CN115828219A - Intelligent seal management and control method and system - Google Patents

Abstract

The invention discloses a control method and a control system of an intelligent stamp, which relate to the field of data processing, wherein the method comprises the following steps: setting seal management parameters based on the safety management requirements of the seal; generating a usage monitoring instruction based on the request verification parameter; calling a monitoring process, and carrying out image monitoring on the request user and the stamped document through image acquisition equipment to obtain a monitoring image set for use; obtaining a feature matching result based on the monitoring features; and generating seal execution information when the characteristic matching result meets the requirement of the use monitoring parameters. The technical problems that the management and control accuracy of the using process of the seal in the prior art is not enough, the comprehensiveness is not high, and then the management and control effect of the using process of the seal is poor and the using safety of the seal is low are solved. Accuracy and comprehensiveness of management and control are carried out to the use process of the seal are improved, management and control quality of the use process of the seal is improved, and technical effects of use safety of the seal are improved.

Description

Intelligent seal management and control method and system

The technical field is as follows:

the invention relates to the field of data processing, in particular to a management and control method and a management and control system for an intelligent seal.

Background art:

the traditional seal management and control mode is to monitor the seal using process through manual work. However, manual supervision is involved, situations such as inadvertent negligence in the seal using process, illegitimate committing for personal gains and the like inevitably occur, so that documents which are not stamped are used for printing, and great seal using risks are brought to enterprises or individuals. How to effectively manage and control the seal using process is widely concerned by people.

Among the prior art, there are not enough, the wholeness is not high to the management and control accuracy of the use of seal, and then causes the not good technical problem of the use security low of the poor, the seal of management and control effect of the use of seal.

The invention content is as follows:

the application provides a management and control method and system of a smart seal. The technical problems that the management and control accuracy of the using process of the seal in the prior art is not enough, the comprehensiveness is not high, and then the management and control effect of the using process of the seal is poor and the using safety of the seal is low are solved. Accuracy and comprehensiveness of management and control are carried out to the use process of the seal are improved, management and control quality of the use process of the seal is improved, and technical effects of use safety of the seal are improved.

In view of the above problems, the present application provides a method and a system for controlling a smart stamp.

In a first aspect, the present application provides a method for managing and controlling a smart stamp, where the method is applied to a system for managing and controlling a smart stamp, and the method includes: analyzing the use safety of the seal, determining the use risk influence degree of each seal, and setting the safety management requirement of each seal based on the use risk influence degree; setting seal management parameters based on the safety management requirements of the seal, wherein the seal management parameters comprise a request verification parameter and a use monitoring parameter; verifying the seal using request based on the request verification parameters, and generating a using monitoring instruction according to the seal using request passing the verification of the using monitoring parameters; calling a monitoring process according to the use monitoring instruction, and carrying out image monitoring on a request user and a stamped document through image acquisition equipment based on the monitoring process to obtain a use monitoring image set; determining monitoring characteristics according to the monitoring process, and respectively performing characteristic traversal analysis on the monitoring image set based on the monitoring characteristics to obtain a characteristic matching result; and generating seal execution information when the characteristic matching result meets the requirement of the use monitoring parameters, wherein the seal execution information is used for opening seal control operation authority for a requesting user.

In a second aspect, the present application further provides a management and control system for a smart stamp, wherein the system includes: the security analysis module is used for analyzing the use security of the seal, determining the use risk influence degree of each seal, and setting the security management requirement of each seal based on the use risk influence degree; the seal management system comprises a parameter setting module, a seal management module and a seal management module, wherein the parameter setting module is used for setting seal management parameters based on the safety management requirements of a seal, and the seal management parameters comprise a request verification parameter and a use monitoring parameter; the verification module is used for verifying the seal use request based on the request verification parameter and generating a use monitoring instruction according to the seal use request passing the verification of the use monitoring parameter; the image monitoring module is used for calling a monitoring process according to the use monitoring instruction, and carrying out image monitoring on a request user and a stamped document through image acquisition equipment based on the monitoring process to obtain a use monitoring image set; the characteristic analysis module is used for determining monitoring characteristics according to the monitoring process, and respectively performing characteristic traversal analysis on the monitoring image set based on the monitoring characteristics to obtain a characteristic matching result; and the execution information generation module is used for generating seal execution information when the characteristic matching result meets the requirement of using monitoring parameters, and the seal execution information is used for opening seal control operation authority for a requesting user.

In a third aspect, the present application further provides an electronic device, including: a memory for storing executable instructions; and the processor is used for realizing the intelligent seal control method provided by the application when executing the executable instructions stored in the memory.

In a fourth aspect, the present application further provides a computer-readable storage medium, which stores a computer program, and when the computer program is executed by a processor, the computer program implements the method for managing and controlling a smart stamp provided in the present application.

One or more technical solutions provided in the present application have at least the following technical effects or advantages:

the using safety analysis is carried out on the seal, the using risk influence degree of each seal is determined, and the safety management requirement of each seal is set based on the using risk influence degree; obtaining seal management parameters according to the safety management requirements of the seal; verifying the seal use request through the request verification parameter, and generating a use monitoring instruction according to the seal use request passing the verification of the use monitoring parameter; calling a monitoring process according to the use monitoring instruction, and carrying out image monitoring on the request user and the stamped document through image acquisition equipment to obtain a use monitoring image set; determining monitoring characteristics according to the monitoring process, and respectively performing characteristic traversal analysis on the monitoring image set based on the monitoring characteristics to obtain a characteristic matching result; and generating seal execution information when the characteristic matching result meets the requirement of the use monitoring parameters. Accuracy, comprehensiveness that the improvement carries out the management and control to the use of seal have been reached, improve the management and control quality of the use of seal, improve the technological effect of the safety in utilization of seal.

The foregoing description is only an overview of the technical solutions of the present application, and the present application can be implemented according to the content of the description in order to make the technical means of the present application more clearly understood, and the following detailed description of the present application is given in order to make the above and other objects, features, and advantages of the present application more clearly understandable.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic flow chart illustrating a method for controlling a smart stamp according to the present application;

FIG. 2 is a schematic diagram illustrating a process of verifying a seal usage request in a method for managing and controlling a smart seal according to the present application;

FIG. 3 is a schematic structural diagram of a smart stamp management and control system according to the present application;

fig. 4 is a schematic structural diagram of an exemplary electronic device of the present application.

Description of reference numerals: the system comprises a security analysis module 11, a parameter setting module 12, a verification module 13, an image monitoring module 14, a characteristic analysis module 15, an execution information generation module 16, a processor 31, a memory 32, an input device 33 and an output device 34.

Detailed Description

The application provides a management and control method and a management and control system for an intelligent stamp. The problem of among the prior art to the management and control accuracy of the use of seal not enough, the comprehensiveness is not high, and then cause the management and control effect of the use of seal not good, the technique that the safety in utilization of seal is low is solved.

In order to make the objects, technical solutions and advantages of the technical solutions of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the drawings of the specific embodiments of the present invention. Like reference numerals in the drawings denote like elements. It should be noted that the described embodiments are part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the invention without any inventive step, are within the scope of protection of the invention.

Example one

Referring to fig. 1, the present application provides a method for managing and controlling a smart stamp, wherein the method is applied to a system for managing and controlling a smart stamp, and the method specifically includes the following steps:

step S100: analyzing the use safety of the seal, determining the use risk influence degree of each seal, and setting the safety management requirement of each seal based on the use risk influence degree;

further, step S100 of the present application further includes:

step S110: obtaining seal type information and seal use range information;

step S120: constructing a seal use record database based on the seal type information and the seal use range information;

step S130: extracting seal risk events from the seal use record database, and carrying out multi-dimensional influence degree analysis on embezzlement frequency, influence range and influence result according to seal risk event record information to obtain multi-dimensional risk influence degree;

step S140: calculating the using risk influence degree according to the stealing frequency, the influence range, the preset weight value of the influence result and the multidimensional risk influence degree;

step S150: and setting a safety management level according to the using risk influence degree, and setting the safety management requirement of the seal based on the safety management level.

Specifically, historical data is inquired based on seal type information and seal use range information, and a seal use record database is obtained. The seal type information comprises a plurality of seal type parameters such as an invoice special seal, a sales contract seal, a business special seal, a customs declaration special seal and a date seal. The seal use range information comprises the corresponding use and use range of each seal type parameter in the seal type information. For example, the stamp use range information corresponding to the sales contract stamp includes a sales contract signed on behalf of a company. The seal use record database comprises a plurality of historical seal use events corresponding to each seal type parameter in the seal type information.

Further, extracting seal risk events based on a seal use record database to obtain seal risk event record information, and carrying out multi-dimensional influence degree analysis on the seal risk event record information on embezzlement frequency, influence range and influence result to obtain multi-dimensional risk influence degree. The seal risk event recording information comprises a plurality of seal risk events. The plurality of seal risk events comprise a plurality of historical seal using events which occur in a seal using record database and are used for seal embezzlement. The multi-dimensional risk influence degree comprises a frequency risk influence degree, a range risk influence degree and a result risk influence degree. And classifying and counting a plurality of seal risk events in the seal risk event record information according to the seal type information to obtain the frequency risk influence degree. The frequency risk impact magnitude comprises a plurality of frequency risk impact magnitude parameters. Each frequency risk influence degree parameter comprises the total times of a plurality of seal risk events corresponding to each seal type parameter. The range risk impact includes a plurality of range risk impact parameters. The plurality of range risk influence degree parameters comprise a plurality of seal use range risks corresponding to the plurality of frequency risk influence degree parameters. The larger the frequency risk influence degree parameter is, the higher the seal use range risk of the seal use range information corresponding to the frequency risk influence degree parameter is. The outcome risk impact comprises a plurality of outcome risk impact parameters. The plurality of result risk influence parameters include a plurality of seal embezzlement history influences caused by the plurality of frequency risk influence parameters. The larger the influence of the history of seal embezzlement caused by the frequency risk influence degree parameter is, the higher the corresponding result risk influence degree parameter is. The multiple frequency risk influence degree parameters, the multiple range risk influence degree parameters, the multiple result risk influence degree parameters and the multiple seal type parameters have corresponding relations.

Further, a preset weight value is set based on the stealing frequency, the influence range and the influence result. The preset weight value comprises a preset and determined stealing frequency weight parameter, an influence range weight parameter and an influence result weight parameter. And further, carrying out weighted calculation on the multidimensional risk influence degree according to a preset weight value to obtain the use risk influence degree. The use risk influence degree comprises a plurality of use risk influence degree parameters corresponding to a plurality of seal type parameters. Illustratively, when obtaining a plurality of usage risk influence parameters, the frequency risk influence parameter, the range risk influence parameter, and the result risk influence parameter corresponding to the same seal type parameter are multiplied by the corresponding stealing frequency weight parameter, the influence range weight parameter, and the influence result weight parameter, so as to obtain a stealing frequency calculation value, an influence range calculation value, and an influence result calculation value. And outputting the sum of the stealing frequency calculation value, the influence range calculation value and the influence result calculation value as a use risk influence degree parameter. The theft frequency calculation value includes a product between a frequency risk impact parameter and a theft frequency weight parameter. The impact range calculation value includes a product between a range risk impact parameter and an impact range weight parameter. The impact result calculation value includes a product between an impact result weight parameter and an impact result risk influence parameter.

And further, setting safety management levels for the multiple seal type parameters according to the influence degree of the use risk. And setting safety management requirements corresponding to a plurality of seal type parameters through big data query based on the safety management level. The security management level comprises a plurality of security management level parameters corresponding to a plurality of seal type parameters. A plurality of usage risk influencing volume parameters may be set to a plurality of security management level parameters. The safety management requirement comprises a plurality of safety management requirement information corresponding to a plurality of seal type parameters. For example, when the security management level parameter corresponding to the seal type parameter a is higher, the security management requirement information corresponding to the seal type parameter a includes that the seal corresponding to the seal type parameter a cannot be carried out for use, if special conditions occur, the seal corresponding to the seal type parameter a must be carried out for use, the seal is taken by a person responsible for seal keeping, and the seal must be recovered and kept immediately after use.

The seal safety analysis method has the advantages that the use safety analysis is carried out on the seals with the plurality of seal type parameters, the use risk influence degrees corresponding to the plurality of seal type parameters are determined, the safety management requirements corresponding to the plurality of seal type parameters are set according to the use risk influence degrees, and the technical effects of comprehensiveness, accuracy and reasonability of management and control on the use process of the seals are improved.

Step S200: setting seal management parameters based on the safety management requirements of the seal, wherein the seal management parameters comprise a request verification parameter and a use monitoring parameter;

step S300: verifying the seal use request based on the request verification parameter, and generating a use monitoring instruction according to the seal use request passing the verification of the use monitoring parameter;

further, as shown in fig. 2, step S300 of the present application further includes:

step S310: obtaining user information of a seal use request;

step S320: carrying out authority verification on the user information, and after the user information passes the authority verification, carrying out level matching according to the user authority and the request verification parameter to determine an authority level matching parameter;

step S330: and generating a verification instruction to verify the seal use request based on the permission level matching parameters.

Specifically, seal management parameters are set based on security management requirements. The seal management parameters comprise a request authentication parameter and a use monitoring parameter. Further, after a seal use request sent by a user is received, the seal use request is verified according to the request verification parameters. The method comprises the steps of carrying out authority verification on user information of a seal use request, and after the authority verification, carrying out level matching according to user authority and request verification parameters to obtain authority level matching parameters. And generating a verification instruction to verify the seal use request according to the permission level matching parameters. And when the seal use request passes the verification, obtaining the use monitoring parameters and generating a use monitoring instruction. The request authentication parameter is data information used for performing authority authentication on a seal use request sent by a user. The seal use request comprises seal document information, a request seal type parameter and user information. The user information includes user rights. The user authority comprises seal use authority information of a request user corresponding to the seal document information. The permission level matching parameters comprise user permission, request verification parameters and the matching relation between the user permission and the request verification parameters. The higher the user authority, the more complex the corresponding request authentication parameters. The verification instruction is instruction information used for verifying the seal use request. The usage monitoring parameters comprise a seal usage request passing verification. The usage monitoring instruction is instruction information used for carrying out image monitoring on a request user and a stamped document corresponding to the verified stamp usage request. The seal use request is verified through the request verification parameters, and the use monitoring instruction is generated adaptively, so that the technical effect of improving the use safety of the seal is achieved.

Further, step S200 of the present application further includes:

step S210: when the seal management parameters comprise the mandatory marking parameters, determining the information of the stamped document according to the seal use request;

step S220: performing semantic analysis according to the stamped document information, determining the document type, and obtaining a document mandatory marking requirement, wherein the document mandatory marking requirement comprises marking position information, format conversion and synonym replacement;

step S230: marking the stamped document information based on the document mandatory marking requirement;

step S240: and capturing the image of the marked stamped document to obtain stamped document image information, and performing associated storage on the stamped document image information and the stamp use request to construct a stamp use management library.

Specifically, when the stamp management parameter includes the compulsory marking parameter, the stamp document information is extracted from the stamp use request. And carrying out semantic analysis on the stamped document information, determining the document type and obtaining the document mandatory marking requirement. The document mandatory tag requirements include tag location information, format conversion, synonym replacement. And marking the stamped document information according to the document forced marking requirement to obtain a stamped document after marking. And acquiring an image of the marked stamped document, acquiring image information of the stamped document, and storing the image information of the stamped document and the stamp use request in a stamp use management library in a correlation manner. The mandatory marking parameter is used for marking the stamped document information according to the document mandatory marking requirement. The document type comprises a document type parameter corresponding to the stamped document information. The stamped document image information includes image data information corresponding to the stamped document after marking. The seal use management library comprises seal document image information and a seal use request. The technical effect that the stamped document information is marked according to the document forced marking requirement to obtain the stamped document image information is achieved, and therefore the comprehensive technical effect of managing and controlling the use process of the stamp is improved.

Further, step S240 of the present application further includes:

step S241: using the stamping document information to perform stamping document comparison in the stamp use management library, and determining the stamping document overlapping rate and the stamping request time;

step S242: determining overlapped stamped documents based on the stamped document repetition rate;

step S243: when the overlapped stamped documents exist, generating a temporary locking instruction, wherein the temporary locking instruction is used for temporarily locking the information of the current stamped documents;

step S244: obtaining a document interval period based on the stamping request time, and performing event collaborative analysis on the overlapped stamping documents by using the document interval period;

step S245: and when the interval period of the overlapped stamped document and the document conforms to the event cooperative relationship, generating an unlocking instruction, wherein the unlocking instruction is used for canceling the temporary locking instruction.

Specifically, the stamp use management library includes a plurality of historical stamp document image information and a plurality of historical stamp use requests. The plurality of history stamp document image information and the plurality of history stamp use requests have a corresponding relationship. And comparing the stamping document image information corresponding to the stamping document information with a plurality of historical stamping document image information in the stamp use management library to obtain the stamping document overlapping rate and the stamping request time. Wherein the stamped document overlap ratio comprises a ratio between the number of overlapped documents and the total number of the plurality of historical stamped document image information. When the history stamp document image information in the stamp use management library is the same as or similar to the stamp document image information, the history stamp document image information belongs to the overlapped document.

Further, matching the image information of the plurality of historical stamped documents in the stamp use management library based on the stamping document repetition rate to obtain overlapped stamped documents. When the overlapped stamped document exists, a temporary locking instruction is generated. And the temporary locking instruction is used for temporarily locking the current stamped document information corresponding to the stamped document image information. And then, acquiring a document interval period based on the stamping request time, performing event collaborative analysis on the document interval period and the overlapped stamped documents, and generating an unlocking instruction when the overlapped stamped documents and the document interval period accord with an event collaborative relationship, wherein the unlocking instruction is used for canceling the temporary locking instruction. The stamping request time comprises time point information of a stamp use request corresponding to the stamping document image information. The overlapped stamped documents comprise historical stamped document image information corresponding to the stamped document repetition rate. The document interval period includes time difference information between the stamping request time and the historical time point information of the historical stamp use request corresponding to the overlapped stamping document. Illustratively, when the overlapped stamped document and the document interval period indicate that the stamped document information and the overlapped stamped document do not belong to the same time point, the overlapped stamped document and the document interval period conform to an event collaborative relationship. The technical effects that the stamp document information is compared and analyzed through the stamp use management library, the temporary locking instruction and the unlocking instruction are generated adaptively, so that repeated stamping is avoided, and the management and control accuracy of the use process of the stamp is improved are achieved.

Further, step S240 of the present application further includes:

step S246: acquiring an image of a requesting user through image acquisition equipment to obtain a user use monitoring image;

step S247: determining use monitoring acquisition interval time and user acquisition picture requirements according to the safety management requirements of the seal, wherein the use monitoring acquisition interval time and the user acquisition picture requirements have the same-direction growth relationship with the safety management requirements of the seal;

step S248: and generating an image acquisition instruction according to the use monitoring acquisition interval time and the user acquisition picture requirement, acquiring the use monitoring image of the requesting user, establishing a mapping relation among the use monitoring acquisition interval time, the user acquisition picture requirement, the stamped document image information and the stamp use request, and storing the mapping relation into the stamp use management library.

Specifically, the request seal type parameters are matched based on the security management requirements, and request security management requirement information is obtained. The request security management requirement information comprises security management requirement information corresponding to the request seal type parameter. And analyzing the use monitoring parameters of the request safety management requirement information to obtain the use monitoring acquisition interval time and the user acquisition picture requirement. The usage monitoring acquisition interval comprises preset monitoring interval information corresponding to the request seal type parameters. The user acquisition picture requirements comprise a preset user acquisition picture definition corresponding to the required seal type parameter, a preset user acquisition picture action requirement and a preset user acquisition facial expression requirement. And the monitoring and collecting interval time, the requirement of the user for collecting the picture and the requirement of the safety management of the seal have the same growth relationship. That is, the stricter the information required for requesting security management is, the shorter the corresponding usage monitoring acquisition interval time is, and the higher the monitoring acquisition frequency is; the more the corresponding user needs to collect the picture.

Further, an image capture instruction is generated based on the usage monitoring capture interval time, the user capture frame requirements. And according to the image acquisition instruction, acquiring the use monitoring image of the requesting user through the image acquisition equipment to obtain the user use monitoring image. And establishing a mapping relation among the use monitoring acquisition interval time, the user acquisition picture requirement, the stamped document image information and the stamp use request, and storing the user use monitoring image into the stamp use management library according to the mapping relation. Wherein the image acquisition instruction comprises the requirements of using monitoring acquisition interval time and acquiring pictures by a user. The mapping relation comprises a matching relation among the usage monitoring acquisition interval time, the user acquisition picture requirement, the stamped document image information and the stamp use request. The user uses the monitoring image to acquire the monitoring image according to the image acquisition instruction, and the acquired image data information is obtained. The technical effects of determining the use monitoring acquisition interval time and the user acquisition picture requirement according to the safety management requirement of the seal are achieved, and accordingly the reliability and the adaptability of using monitoring image acquisition for a requesting user are improved.

Further, step S240 of the present application further includes:

step S249: classifying the seal use record data in the seal use management library according to the seal type as a primary classification characteristic, the request user as a secondary classification characteristic and the seal use time as a tertiary classification characteristic to construct a multi-level classification library;

step S2410: generating a primary verification code according to the characteristic information of the primary classification library;

step S2411: generating a secondary verification code according to the characteristic information of the secondary classification library and the primary verification code;

step S2412: generating a third-level verification code according to the characteristic information of the third-level classification library and the second-level verification code;

step S2413: and performing distributed storage on the seal use record data of each level in the seal use management library based on the first-level verification code, the second-level verification code and the third-level verification code.

Specifically, the seal type is set as a primary classification characteristic, the requesting user is set as a secondary classification characteristic, and the seal service time is set as a tertiary classification characteristic. Classifying the seal use management library according to the first-level classification characteristic, the second-level classification characteristic and the third-level classification characteristic to obtain a multi-level classification library. The multi-level classification library comprises a primary classification library, a secondary classification library and a tertiary classification library. The primary classification library comprises a plurality of data information corresponding to the seal types in the seal use management library. The secondary classification library comprises a plurality of data information corresponding to the request user in the seal use management library. The third class library comprises a plurality of data information corresponding to the seal use time in the seal use management library. Further, a primary verification code is generated based on data information in the primary classification library by using the existing data encryption technology. And generating a secondary verification code based on the data information and the primary verification code in the secondary classification library. And generating a third-level verification code according to the data information and the second-level verification code in the third-level classification library. And performing distributed storage on the data information in the seal use management library according to the first-level verification code, the second-level verification code and the third-level verification code. The primary verification code comprises encrypted information corresponding to the primary classification library. The second-level verification code comprises a second-level classification library and encryption information corresponding to the first-level verification code. The third-level verification code comprises a third-level classification library and encryption information corresponding to the second-level verification code. The technical effects that distributed storage is carried out on data information in the seal use management library, the information safety of the seal use management library is improved, and the comprehensiveness of management and control on the use process of the seal is improved are achieved.

Step S400: calling a monitoring process according to the use monitoring instruction, and carrying out image monitoring on a request user and a stamped document through image acquisition equipment based on the monitoring process to obtain a use monitoring image set;

step S500: determining monitoring characteristics according to the monitoring process, and respectively performing characteristic traversal analysis on the monitoring image set based on the monitoring characteristics to obtain a characteristic matching result;

step S600: and generating seal execution information when the characteristic matching result meets the requirement of the use monitoring parameters, wherein the seal execution information is used for opening seal control operation authority for a requesting user.

Specifically, after the usage monitoring instruction is obtained, based on the monitoring process, the image acquisition device performs image monitoring on the request user and the stamped document to obtain a usage monitoring image set. And further, respectively carrying out feature traversal analysis on the monitoring image set according to the monitoring features to obtain a feature matching result. And judging whether the feature matching result meets the requirement of using the monitoring parameter. And when the characteristic matching result meets the requirement of the use monitoring parameters, seal execution information is obtained, and the seal execution information is data information used for opening seal control operation authority for the requesting user. The monitoring process comprises a plurality of pieces of preset monitoring time point information. The usage monitoring image set comprises user usage monitoring images and stamped document monitoring images. The stamped document monitoring image comprises stamped document image information. The monitoring characteristics comprise preset user monitoring element information and preset stamping document monitoring element information corresponding to each preset monitoring time point information. The feature matching results include using a matching relationship between the monitoring image set and the monitoring features. The usage monitoring parameter requirements comprise usage monitoring acquisition interval time and user acquisition picture requirements. The technical effects that the characteristic traversal analysis is respectively carried out on the use monitoring image set through the monitoring characteristics, the characteristic matching result is obtained, whether the characteristic matching result meets the use monitoring parameter requirement or not is judged, and the seal execution information is generated adaptively, so that the control quality of the use process of the seal is improved, and the use safety of the seal is improved are achieved.

In summary, the intelligent stamp management and control method provided by the application has the following technical effects:

1. the method comprises the steps of determining the use risk influence degree of each seal by analyzing the use safety of the seal, and setting the safety management requirement of each seal based on the use risk influence degree; acquiring seal management parameters according to the safety management requirements of the seal; verifying the seal use request through the request verification parameter, and generating a use monitoring instruction according to the seal use request passing the verification of the use monitoring parameter; calling a monitoring process according to the use monitoring instruction, and carrying out image monitoring on the request user and the stamped document through image acquisition equipment to obtain a use monitoring image set; determining monitoring characteristics according to the monitoring process, and respectively performing characteristic traversal analysis on the monitoring image set based on the monitoring characteristics to obtain a characteristic matching result; and generating seal execution information when the characteristic matching result meets the requirement of the use monitoring parameters. Accuracy and comprehensiveness of management and control are carried out to the use process of the seal are improved, management and control quality of the use process of the seal is improved, and technical effects of use safety of the seal are improved.

2. Through the seal to a plurality of seal kind parameters use the security analysis, confirm the use risk influence degree that a plurality of seal kind parameters correspond to according to use risk influence degree and set up the safety control requirement that a plurality of seal kind parameters correspond, thereby improve and carry out comprehensive, accuracy, the rationality of management and control to the use of seal.

3. The stamp use management library is used for comparing and analyzing stamp document information, and a temporary locking instruction and an unlocking instruction are generated adaptively, so that repeated stamping is avoided, and the management and control accuracy of the use process of the stamp is improved.

Example two

Based on the same inventive concept as the aforementioned embodiment, the present invention further provides a system for controlling a smart stamp, referring to fig. 3, wherein the system includes:

the security analysis module 11 is used for analyzing the use security of the seal, determining the use risk influence degree of each seal, and setting the security management requirement of each seal based on the use risk influence degree;

the seal management system comprises a parameter setting module 12, a seal management module 12 and a seal management module, wherein the parameter setting module 12 is used for setting seal management parameters based on the safety management requirements of a seal, and the seal management parameters comprise a request verification parameter and a use monitoring parameter;

the verification module 13 is configured to verify the seal use request based on the request verification parameter, and generate a use monitoring instruction according to the seal use request passing the verification based on the use monitoring parameter;

the image monitoring module 14 is configured to invoke a monitoring process according to the usage monitoring instruction, and based on the monitoring process, perform image monitoring on a requesting user and a stamped document through an image acquisition device to obtain a usage monitoring image set;

the feature analysis module 15 is configured to determine monitoring features according to the monitoring process, and perform feature traversal analysis on the monitoring image sets based on the monitoring features to obtain feature matching results;

an execution information generating module 16, where the execution information generating module 16 is configured to generate seal execution information when the feature matching result meets a requirement of a usage monitoring parameter, where the seal execution information is used to open a seal control operation authority for a requesting user.

Further, the system further comprises:

the seal information acquisition module is used for acquiring seal type information and seal use range information;

the usage record database construction module is used for constructing a seal usage record database based on the seal type information and the seal usage range information;

the multidimensional risk influence degree obtaining module is used for extracting a seal risk event from the seal use record database, and carrying out steal frequency, influence range and multidimensional influence degree analysis on an influence result according to seal risk event record information to obtain multidimensional risk influence degree;

the using risk influence degree determining module is used for calculating the using risk influence degree according to the stealing frequency, the influence range, the preset weight value of the influence result and the multidimensional risk influence degree;

and the safety management requirement determining module is used for setting a safety management level according to the use risk influence degree and setting the safety management requirement of the seal based on the safety management level.

Further, the system further comprises:

the seal management module is used for managing seal management parameters, and the seal management parameters comprise a mandatory mark parameter;

the semantic analysis module is used for performing semantic analysis according to the stamped document information, determining the document type and obtaining a document mandatory marking requirement, wherein the document mandatory marking requirement comprises marking position information, format conversion and synonym replacement;

a marking module for marking the stamped document information based on the document mandatory marking requirement;

and the associated storage module is used for capturing the image of the marked stamping document, acquiring the image information of the stamping document, and performing associated storage on the image information of the stamping document and the seal use request to construct a seal use management library.

Further, the system further comprises:

the document comparison module is used for comparing the stamped documents in the stamp use management library by utilizing the stamped document information and determining the stamped document overlapping rate and the stamping request time;

an overlap stamped document determination module to determine an overlap stamped document based on the stamped document repetition rate;

a temporary locking instruction generating module, configured to generate a temporary locking instruction when the overlapped stamped documents exist, where the temporary locking instruction is used to temporarily lock information of a current stamped document;

the collaborative analysis module is used for obtaining a document interval period based on the stamping request time and carrying out event collaborative analysis by utilizing the document interval period and the overlapped stamping document;

and the unlocking instruction generating module is used for generating an unlocking instruction when the interval period of the overlapped stamped documents and the document accords with the event cooperative relationship, and the unlocking instruction is used for canceling the temporary locking instruction.

Further, the system further comprises:

the user usage monitoring image obtaining module is used for carrying out image acquisition on a request user through image acquisition equipment to obtain a user usage monitoring image;

the first execution module is used for determining the use monitoring acquisition interval time and the user acquisition picture requirement according to the safety management requirement of the seal, wherein the use monitoring acquisition interval time and the user acquisition picture requirement have the same growth relation with the safety management requirement of the seal;

and the second execution module is used for generating an image acquisition instruction according to the use monitoring acquisition interval time and the user acquisition picture requirement, acquiring the use monitoring image of the requesting user, establishing a mapping relation among the use monitoring acquisition interval time, the user acquisition picture requirement, the stamped document image information and the stamp use request, and storing the mapping relation into the stamp use management library.

Further, the system further comprises:

the third execution module is used for classifying the seal use record data in the seal use management library according to the primary classification characteristic of the seal type, the secondary classification characteristic of a request user and the tertiary classification characteristic of the seal use time to construct a multi-level classification library;

the primary verification code generation module is used for generating a primary verification code according to the characteristic information of the primary classification library;

the second-level verification code generation module is used for generating a second-level verification code according to the feature information of the second-level classification library and the first-level verification code;

the third-level verification code generation module is used for generating a third-level verification code according to the feature information of the third-level classification library and the second-level verification code;

and the distributed storage module is used for carrying out distributed storage on the seal use record data of each level in the seal use management library based on the primary verification code, the secondary verification code and the tertiary verification code.

Further, the system further comprises:

the user information determining module is used for obtaining user information of the seal use request;

the level matching module is used for carrying out authority verification on the user information, and after the authority verification is passed, carrying out level matching according to the user authority and the request verification parameters to determine authority level matching parameters;

and the fourth execution module is used for generating a verification instruction to verify the seal use request based on the permission level matching parameter.

The intelligent stamp management and control system provided by the embodiment of the invention can execute the intelligent stamp management and control method provided by any embodiment of the invention, and has corresponding functional modules and beneficial effects of the execution method.

Each included module is only divided according to functional logic, but is not limited to the division, as long as the corresponding function can be realized; in addition, the specific names of the functional modules are only for convenience of distinguishing from each other and are not used for limiting the protection scope of the present invention.

EXAMPLE III

Fig. 4 is a schematic structural diagram of an electronic device provided in the third embodiment of the present invention, and shows a block diagram of an exemplary electronic device suitable for implementing the embodiment of the present invention. The electronic device shown in fig. 4 is only an example, and should not bring any limitation to the functions and the scope of use of the embodiments of the present invention. As shown in fig. 4, the electronic device includes a processor 31, a memory 32, an input device 33, and an output device 34; the number of the processors 31 in the electronic device may be one or more, one processor 31 is taken as an example in fig. 4, the processor 31, the memory 32, the input device 33 and the output device 34 in the electronic device may be connected by a bus or in other ways, and the connection by the bus is taken as an example in fig. 4.

The memory 32 is a computer-readable storage medium, and can be used for storing software programs, computer-executable programs, and modules, such as program instructions/modules corresponding to a method for managing and controlling a smart stamp in an embodiment of the present invention. The processor 31 executes various functional applications and data processing of the computer device by running software programs, instructions and modules stored in the memory 32, so as to implement the above-mentioned method for managing and controlling a smart stamp.

The application provides a smart seal management and control method, wherein the method is applied to a smart seal management and control system, and comprises the following steps: the using safety analysis is carried out on the seal, the using risk influence degree of each seal is determined, and the safety management requirement of each seal is set based on the using risk influence degree; acquiring seal management parameters according to the safety management requirements of the seal; verifying the seal use request through the request verification parameter, and generating a use monitoring instruction according to the seal use request passing the verification of the use monitoring parameter; calling a monitoring process according to the use monitoring instruction, and carrying out image monitoring on the request user and the stamped document through image acquisition equipment to obtain a use monitoring image set; determining monitoring characteristics according to the monitoring process, and respectively performing characteristic traversal analysis on the monitoring image set based on the monitoring characteristics to obtain a characteristic matching result; and generating seal execution information when the characteristic matching result meets the requirement of the use monitoring parameters. The technical problems that the management and control accuracy of the using process of the seal in the prior art is not enough, the comprehensiveness is not high, and then the management and control effect of the using process of the seal is poor and the using safety of the seal is low are solved. Accuracy and comprehensiveness of management and control are carried out to the use process of the seal are improved, management and control quality of the use process of the seal is improved, and technical effects of use safety of the seal are improved.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. A control method of a smart stamp is characterized by comprising the following steps:

analyzing the use safety of the seal, determining the use risk influence degree of each seal, and setting the safety management requirement of each seal based on the use risk influence degree;

setting seal management parameters based on the safety management requirements of the seal, wherein the seal management parameters comprise a request verification parameter and a use monitoring parameter;

verifying the seal use request based on the request verification parameter, and generating a use monitoring instruction according to the seal use request passing the verification of the use monitoring parameter;

calling a monitoring process according to the use monitoring instruction, and carrying out image monitoring on a request user and a stamped document through image acquisition equipment based on the monitoring process to obtain a use monitoring image set;

determining monitoring characteristics according to the monitoring process, and respectively performing characteristic traversal analysis on the monitoring image set based on the monitoring characteristics to obtain a characteristic matching result;

and generating seal execution information when the characteristic matching result meets the requirement of the use monitoring parameters, wherein the seal execution information is used for opening seal control operation authority for a requesting user.

2. The method of claim 1, wherein the analyzing the usage security of the stamp, determining the usage risk influence degree of each stamp, and setting the security management requirements of each stamp based on the usage risk influence degree comprises:

obtaining seal type information and seal use range information;

constructing a seal use record database based on the seal type information and the seal use range information;

extracting seal risk events from the seal use record database, and carrying out multi-dimensional influence degree analysis on embezzlement frequency, influence range and influence result according to seal risk event record information to obtain multi-dimensional risk influence degree;

calculating the using risk influence degree according to the stealing frequency, the influence range, the preset weight value of the influence result and the multidimensional risk influence degree;

and setting a safety management level according to the using risk influence degree, and setting the safety management requirement of the seal based on the safety management level.

3. The method of claim 1, wherein the method further comprises:

when the seal management parameters comprise the mandatory marking parameters, determining the information of the stamped document according to the seal use request;

performing semantic analysis according to the stamped document information, determining the document type, and obtaining a document mandatory marking requirement, wherein the document mandatory marking requirement comprises marking position information, format conversion and synonym replacement;

marking the stamped document information based on the document mandatory marking requirement;

and capturing the image of the marked stamped document to obtain stamped document image information, and performing associated storage on the stamped document image information and the stamp use request to construct a stamp use management library.

4. The method of claim 3, further comprising:

using the stamping document information to perform stamping document comparison in the stamp use management library, and determining the stamping document overlapping rate and the stamping request time;

determining overlapped stamped documents based on the stamped document repetition rate;

when the overlapped stamped documents exist, generating a temporary locking instruction, wherein the temporary locking instruction is used for temporarily locking the information of the current stamped documents;

obtaining a document interval period based on the stamping request time, and performing event collaborative analysis on the overlapped stamping documents by using the document interval period;

and when the interval period of the overlapped stamped document and the document conforms to the event cooperative relationship, generating an unlocking instruction, wherein the unlocking instruction is used for canceling the temporary locking instruction.

5. The method of claim 3, wherein the method further comprises:

acquiring an image of a requesting user through image acquisition equipment to obtain a user use monitoring image;

determining use monitoring acquisition interval time and user acquisition picture requirements according to the safety management requirements of the seal, wherein the use monitoring acquisition interval time and the user acquisition picture requirements have the same-direction growth relationship with the safety management requirements of the seal;

and generating an image acquisition instruction according to the use monitoring acquisition interval time and the user acquisition picture requirement, acquiring the use monitoring image of the requesting user, establishing a mapping relation among the use monitoring acquisition interval time, the user acquisition picture requirement, the stamped document image information and the stamp use request, and storing the mapping relation into the stamp use management library.

6. The method of claim 5, wherein the method further comprises:

classifying the seal use record data in the seal use management library according to the seal type as a primary classification characteristic, the request user as a secondary classification characteristic and the seal use time as a tertiary classification characteristic to construct a multi-level classification library;

generating a primary verification code according to the characteristic information of the primary classification library;

generating a secondary verification code according to the characteristic information of the secondary classification library and the primary verification code;

generating a third-level verification code according to the characteristic information of the third-level classification library and the second-level verification code;

and performing distributed storage on the seal use record data of each level in the seal use management library based on the first-level verification code, the second-level verification code and the third-level verification code.

7. The method of claim 1, wherein authenticating the seal-use request based on the request-authentication parameters comprises:

obtaining user information of a seal use request;

the user information is subjected to authority verification, and after the authority verification is passed, level matching is carried out according to the user authority and the request verification parameters, so that authority level matching parameters are determined;

and generating a verification instruction to verify the seal use request based on the permission level matching parameters.

8. The utility model provides a management and control system of wisdom seal, its characterized in that, the system includes:

the security analysis module is used for analyzing the use security of the seal, determining the influence degree of the use risk of each seal, and setting the security management requirement of each seal based on the influence degree of the use risk;

the seal management system comprises a parameter setting module, a seal management module and a seal management module, wherein the parameter setting module is used for setting seal management parameters based on the safety management requirements of a seal, and the seal management parameters comprise a request verification parameter and a use monitoring parameter;

the verification module is used for verifying the seal use request based on the request verification parameter and generating a use monitoring instruction according to the seal use request passing the verification of the use monitoring parameter;

the image monitoring module is used for calling a monitoring process according to the use monitoring instruction, and carrying out image monitoring on a request user and a stamped document through image acquisition equipment based on the monitoring process to obtain a use monitoring image set;

the characteristic analysis module is used for determining monitoring characteristics according to the monitoring process, and respectively performing characteristic traversal analysis on the monitoring image set based on the monitoring characteristics to obtain a characteristic matching result;

and the execution information generation module is used for generating seal execution information when the characteristic matching result meets the requirement of using monitoring parameters, and the seal execution information is used for opening seal control operation permission for a requesting user.

9. An electronic device, characterized in that the electronic device comprises:

a memory for storing executable instructions;

a processor, configured to execute the executable instructions stored in the memory, and implement the method for managing and controlling a smart stamp according to any one of claims 1 to 7.

10. A computer-readable medium, on which a computer program is stored, wherein the program, when executed by a processor, implements a method for managing a smart stamp according to any one of claims 1 to 7.

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