CN109359133B - Personalized identification method based on big data and deep learning and robot system - Google Patents

Abstract

Personalized identification method and robot system based on big data and deep learning, comprising: the method comprises the steps of obtaining personalized identification standards, obtaining data of an object to be identified, obtaining data corresponding to the personalized identification standards from the data of the object, and judging whether the data corresponding to the personalized identification standards meet the personalized identification standards. According to the method and the system, through the personalized identification technology based on big data and deep learning, the personalized degree of preset category identification is improved, and the identification requirements of different types of objects can be met.

Description

Personalized identification method based on big data and deep learning and robot system

Technical Field

The invention relates to the technical field of information, in particular to a personalized identification method based on big data and deep learning and a robot system.

Background

In the process of implementing the invention, the inventor finds that at least the following problems exist in the prior art: in the prior art, the preset type of identification is performed, and the identification standards adopted by all objects are the same, for example, the identification standards of high and new enterprises are the same, and the identification standards of different enterprises are the same, but the performance of the innovation capability of the enterprises in different industries is different, and some enterprises perform basic research, and may be mainly innovated by knowledge, such as invention patents and the like; some enterprises conduct application basic research, and perhaps the main innovation is technical innovation, such as software copyright and the like; some enterprises develop application research and development, and may be mainly innovated to innovate products, such as new products and the like; if the same standard is adopted for all enterprises, a plurality of enterprises which accord with the high and new enterprises cannot pass the identification of the high and new enterprises, and some enterprises which do not accord with the high and new enterprises actually can pass the identification of the high and new enterprises only by aiming at the enterprises which are deliberately prepared according to the identification standard; therefore, the uniform identification standard is against the actual objective rule, which is easy to mislead the identified object to be formalized, and is identified for identification, but cannot achieve the real purpose and original purpose of identification, for example, the original purpose identified by high-tech enterprises is bound to guide enterprises to innovate, so that enterprises in different industries are bound to have different innovative forms and performances, if the uniform identification standard is used for measurement, not only the real innovative level of the enterprises cannot be measured, but also the innovative behavior of the enterprises can be misled or the correct innovative mode of the enterprises can be hit, thereby playing a role in opposition; in summary, the problem existing in the prior art is that the identification standard is single, and the identification requirements of different types of objects cannot be met.

Accordingly, the prior art is yet to be improved and developed.

Disclosure of Invention

Based on this, it is necessary to provide a personalized identification method and a robot system based on big data and deep learning to solve the problem that the existing technology has a single identification standard and cannot meet the identification requirements of different types of objects, aiming at the defects or shortcomings in the prior art.

In a first aspect, an embodiment of the present invention provides an identification method, where the method includes:

an individualized affirmation standard obtaining step, which is used for obtaining an individualized affirmation standard; the identification standard is not single, diversified and personalized, and can meet the identification requirements of different types of objects;

an object data acquisition step for acquiring data of an object to be identified;

a data acquisition step corresponding to a standard, which is used for acquiring data corresponding to the personalized identification standard from the data of the object to be identified;

and a step of determining whether the data corresponding to the personalized qualification standard meets the personalized qualification standard.

Preferably, the first and second electrodes are formed of a metal,

the object data acquiring step includes:

a data source obtaining step for obtaining a data source;

an object data retrieval step, which is used for retrieving and acquiring the data of the object to be identified from the data source;

the data acquisition step corresponding to the standard comprises the following steps:

a data screening step, which is used for screening out data corresponding to the personalized identification standard from the data of the object to be identified as first data;

and a data cleaning step, which is used for extracting data corresponding to each standard from the first data as second data corresponding to each standard.

Preferably, the first and second electrodes are formed of a metal,

the step of obtaining the personalized qualification standard comprises the following steps:

an object type obtaining step, which is used for obtaining the type of the object to be identified;

and acquiring a qualification standard corresponding to the type of the object, wherein the qualification standard of the preset category corresponding to the type of the object to be qualified is acquired and used as the personalized qualification standard of the object to be qualified.

Preferably, the first and second electrodes are formed of a metal,

the step of affirming and judging comprises the following steps:

a sub-standard obtaining step, which is used for obtaining each standard and the general standard in the personalized affirmation standard;

a corresponding data extracting step, configured to extract the second data corresponding to each criterion from the first data;

a preset model obtaining step corresponding to each standard, which is used for obtaining a preset model corresponding to each standard;

a third data generation step corresponding to each standard, wherein the third data generation step is used for calculating to obtain third data corresponding to each standard according to the second data corresponding to each standard and the preset model corresponding to each standard;

each standard judging step is used for judging whether the object to be identified meets each standard or not according to third data and a preset range corresponding to each standard;

a preset model obtaining step corresponding to the overall standard, which is used for obtaining a preset model corresponding to the overall standard;

a total standard judging step, configured to judge whether the object to be identified meets the total standard according to the third data corresponding to each standard, a preset model corresponding to the total standard, and a preset range;

and a comprehensive judgment step for judging whether the object to be identified meets each standard and the overall standard in the personalized identification standard.

Preferably, the first and second electrodes are formed of a metal,

the preset model acquisition step corresponding to each standard comprises the following steps:

a deep learning model initialization step corresponding to each standard, which is used for initializing the deep learning model corresponding to each standard as a first deep learning model;

a historical data acquisition step corresponding to each standard, which is used for acquiring the second data and the third data of each identified object corresponding to each standard from historical big data;

a second deep learning model generation step of performing unsupervised training on the first deep learning model by using the second data of each identified object corresponding to each standard as input data of the first deep learning model, and using the obtained first deep learning model as a second deep learning model;

a third deep learning model generation step, configured to use the second data and the third data of each identified object corresponding to each criterion as input data and output data of the second deep learning model, respectively, perform supervised training on the second deep learning model, and use the obtained second deep learning model as a third deep learning model;

a preset model setting step corresponding to each standard, which is used for taking the third deep learning model as a preset model corresponding to each standard;

the step of obtaining the preset model corresponding to the overall standard comprises the following steps:

a deep learning model initialization step corresponding to an overall standard, which is used for initializing the deep learning model corresponding to the overall standard, and taking the obtained deep learning model as a fourth deep learning model;

a historical data acquisition step corresponding to an overall standard, which is used for acquiring a set of third data corresponding to each standard in the personalized identification standard of each identified object and third data corresponding to the overall standard from historical big data;

a fifth deep learning model generation step, configured to use the set of the third data of each object that has been subjected to identification and corresponds to each standard in the personalized identification standards as input data of the deep learning model, perform unsupervised training on the fourth deep learning model, and use the obtained fourth deep learning model as a fifth deep learning model;

a sixth deep learning model generation step of respectively using the set of the third data corresponding to each criterion in the personalized determination criteria of each object that has been determined and the third data corresponding to the overall criterion as input data and output data of the fifth deep learning model, performing supervised training on the fifth deep learning model, and using the obtained fifth deep learning model as a sixth deep learning model;

and a preset model setting step corresponding to the overall standard, wherein the preset model setting step is used for taking the sixth deep learning model as a preset model corresponding to the overall standard.

Preferably, the first and second electrodes are formed of a metal,

each standard judging step comprises the following steps:

a preset range acquisition step corresponding to each standard, which is used for acquiring the preset range corresponding to each standard;

a third data judgment step corresponding to each standard, which is used for judging whether the object to be identified meets each standard or not;

the overall standard judging step comprises the following steps:

a third data generation step corresponding to the overall standard, configured to calculate third data corresponding to the overall standard according to the third data corresponding to each standard and the preset model corresponding to the overall standard;

a preset range acquisition step corresponding to the overall standard, which is used for acquiring the preset range corresponding to the overall standard;

and a third data judgment step corresponding to the overall standard, which is used for judging whether the object to be identified meets the overall standard.

In a second aspect, an embodiment of the present invention provides an authentication system, including:

an individualized affirmation standard obtaining step, which is used for obtaining an individualized affirmation standard;

the object data acquisition module is used for acquiring data of an object to be identified;

the data acquisition module corresponding to the standard is used for acquiring data corresponding to the personalized identification standard from the data of the object to be identified;

and the identification judging module is used for judging whether the data corresponding to the personalized identification standard meets the personalized identification standard.

Preferably, the first and second electrodes are formed of a metal,

the step of obtaining the personalized qualification standard comprises the following steps:

an object type obtaining step, which is used for obtaining the type of the object to be identified;

acquiring an identification standard corresponding to the type of the object, wherein the identification standard is used for acquiring a preset type of identification standard corresponding to the type of the object to be identified and is used as an individualized identification standard of the object to be identified;

the object data acquisition module includes:

the data source acquisition module is used for acquiring a data source;

the object data retrieval module is used for retrieving and acquiring the data of the object to be identified from the data source;

the data acquisition module corresponding to the standard comprises:

the data screening module is used for screening out data corresponding to the personalized identification standard from the data of the object to be identified as first data;

and the data cleaning module is used for extracting data corresponding to each standard from the first data as second data corresponding to each standard.

Preferably, the first and second electrodes are formed of a metal,

the affirmation judging module comprises:

the sub-standard acquisition module is used for acquiring each standard and the overall standard in the personalized identification standard;

a corresponding data extraction module, configured to extract the second data corresponding to each criterion from the first data;

the preset model acquisition module corresponding to each standard is used for acquiring a preset model corresponding to each standard;

the third data generation module corresponding to each standard is used for calculating to obtain third data corresponding to each standard according to the second data corresponding to each standard and the preset model corresponding to each standard;

each standard judging module is used for judging whether the object to be identified meets each standard or not according to the third data and the preset range corresponding to each standard;

the preset model acquisition module corresponding to the overall standard is used for acquiring a preset model corresponding to the overall standard;

the overall standard judging module is used for judging whether the object to be identified meets the overall standard or not according to the third data corresponding to each standard, the preset model corresponding to the overall standard and the preset range;

and the comprehensive judgment module is used for judging whether the object to be identified meets each standard and the overall standard in the personalized identification standard.

In a third aspect, an embodiment of the present invention provides a robot system, in which the recognizing systems according to any one of the second aspects are respectively arranged.

The embodiment of the invention has the advantages and beneficial effects that:

1. according to the embodiment of the invention, different identification standards are adopted when the same preset type identification is carried out on different types of objects, so that the identification is more personalized, more objective and actual, more real level of the object can be reflected, more initial purpose and purpose of the identification can be met, and the object can be guided to develop better. The embodiment of the invention has a non-single identification standard, performs personalized identification and can meet the identification requirements of different types of objects. In the prior art, the identification standards adopted by all objects are the same when the preset categories are identified; the method is characterized in that the uniform identification standard is contrary to the actual objective rule, misleads the identified object trend formalization, identifies the object for identification, and cannot achieve the real purpose and original purpose of identification, so that the real innovation level of an enterprise cannot be measured, but misleads the innovation behavior of the enterprise or strikes the original correct innovation mode of the enterprise, thereby playing a role in opposition; in summary, the problem existing in the prior art is that the identification standard is single, and the identification requirements of different types of objects cannot be met.

2. In the personalized identification process of the embodiment of the invention:

(1) the embodiment of the invention can be used for full-automatic identification of the object or semi-automatic identification of the object by assisting expert review, thereby improving the automatic, intelligent and identification efficiency of identification.

(2) Various data of the object can be involved in the preset category identification process, for example, financial data, intellectual property data, product data, safety data, quality data and the like of the enterprise object when high and new enterprises are identified, the data can be acquired by third parties such as an industrial and commercial department, an intellectual property bureau, a tax department, a public security department, a quality inspection department and the like, but the data of the third parties are not fully utilized to improve the identification credibility when the preset category is identified in reality. The data source utilized by the embodiment of the invention comprises big data acquired from a third party, which is more credible than data provided by the object.

(3) The embodiment of the invention judges whether the object can be judged to be the preset category or not by carrying out intelligent analysis based on the big data and the judgment standard so as to assist the expert in evaluation, thereby reducing the workload of the expert in evaluation and improving the efficiency of the expert judgment.

(4) The embodiment of the invention adopts a deep learning technology to automatically generate the preset model for identification based on historical big data, and can further improve the intelligence and the accuracy of the identification.

(5) According to the embodiment of the invention, the data and the objects which meet the preset classification identification standard can be screened out through the identification method and the identification system for reference of the evaluation expert, so that the evaluation speed of the evaluation expert can be improved, and the evaluation workload of the evaluation expert can be reduced.

(6) According to the embodiment of the invention, the data and the objects which do not accord with the preset classification identification standard can be screened out through the identification method and the identification system for reference of the evaluation expert, so that the evaluation expert can more strictly evaluate the data and the objects which do not accord with the conditions, and the evaluation accuracy is improved.

The embodiment of the invention provides a personalized identification method based on big data and deep learning and a robot system, wherein the method comprises the following steps: the method comprises the steps of obtaining personalized identification standards, obtaining data of an object to be identified, obtaining data corresponding to the personalized identification standards from the data of the object, and judging whether the data corresponding to the personalized identification standards meet the personalized identification standards. According to the method and the system, through the personalized identification technology based on big data and deep learning, the personalized degree of preset category identification is improved, and the identification requirements of different types of objects can be met.

Drawings

Fig. 1 is a flow chart of a certification method provided in embodiment 1 of the present invention;

fig. 2 is a flowchart of steps for obtaining the personalized qualification criteria provided in embodiment 3 of the present invention;

FIG. 3 is a flowchart of the procedure of determining the identity provided in embodiment 4 of the present invention;

fig. 4 is a flowchart of a preset model obtaining step corresponding to each criterion according to embodiment 5 of the present invention;

fig. 5 is a flowchart of a preset model obtaining step corresponding to the overall standard provided in embodiment 5 of the present invention;

fig. 6 is a schematic block diagram of a subscription system provided in embodiment 7 of the present invention;

fig. 7 is a schematic block diagram of a personalized subscription standard obtaining module provided in embodiment 9 of the present invention;

fig. 8 is a schematic block diagram of an assertion judging module provided in embodiment 10 of the present invention;

fig. 9 is a schematic block diagram of a preset model obtaining module corresponding to each standard according to embodiment 11 of the present invention;

fig. 10 is a schematic block diagram of a preset model obtaining module corresponding to the general standard provided in embodiment 11 of the present invention.

Detailed Description

The technical solutions in the examples of the present invention are described in detail below with reference to the embodiments of the present invention.

The methods in various embodiments of the present invention include various combinations of the following steps:

an individualized approval standard obtaining step S100, configured to obtain an individualized approval standard;

the personalized qualification criterion acquiring step S100 includes an object type acquiring step S110 and a qualification criterion acquiring step S120 corresponding to the object type.

Object type acquisition step S110: the type of the object to be identified is obtained. If the object to be identified is an enterprise, the type of the object to be identified includes an industry type, a research and development type, a scale type, and the like, which can distinguish the object and separate the object into different classes. The industry types include financial industry, manufacturing industry, information industry, and the like. The industry types include a first industry, a second industry, a third industry, and so on. The development types include basic development, application development, and the like. The scale types include large scale, medium and small scale, and the like. If the object to be identified is a person, the type of the object to be identified includes an occupation type, a competence type, and the like. The types of professions include students, teachers, farmers, workers, officials, and the like. The capability types include: innovation capability, hands-on capability, etc.

Acquiring qualification standard corresponding to the object type S120: and acquiring the preset type of the identification standard corresponding to the type of the object to be identified as the personalized identification standard of the object to be identified. The personalized qualification standard can be set by experts and can also be automatically generated based on big data and deep learning.

The determination criterion of the preset category is a criterion for identifying an object as an object of the preset category, for example, a business as a high-new business. The preset categories are, for example, high and new technology enterprises, three good students, excellent teachers and the like. The default category of qualification criteria includes a plurality of criteria and an overall criteria. Each criteria class of the plurality of criteria is a criteria of an intellectual property item, a criteria of a product item, a criteria of a profit item, and the like.

The default category identification criteria for different object types may be different. For example, the standard of the intellectual property item of the basic research type enterprise is 8 or more authorized invention patents, the standard of the intellectual property item of the basic application research type enterprise is 4 or more authorized invention patents, and the standard of the intellectual property item of the application research type enterprise is 2 or more authorized invention patents; the product item standard of the basic research type enterprise is more than 1 new product, the intellectual property item standard of the basic application research type enterprise is more than 3 new products, and the intellectual property item standard of the application research type enterprise is more than 5 new products; the standard for profit items for a basic research enterprise is million profits per year, the standard for profit items for a basic application research enterprise is five million incomes per year, and the standard for profit items for an application research enterprise is ten million incomes per year.

Object data acquisition step S200: data of an object to be identified is acquired. Such as a business, student, teacher, etc. For example, it is necessary to determine whether the enterprise is a high and new technology enterprise, whether a student is a good student, whether a teacher is a good teacher, and the like.

The object data acquisition step S200 includes a data source acquisition step S210 and an object data retrieval step S220.

Data source acquisition step S210: a data source is acquired. The data source comprises data provided by an object and data provided by a third party. Object provided data refers to data provided by the object. The data provided by the third party comprises object data stored by government departments, industry associations, intellectual property offices and the like. The data source is provided by a data retrieval and acquisition interface. The relevant data can be retrieved and acquired automatically by the computer program through the interface. The data source is generally an online data source, and data in the online data source can be remotely acquired through the internet. The data source may include a plurality of data sources distributed in different departments.

Object data retrieval step S220: data for the object is retrieved and acquired from a data source. Because the data source contains many object data and other data, if the data source is obtained as a whole and then retrieved, it will take too much network transmission time, so the object data needs to be retrieved first, and then the object data needs to be obtained locally. When there are multiple data sources, the data of the object is retrieved from the multiple data sources respectively and then downloaded to the local.

Data acquisition step S300 corresponding to the standard: and acquiring data corresponding to the personalized qualification standard from the data of the object.

The data acquiring step S300 corresponding to the standard includes a data filtering step S310 and a data cleaning step S320.

Data filtering step S310: and screening out first data corresponding to the object from the data of the object according to the personalized qualification standard. The data of the object includes various data, wherein the data is not necessarily related to the personalized qualification criterion, so that the data related to the personalized qualification criterion needs to be retrieved from the data of the object as the first data corresponding to the object. The personalized identification standard comprises a plurality of items, data corresponding to each item of standard can be in different data sources, for example, financial data is in a data source provided by an industrial and commercial department, intellectual property data is in a data source provided by an intellectual property bureau, quality inspection data is in a data source provided by a quality inspection department, and safety data is in a data source provided by a public security department. For example, the data source provided by the intellectual property department corresponds to an intellectual property standard, the data source provided by the intellectual property department includes payment data, application data, acceptance data and authorization data of the intellectual property of the object, wherein the three categories of data of the application data, the acceptance data and the authorization data are related to the intellectual property standard of the personalized approval standard, and the corresponding relationship between the three categories of data and the intellectual property standard of the personalized approval standard is established in the data source provided by the intellectual property department as the preset corresponding relationship.

Data cleaning step S320: and extracting second data corresponding to each standard from the first data. And taking the data corresponding to each standard in the first data as second data. Judging whether second data corresponding to each standard exists or not: if not, sending reminding information of the second data corresponding to each item of standard which is lacked to the user; if yes, judging whether the second data corresponding to each standard is unique: if not, judging whether the plurality of second data corresponding to each standard are consistent: and if not, retaining the second data with the highest credibility in the plurality of second data, and deleting other second data in the plurality of second data. The second data corresponding to the each criterion extracted from the first data is the data corresponding to the each criterion in the first data.

In the data cleaning step S320, the step of retaining the second data with the highest reliability in the plurality of second data, and the step of deleting other second data in the plurality of second data include a corresponding data source obtaining step S321, a reliability obtaining step S322, and a reliability selecting step S323.

Corresponding data source acquisition step S321: and acquiring a data source corresponding to each second data in the plurality of second data. Because the first data is obtained from the data source and the second data is extracted from the first data, the data source corresponding to each second data can be obtained.

Confidence level acquisition step S322: and acquiring the credibility of the data source corresponding to each second data. The confidence level may be preset. For example, the credibility of the data source of the police department is 100%, the credibility of the data source of the industrial and commercial department is 99%, the credibility of the data source of the intellectual property department is 98%, and the credibility of the data source provided by the object itself is 80%. The method for presetting the credibility comprises the steps of setting the credibility by an expert and automatically generating the credibility.

The step of automatically generating the reliability in the reliability obtaining step S322 includes: the trustworthiness of all data sources is initialized to an initial value, e.g. 50%. And acquiring the first data and the cleaned second data of each object from the historical big data. Increasing the credibility of the data source corresponding to the cleaned second data by a preset value, increasing the credibility of the data source corresponding to other second data in the first data, which is consistent with the cleaned second data, by a preset value, for example, 0.1%, and reducing the credibility of the data source corresponding to other second data in the first data, which is inconsistent with the cleaned second data, by a preset value, for example, 0.05%. When the credibility of the data source corresponding to the second data reaches 100%, no preset value is added; and when the credibility of the data source corresponding to the second data is reduced to 0%, no preset value is built. Therefore, the credibility of different data sources can be increased or decreased according to whether the historical second data is correct or not, and different credibility of different data sources is formed. The second data obtained by cleaning refers to correct second data confirmed by manual mode or other modes. Therefore, when the preset type is confirmed for a plurality of times before the credibility of each data source is not clear, the data needs to be cleaned in a manual mode, and then the credibility of each data source can be analyzed and obtained according to the historical data.

Reliability selecting step S323: and selecting the highest credibility from the credibility of the data source corresponding to each second data. And reserving second data corresponding to the highest reliability in the plurality of second data, and deleting other second data except the second data corresponding to the highest reliability in the plurality of second data. This makes it possible to retain the most reliable data and delete the other conflicting data when a plurality of second data conflicts with each other.

A determination judgment step S400: judging whether the data corresponding to the personalized qualification standard meets the personalized qualification standard: if yes, judging that the object to be identified belongs to a preset category; and if not, judging that the object to be identified does not belong to the preset category.

The determination judging step S400 includes a sub-standard obtaining step S410, a corresponding data extracting step S420, a preset model obtaining step S430 corresponding to each standard, a judgment step S440 for each standard, a preset model obtaining step S450 corresponding to the overall standard, an overall standard judging step S460, and a comprehensive judgment step S470.

Sub-standard acquisition step S410: each of the personalized qualification criteria and the overall criteria are obtained.

Corresponding data extraction step S420: and extracting second data corresponding to each standard from the first data. Judging whether second data corresponding to each standard exists or not: if yes, jumping to S430 to continue execution; otherwise, setting the third data corresponding to each standard to be null, and then jumping to S450 to continue execution.

A preset model obtaining step S430 corresponding to each standard: and acquiring a preset model corresponding to each standard. The preset model comprises a formula or an algorithm or a deep learning model.

When the preset model is a deep learning model, the preset model obtaining step S430 corresponding to each standard includes a deep learning model initializing step S431 corresponding to each standard, a historical data obtaining step S432 corresponding to each standard, a second deep learning model generating step S433, a third deep learning model generating step S434, and a preset deep learning model setting step S435 corresponding to each standard.

Initializing the deep learning model corresponding to each standard, setting the input format of the deep learning model as the format of the second data corresponding to each standard, setting the output format of the deep learning model as the format of the third data corresponding to each standard, and taking the deep learning model obtained through initialization as the first deep learning model.

A historical data acquisition step S432 corresponding to each criterion: and acquiring second data and third data of each identified object corresponding to each standard from historical big data. Historical big data refers to a large amount of historical data or data accumulated for a long time. The objects that have been identified include objects that have been identified as passing and objects that have been identified but have not been identified as passing. The third data may be a score or an evaluation result corresponding to each criterion or other numerical values reflecting the degree of the second data meeting each criterion.

And a second deep learning model generation step S433, in which second data of each identified object corresponding to each standard is used as input data of the first deep learning model, the first deep learning model is subjected to unsupervised training, and the first deep learning model obtained through unsupervised training is used as the second deep learning model.

And a third deep learning model generating step S434, using the second data and the third data of each identified object corresponding to each standard as the input data and the output data of the second deep learning model, respectively, and performing supervised training on the second deep learning model. The second data and the third data of each considered object corresponding to each criterion are respectively used as the input data and the output data of the second deep learning model, that is, the second data of each considered object corresponding to each criterion is used as the input data of the second deep learning model, the third data of each considered object corresponding to each criterion is used as the output data of the second deep learning model, and the second deep learning model obtained through supervised training is used as the third deep learning model.

A preset model setting step S435 corresponding to each standard: and taking the third deep learning model as a preset model corresponding to each standard.

And a third data generation step S440 corresponding to each standard, wherein the third data corresponding to each standard is obtained through calculation according to the second data corresponding to each standard and the preset model corresponding to each standard. Executing the preset model corresponding to each standard on a computer, taking the second data corresponding to each standard as the input of the preset model corresponding to each standard, and taking the calculated output as the third data corresponding to each standard. Preferably, the second data corresponding to each criterion is used as the input of the third deep learning model corresponding to each criterion, and the calculated output of the third deep learning model is used as the third data corresponding to each criterion. The third data may be a score or an evaluation result corresponding to each criterion or other numerical values reflecting the degree of the second data meeting each criterion.

And each standard judging step S450, judging whether the object to be determined meets each standard or not according to the third data and the preset range corresponding to each standard.

Each criterion determining step S450 includes a preset range acquiring step S451 corresponding to each criterion, and a third data determining step S452 corresponding to each criterion.

A preset range acquiring step S451 corresponding to each standard, acquiring a preset range corresponding to each standard. The preset ranges corresponding to different standards are different, some standards are hard standards, and have fixed ranges, and some standards are not hard standards, and the ranges are set from negative infinity to positive infinity. If a criterion is not a hard criterion, the result corresponding to this criterion is within the preset range. However, whether a criterion is a hard criterion or not will affect whether the object to be identified can be identified by identification, since it will affect the final overall score, and the overall criterion corresponding to the overall score will generally have a range, for example, greater than 80 points.

A third data judgment step S452 corresponding to each criterion is to judge whether the third data corresponding to each criterion is empty:

if yes, judging whether the preset range corresponding to each standard is from negative infinity to positive infinity: if yes, judging that the object to be identified meets each standard; if not, judging that the object to be determined does not accord with each standard;

otherwise: judging whether the third data corresponding to each standard is in a preset range corresponding to each standard: if yes, judging that the object to be identified meets each standard; and if not, judging that the object to be determined does not meet each standard.

A preset model obtaining step S460 corresponding to the overall standard: and acquiring a preset model corresponding to the overall standard. The preset model comprises a formula or an algorithm or a deep learning model.

When the preset model is a deep learning model, the step S460 of obtaining the preset model corresponding to the overall standard includes a step S461 of initializing the deep learning model corresponding to the overall standard, a step S462 of obtaining historical data corresponding to the overall standard, a step S463 of generating a fifth deep learning model, a step S464 of generating a sixth deep learning model, and a step S465 of setting the preset model corresponding to the overall standard:

and a deep learning model initialization step S461 corresponding to the overall standard, wherein the deep learning model corresponding to the overall standard is initialized, the input format of the deep learning model is set to be the format of the set of third data corresponding to each standard in the personalized qualification standard, the output format of the deep learning model is set to be the format of the third data corresponding to the overall standard, and the deep learning model obtained through initialization is used as a fourth deep learning model.

A history data acquisition step S462 corresponding to the overall standard: and acquiring a set of third data corresponding to each standard in the personalized identification standard of each object subjected to identification and third data corresponding to the overall standard from historical big data. The third data corresponding to each criterion may be a score or an evaluation result corresponding to each criterion or other numerical values reflecting the degree of the second data meeting each criterion. The third data corresponding to the overall standard may be a score or evaluation result corresponding to the overall standard or other numerical value reflecting the degree to which the third data corresponding to each standard meets the overall standard.

A fifth deep learning model generating step S463, in which the fourth deep learning model is unsupervised and trained, using a set of third data of each object, which is already certified and corresponds to each standard in the personalized certification standards, as input data of the deep learning model, and the fourth deep learning model obtained through unsupervised training is used as the fifth deep learning model.

And a sixth deep learning model generating step S464, of using the set of third data corresponding to each of the personalized qualification standards of each of the qualified subjects and the third data corresponding to the overall standard as input data and output data of the fifth deep learning model, and performing supervised training on the fifth deep learning model. The step of taking the set of the third data of each object subjected to qualification corresponding to each standard in the personalized qualification standards and the third data corresponding to the overall standard as the input data and the output data of the fifth deep learning model respectively means that the third data of each object subjected to qualification corresponding to each standard is taken as the input data of the fifth deep learning model, the third data of each object subjected to qualification corresponding to the overall standard is taken as the output data of the fifth deep learning model, and the fifth deep learning model obtained through supervised training is taken as the sixth deep learning model.

A step S465 of setting a preset model corresponding to the overall standard: and taking the sixth deep learning model as a preset model corresponding to the overall standard.

And a total standard judging step S470, judging whether the object to be determined meets the total standard according to the third data corresponding to each standard, the preset model corresponding to the total standard and the preset range.

The overall criterion judging step S470 includes a third data generating step S471 corresponding to the overall criterion, a preset range acquiring step S472 corresponding to the overall criterion, and a third data judging step S473 corresponding to the overall criterion.

And a third data generation step S471, in which third data corresponding to the overall standard is calculated according to the third data corresponding to each standard and the preset model corresponding to the overall standard to obtain the third data corresponding to the overall standard. And executing the preset model corresponding to each standard on a computer, taking the third data corresponding to each standard as the input of the preset model corresponding to the overall standard, and taking the calculated output as the third data corresponding to the overall standard. Preferably, the third data corresponding to each criterion is used as the input of the sixth deep learning model corresponding to the overall criterion, and the calculated output of the sixth deep learning model is used as the third data corresponding to the overall criterion. The third data corresponding to each criterion may be a score or an evaluation result corresponding to each criterion or other numerical values reflecting the degree of the second data meeting each criterion. The third data corresponding to the overall standard may be a score or evaluation result corresponding to the overall standard or other numerical value reflecting the degree to which the third data corresponding to each standard meets the overall standard. The degree may be a percentage, e.g., 0% to 100%, 0% indicating complete non-compliance, and 100% indicating complete compliance.

A preset range obtaining step S472 corresponding to the overall standard, obtaining a preset range corresponding to the overall standard. The overall score for the overall criteria will generally have a range, e.g., greater than 80 points.

A third data judgment step S473 corresponding to the overall standard, which is to judge whether the third data corresponding to the overall standard is in a preset range corresponding to the overall standard: if yes, judging that the object to be identified meets the overall standard; and if not, judging that the object to be determined does not meet the overall standard.

A comprehensive judgment step S480: judging whether the object to be identified meets each standard and the overall standard in the personalized identification standard: if so, judging that the object to be identified belongs to a preset category, namely, judging that the object to be identified passes identification as an identification result; and if not, judging that the object to be identified does not belong to the preset category, namely, the identified object does not pass the identification as a result. The compliance with each criterion and the overall criterion in the personalized approval criterion means that each criterion and the overall criterion in the personalized approval criterion are simultaneously complied with. And if a certain standard or the overall standard is not met, judging that the object to be identified does not belong to the preset category.

The steps can be executed on a big data platform such as Spark and the like to accelerate the speed of big data processing.

(II) the system in various embodiments of the invention includes various combinations of the following modules:

the personalized approval standard acquisition module 100 performs a personalized approval standard acquisition step S100.

The personalized qualification standard obtaining module 100 comprises an object type obtaining module 110 and a qualification standard obtaining module 120 corresponding to the object type.

The object type acquisition module 110 performs an object type acquisition step S110.

The approval-criterion obtaining module 120 performs an approval-criterion obtaining step S120 corresponding to the object type.

The object data acquisition module 200 executes the object data acquisition step S200.

The object data acquisition module 200 includes a data source acquisition module 210 and an object data retrieval module 220.

The data source acquisition module 210 performs a data source acquisition step S210.

The object data retrieving module 220 performs the object data retrieving step S220.

The data acquisition module 300 corresponding to the standard performs the data acquisition step S300 corresponding to the standard.

The standard corresponding data acquisition module 300 comprises a data screening module 310 and a data cleaning module 320.

The data filtering module 310 performs a data filtering step S310.

The data washing module 320 performs a data washing step S320.

The data cleaning module 320 includes a corresponding data source obtaining module 321, a reliability obtaining module 322, and a reliability selecting module 323.

The corresponding data source acquiring module 321 executes the corresponding data source acquiring step S321.

The reliability acquisition module 322 executes the reliability acquisition step S322.

The reliability selecting module 323 performs the reliability selecting step S323.

The certification judging module 400 performs a certification judging step S400.

The determination judging module 400 includes a sub-standard obtaining module 410, a corresponding data extracting module 420, a predetermined model obtaining module 430 corresponding to each standard, a criterion judging module 440, a predetermined model obtaining module 450 corresponding to the overall standard, an overall standard judging module 460, and a comprehensive judging module 470.

The sub-criterion acquisition module 410 performs the sub-criterion acquisition step S410.

The correspondence data extraction module 420 performs a correspondence data extraction step S420.

The preset model obtaining module 430 corresponding to each standard executes the preset model obtaining step S430 corresponding to each standard.

The preset model obtaining module 430 corresponding to each standard includes a deep learning model initializing module 431 corresponding to each standard, a historical data obtaining module 432 corresponding to each standard, a second deep learning model generating module 433, a third deep learning model generating module 434, and a preset deep learning model setting module 435 corresponding to each standard.

The deep learning model initialization module 431 corresponding to each criterion performs the deep learning model initialization step S431 corresponding to each criterion.

The historical data acquisition module 432 corresponding to each criterion performs the historical data acquisition step S432 corresponding to each criterion.

The second deep learning model generation module 433 executes a second deep learning model generation step S433.

The third deep learning model generation module 434 performs the third deep learning model generation step S434.

The preset deep learning model setting module 435 corresponding to each standard performs the preset model setting step S435 corresponding to each standard.

The third data generation module 440 corresponding to each item of standard performs the third data generation step S440 corresponding to each item of standard.

Each criterion judging module 450 performs each criterion judging step S450.

Each criterion judging module 450 includes a preset range acquiring module 451 corresponding to each criterion, and a third data judging module 452 corresponding to each criterion.

The preset range acquisition module 451 corresponding to each criterion performs the preset range acquisition step S451 corresponding to each criterion.

The third data determining module 452 corresponding to each criterion performs the third data determining step S452 corresponding to each criterion.

The preset model obtaining module 460 corresponding to the overall standard performs the preset model obtaining step S460 corresponding to the overall standard.

The preset model obtaining module 460 corresponding to the overall standard includes a deep learning model initializing module 461 corresponding to the overall standard, a historical data obtaining module 462 corresponding to the overall standard, a fifth deep learning model generating module 463, a sixth deep learning model generating module 464, and a preset model setting module 465 corresponding to the overall standard:

the ensemble-standard corresponding deep learning model initialization module 461 performs an ensemble-standard corresponding deep learning model initialization step S461.

The history data acquisition module 462 corresponding to the overall criterion performs the history data acquisition step S462 corresponding to the overall criterion.

The fifth deep learning model generation module 463 performs a fifth deep learning model generation step S463.

The sixth deep learning model generation module 464 performs a sixth deep learning model generation step S464.

The preset model setting module 465 corresponding to the overall standard executes the preset model setting step S465 corresponding to the overall standard.

The overall criterion judging module 470 performs the overall criterion judging step S470.

The overall criterion determining module 470 includes a third data generating module 471 corresponding to the overall criterion, a preset range obtaining module 472 corresponding to the overall criterion, and a third data determining module 473 corresponding to the overall criterion.

The third data generation module 471 corresponding to the overall criterion executes the third data generation step S471 corresponding to the overall criterion.

The preset range obtaining module 472 corresponding to the overall standard executes the preset range obtaining step S472 corresponding to the overall standard.

The third data judgment module 473 corresponding to the overall criterion performs the third data judgment step S473 corresponding to the overall criterion.

The comprehensive decision module 480 performs a comprehensive decision step S480.

The modules can be deployed on large data platforms such as Spark and the like to accelerate the speed of large data processing.

(III) several embodiments of the invention

Embodiment 1 provides a certification method, which includes a personalized certification standard acquisition step S100, an object data acquisition step S200, a standard corresponding data acquisition step S300, and a certification judgment step S400, as shown in fig. 1.

Embodiment 2 provides a validation process comprising the steps of the process described in embodiment 1; the object data acquiring step S200 includes a data source acquiring step S210 and an object data retrieving step S220, and the data acquiring step S300 corresponding to the standard includes a data screening step S310 and a data cleaning step S320.

Embodiment 3 provides a validation method comprising the steps of the method described in embodiment 1; the personalized approval standard obtaining step S100 includes an object type obtaining step S110 and an approval standard obtaining step S120 corresponding to the object type, as shown in fig. 2.

Embodiment 4 provides a method of identification comprising the steps of the method described in embodiment 2; the determination judging step S400 includes a sub-standard obtaining step S410, a corresponding data extracting step S420, a preset model obtaining step S430 corresponding to each standard, a third data generating step S440 corresponding to each standard, a judgment step S450 for each standard, a preset model obtaining step S460 corresponding to a total standard, a judgment step S470 for the total standard, and a comprehensive judgment step S480, as shown in fig. 3.

Embodiment 5 provides a method of identification comprising the steps of the method described in embodiment 4; the preset model obtaining step S430 corresponding to each standard includes a deep learning model initializing step S431 corresponding to each standard, a historical data obtaining step S432 corresponding to each standard, a second deep learning model generating step S433, a third deep learning model generating step S434, and a preset deep learning model setting step S435 corresponding to each standard, as shown in fig. 4; the preset model acquiring step S460 corresponding to the overall standard includes a deep learning model initializing step S461 corresponding to the overall standard, a historical data acquiring step S462 corresponding to the overall standard, a fifth deep learning model generating step S463, a sixth deep learning model generating step S464, and a preset model setting step S465 corresponding to the overall standard, as shown in fig. 5.

Embodiment 6 provides a method of identification comprising the steps of the method described in embodiment 4; each standard judging step S450 includes a preset range acquiring step S451 corresponding to each standard, and a third data judging step S452 corresponding to each standard; the overall criterion judging step S470 includes a third data generating step S471 corresponding to the overall criterion, a preset range acquiring step S472 corresponding to the overall criterion, and a third data judging step S473 corresponding to the overall criterion.

Embodiment 7 provides an approval system, which includes an individualized approval standard acquisition module 100, an object data acquisition module 200, a standard corresponding data acquisition module 300, and an approval judgment module 400, as shown in fig. 6.

Embodiment 8 provides a certification system comprising the steps of the system described in embodiment 7; the object data obtaining module 200 includes a data source obtaining module 210 and an object data retrieving S220, and the data obtaining module 300 corresponding to the standard includes a data screening module 310 and a data cleaning module 320.

Embodiment 9 provides a certification system comprising the steps of the system described in embodiment 7; the personalized qualification standard obtaining module 100 includes an object type obtaining module 110 and a qualification standard obtaining module 120 corresponding to the object type, as shown in fig. 7.

Embodiment 10 provides a certification system comprising the steps of the system described in embodiment 8; the determination and judgment module 400 includes a sub-standard obtaining module 410, a corresponding data extracting module 420, a preset model obtaining module 430 corresponding to each standard, a third data generating module 440 corresponding to each standard, each standard judging module 450, a preset model obtaining module 460 corresponding to the overall standard, an overall standard judging module 470, and a comprehensive judging module 480, as shown in fig. 8.

Embodiment 11 provides a certification system comprising the steps of the system described in embodiment 10; the preset model obtaining module 430 corresponding to each standard includes a deep learning model initializing module 431 corresponding to each standard, a historical data obtaining module 432 corresponding to each standard, a second deep learning model generating module 433, a third deep learning model generating module 434, and a preset deep learning model setting module 435 corresponding to each standard, as shown in fig. 9; the preset model obtaining module 460 corresponding to the overall standard includes a deep learning model initializing module 461 corresponding to the overall standard, a historical data obtaining module 462 corresponding to the overall standard, a fifth deep learning model generating module 463, a sixth deep learning model generating module 464, and a preset model setting module 465 corresponding to the overall standard, as shown in fig. 10.

Embodiment 12 provides a certification system comprising the steps of the system described in embodiment 10; each standard judging module 450 comprises a preset range obtaining module 451 corresponding to each standard and a third data judging module 452 corresponding to each standard; the overall criterion determining module 470 includes a third data generating module 471 corresponding to the overall criterion, a preset range obtaining module 472 corresponding to the overall criterion, and a third data determining module 473 corresponding to the overall criterion.

Embodiment 13 provides a robot system in which the certification systems as described in embodiments 7 to 12 are respectively arranged.

The methods and systems of the various embodiments described above may be performed and deployed on computers, servers, cloud servers, supercomputers, robots, embedded devices, electronic devices, and the like.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A method of qualification, the method comprising:

an individualized affirmation standard obtaining step, which is used for obtaining an individualized affirmation standard;

an object data acquisition step for acquiring data of an object to be identified;

a data acquisition step corresponding to a standard, which is used for acquiring data corresponding to the personalized identification standard from the data of the object to be identified;

a step of determining whether the data corresponding to the personalized qualification standard meets the personalized qualification standard;

the step of obtaining the personalized qualification standard comprises the following steps:

an object type obtaining step, which is used for obtaining the type of the object to be identified;

acquiring an identification standard corresponding to the type of the object, wherein the identification standard is used for acquiring the identification standard of a preset category corresponding to the type of the object to be identified and is used as an individualized identification standard of the object to be identified;

the personalized qualification standard is automatically generated by expert setting or based on big data and deep learning;

the data acquisition step corresponding to the standard comprises the following steps:

a data screening step, which is used for screening out data corresponding to the personalized identification standard from the data of the object to be identified as first data; acquiring a preset corresponding relation between data types and various standards in data sources, acquiring data corresponding to each data source from the data of the object, and retrieving data related to the standard corresponding to each data source from the data corresponding to each data source;

a comprehensive judgment step: judging whether the object to be identified meets each standard and the overall standard in the personalized identification standard: if so, judging that the object to be identified belongs to a preset category, namely, judging that the object to be identified passes identification as an identification result; if not, judging that the object to be identified does not belong to the preset category, namely, judging that the object to be identified does not pass the identification as the identification result; the condition that each standard and the overall standard in the personalized qualification standards are met simultaneously means that each standard and the overall standard in the personalized qualification standards are met simultaneously; and if a certain standard or the overall standard is not met, judging that the object to be identified does not belong to the preset category.

2. The identification method according to claim 1,

the object data acquiring step includes:

a data source obtaining step for obtaining a data source;

an object data retrieval step, which is used for retrieving and acquiring the data of the object to be identified from the data source;

the data acquisition step corresponding to the standard comprises the following steps:

and a data cleaning step, which is used for extracting data corresponding to each standard from the first data as second data corresponding to each standard.

3. The identification method according to claim 1,

the step of obtaining the personalized qualification standard comprises the following steps:

the type of the object to be identified includes an industry type, a research and development type, a scale type if the object to be identified is an enterprise, and an occupation type, a competence type if the object to be identified is a person.

4. The identification method according to claim 2,

the step of affirming and judging comprises the following steps:

a sub-standard obtaining step, which is used for obtaining each standard and the general standard in the personalized affirmation standard;

a corresponding data extracting step, configured to extract the second data corresponding to each criterion from the first data;

a preset model obtaining step corresponding to each standard, which is used for obtaining a preset model corresponding to each standard;

a third data generation step corresponding to each standard, wherein the third data generation step is used for calculating to obtain third data corresponding to each standard according to the second data corresponding to each standard and the preset model corresponding to each standard;

each standard judging step is used for judging whether the object to be identified meets each standard or not according to third data and a preset range corresponding to each standard;

a preset model obtaining step corresponding to the overall standard, which is used for obtaining a preset model corresponding to the overall standard;

a total standard judging step, configured to judge whether the object to be identified meets the total standard according to the third data corresponding to each standard, a preset model corresponding to the total standard, and a preset range;

and a comprehensive judgment step for judging whether the object to be identified meets each standard and the overall standard in the personalized identification standard.

5. The identification method according to claim 4,

the preset model acquisition step corresponding to each standard comprises the following steps:

a deep learning model initialization step corresponding to each standard, which is used for initializing the deep learning model corresponding to each standard as a first deep learning model;

a historical data acquisition step corresponding to each standard, which is used for acquiring the second data and the third data of each identified object corresponding to each standard from historical big data;

a second deep learning model generation step of performing unsupervised training on the first deep learning model by using the second data of each identified object corresponding to each standard as input data of the first deep learning model, and using the obtained first deep learning model as a second deep learning model;

a third deep learning model generation step, configured to use the second data and the third data of each identified object corresponding to each criterion as input data and output data of the second deep learning model, respectively, perform supervised training on the second deep learning model, and use the obtained second deep learning model as a third deep learning model;

a preset model setting step corresponding to each standard, which is used for taking the third deep learning model as a preset model corresponding to each standard;

the step of obtaining the preset model corresponding to the overall standard comprises the following steps:

a deep learning model initialization step corresponding to an overall standard, which is used for initializing the deep learning model corresponding to the overall standard, and taking the obtained deep learning model as a fourth deep learning model;

a historical data acquisition step corresponding to an overall standard, which is used for acquiring a set of third data corresponding to each standard in the personalized identification standard of each identified object and third data corresponding to the overall standard from historical big data;

a fifth deep learning model generation step, configured to use the set of the third data of each object that has been subjected to identification and corresponds to each standard in the personalized identification standards as input data of the deep learning model, perform unsupervised training on the fourth deep learning model, and use the obtained fourth deep learning model as a fifth deep learning model;

a sixth deep learning model generation step of respectively using the set of the third data corresponding to each criterion in the personalized determination criteria of each object that has been determined and the third data corresponding to the overall criterion as input data and output data of the fifth deep learning model, performing supervised training on the fifth deep learning model, and using the obtained fifth deep learning model as a sixth deep learning model;

and a preset model setting step corresponding to the overall standard, wherein the preset model setting step is used for taking the sixth deep learning model as a preset model corresponding to the overall standard.

6. The identification method according to claim 4,

each standard judging step comprises the following steps:

a preset range acquisition step corresponding to each standard, which is used for acquiring the preset range corresponding to each standard;

a third data judgment step corresponding to each standard, which is used for judging whether the object to be identified meets each standard or not;

the overall standard judging step comprises the following steps:

a third data generation step corresponding to the overall standard, configured to calculate third data corresponding to the overall standard according to the third data corresponding to each standard and the preset model corresponding to the overall standard;

a preset range acquisition step corresponding to the overall standard, which is used for acquiring the preset range corresponding to the overall standard;

and a third data judgment step corresponding to the overall standard, which is used for judging whether the object to be identified meets the overall standard.

7. An identification system, the system comprising:

the personalized qualification standard obtaining model is used for obtaining a personalized qualification standard;

the object data acquisition module is used for acquiring data of an object to be identified;

the data acquisition module corresponding to the standard is used for acquiring data corresponding to the personalized identification standard from the data of the object to be identified;

the identification judging module is used for judging whether the data corresponding to the personalized identification standard meets the personalized identification standard or not;

the personalized qualification standard obtaining module comprises:

the object type acquisition module is used for acquiring the type of the object to be identified;

the identification standard acquisition module corresponding to the object type is used for acquiring the identification standard of a preset category corresponding to the type of the object to be identified, and the identification standard is used as the personalized identification standard of the object to be identified;

the personalized qualification standard is automatically generated by expert setting or based on big data and deep learning;

the data acquisition module corresponding to the standard comprises:

the data screening module is used for screening out data corresponding to the personalized identification standard from the data of the object to be identified as first data; acquiring a preset corresponding relation between data types and various standards in data sources, acquiring data corresponding to each data source from the data of the object, and retrieving data related to the standard corresponding to each data source from the data corresponding to each data source;

a comprehensive judgment module: judging whether the object to be identified meets each standard and the overall standard in the personalized identification standard: if so, judging that the object to be identified belongs to a preset category, namely, judging that the object to be identified passes identification as an identification result; if not, judging that the object to be identified does not belong to the preset category, namely, judging that the object to be identified does not pass the identification as the identification result; the condition that each standard and the overall standard in the personalized qualification standards are met simultaneously means that each standard and the overall standard in the personalized qualification standards are met simultaneously; and if a certain standard or the overall standard is not met, judging that the object to be identified does not belong to the preset category.

8. The qualification system of claim 7,

the personalized qualification standard obtaining module comprises:

if the object to be identified is a person, the type of the object to be identified comprises an occupation type and a capability type;

the object data acquisition module includes:

the data source acquisition module is used for acquiring a data source;

the object data retrieval module is used for retrieving and acquiring the data of the object to be identified from the data source;

the data acquisition module corresponding to the standard comprises:

and the data cleaning module is used for extracting data corresponding to each standard from the first data as second data corresponding to each standard.

9. The qualification system of claim 8,

the affirmation judging module comprises:

the sub-standard acquisition module is used for acquiring each standard and the overall standard in the personalized identification standard;

a corresponding data extraction module, configured to extract the second data corresponding to each criterion from the first data;

the preset model acquisition module corresponding to each standard is used for acquiring a preset model corresponding to each standard;

the third data generation module corresponding to each standard is used for calculating to obtain third data corresponding to each standard according to the second data corresponding to each standard and the preset model corresponding to each standard;

each standard judging module is used for judging whether the object to be identified meets each standard or not according to third data and a preset range corresponding to each standard;

the preset model acquisition module corresponding to the overall standard is used for acquiring a preset model corresponding to the overall standard;

the overall standard judging module is used for judging whether the object to be identified meets the overall standard or not according to the third data corresponding to each standard, the preset model corresponding to the overall standard and the preset range;

and the comprehensive judgment module is used for judging whether the object to be identified meets each standard and the overall standard in the personalized identification standard.

10. A robot system, characterized in that the robot is provided with a certification system according to any one of claims 7 to 9, respectively.

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