generated, the designer may be requested to confirm the generated electronic specification, and if the designer confirms that the generated electronic specification is correct, the generated electronic specification may be used as the final electronic specification, and if the user needs the final electronic specification, the user may be provided with the final electronic specification for review.

In summary, in the embodiment of the application, by pasting the barcode or the two-dimensional code of the industrial internet identifier on the product, the user can send the identifier resolution request carrying the industrial internet identifier to the identifier resolution server by scanning the two-dimensional code or the barcode, the identifier resolution server can obtain the electronic specification of the product bound with the identifier by resolving the industrial internet identifier, and then send the obtained electronic specification to the user, so that the user can quickly know and understand the product.

Based on the same inventive concept, an embodiment of the present application provides a computer storage medium, where a computer program is stored on the computer storage medium, and when the computer program is executed by a processor, the computer program implements the following steps:

obtaining description information corresponding to the multiple design subgraphs to obtain multiple description information;

binding the electronic specification with an industrial internet identifier;

receiving an identifier analysis request sent by a first terminal device, wherein the identifier analysis request carries an industrial internet identifier;

and responding to the identification resolving request, and returning the electronic specification bound with the industrial Internet identification to the first terminal equipment.

the computer program when executed by a processor embodies the steps of:

obtaining a plurality of module information of a product module corresponding to the first design subgraph in a plurality of preset information dimensions; the first design subgraph is any one of a plurality of design subgraphs;

and integrating a plurality of module information of the product module corresponding to the first design subgraph in a plurality of preset information dimensions to obtain the description information corresponding to the first design subgraph.

In an alternative example, the computer program when executed by the processor embodies the steps of:

the computer program when executed by a processor embodies the steps of:

if supplementary data returned by the second terminal equipment in response to the data supplement request are received within the data supplement period, determining module information of a product module corresponding to the first design subgraph in a first preset information dimension based on the supplementary data;

the computer program when executed by the processor further implements the steps of:

In an alternative example, the computer program when executed by the processor further implements the steps of:

before integrating a plurality of module information of a product module corresponding to a first design subgraph in a plurality of preset information dimensions to obtain explanatory information corresponding to the first design subgraph, identifying error information of the product module corresponding to the first design subgraph in module information of a second preset information dimension by using an artificial intelligence algorithm; the second preset information dimension is any one of a plurality of preset information dimensions;

generating pages according to a typesetting mode and a page setting mode based on the plurality of design subgraphs and the plurality of explanatory information to obtain a plurality of pages which are sequentially arranged;

an electronic specification is generated that includes a plurality of pages.

obtaining a design drawing splitting model obtained by pre-training;

and splitting the product design drawing into a plurality of design subgraphs through the design drawing splitting model. Based on the same inventive concept, the present embodiment provides an electronic device, referring to fig. 6, including a memory 601, a processor 602, a bus 603, and a computer program stored on the memory 601 and executable on the processor 602, where the processor 602 implements the following steps when executing the computer program:

binding the electronic specification with an industrial internet mark;

the following steps are specifically implemented when the processor 602 executes the computer program:

In an alternative example, the processor 602, when executing the computer program, implements the following steps:

the processor 602, when executing the computer program, further performs the steps of:

in an alternative example, the processor 602, when executing the computer program, further performs the steps of:

sending an information updating request to second terminal equipment, wherein the information updating request carries identification information of a product module corresponding to the first design subgraph, identification information of a second preset information dimension and identification information of an information item to which error information belongs;

an electronic specification is generated that includes a plurality of pages.

obtaining a design drawing splitting model obtained by pre-training;

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or 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), and computer program products according to embodiments of the application. 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 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.

While the preferred embodiments of the present application have been described, additional variations and modifications in those 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 alterations and modifications as fall within the scope of the application.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims

1. A method for obtaining a product specification based on identification analysis is characterized by comprising the following steps:

2. The method of claim 1, wherein each design sub-graph of the plurality of design sub-graphs corresponds to a product module of the target product;

3. The method of claim 2, wherein the obtaining of the plurality of module information of the product module corresponding to the first design sub-graph in the plurality of preset information dimensions comprises:

if the data do not exist, sending a data supplement request to the second terminal equipment; the second terminal device is a terminal device associated with a first object, the first object is an object associated with the first preset information dimension, and the data supplement request carries identification information of a product module corresponding to the first design subgraph and identification information of the first preset information dimension; and if receiving supplementary data returned by the second terminal equipment in response to the data supplementary request, determining module information of the product module corresponding to the first design subgraph in the first preset information dimension based on the supplementary data.

4. The method of claim 3, wherein the data supplement request carries a data supplement deadline;

if supplementary data returned by the second terminal equipment in response to the data supplement request are received within the data supplement period, determining module information of the product module corresponding to the first design subgraph in the first preset information dimension based on the supplementary data;

the method further comprises the following steps:

5. The method of claim 2, wherein before integrating the product module corresponding to the first design sub-graph into the module information of the preset information dimensions to obtain the description information corresponding to the first design sub-graph, the method further comprises:

identifying error information of a product module corresponding to the first design subgraph in module information of a second preset information dimension by using an artificial intelligence algorithm; the second preset information dimension is any one of the plurality of preset information dimensions;

6. The method according to any one of claims 2 to 5, wherein the module information of the element dimension comprises at least one of: component number information, component structure information, component size information, component material information, component performance information, and component assembly information.

7. The method of claim 1, wherein generating the electronic specification of the target product based on the plurality of design subgraphs and the plurality of description information comprises:

generating an electronic specification comprising the plurality of pages.

8. The method of claim 1, wherein the splitting the product design drawing into a plurality of design subgraphs comprises:

obtaining a design drawing splitting model obtained by pre-training;

9. A computer storage medium, characterized in that a computer program is stored thereon, which computer program, when being executed by a processor, carries out the steps of the method according to any one of claims 1 to 8.

10. An electronic device comprising one or more processors, and memory for storing one or more programs; the one or more programs, when executed by the one or more processors, implement the method of any of claims 1-8.