CN114358643A - Multimedia content wind control management device and management method - Google Patents

Abstract

The invention discloses a multimedia content wind control management device and a management method, which realize the flexible management of risk disposal by carrying out risk identification on video content and adopting a scene risk identification disposal arrangement method, and realize the flexible distribution management of the same capability of a plurality of manufacturers by a risk identification capability distribution method of the plurality of manufacturers. The video content publishing platform is designed, so that the non-compliant content such as yellow-related, political-related, violence-related and fraud-related contents can be timely found and handled, the video content publishing platform is also suitable for files in the forms of texts, images, pictures and texts and audio, and the video content publishing platform relates to network disks, social communication, news platforms, reading platforms, video platforms, microblogs, public numbers, enterprise and public network sites and the like.

Description

Multimedia content wind control management device and management method

Technical Field

The invention relates to the technical field of multimedia information content risk control, in particular to a multimedia content wind control management device and a multimedia content wind control management method.

Background

With the development of internet technology, more and more channels for individuals to obtain information are generated, certain wrong consciousness forms are propagated through the internet, clear network ecology is constructed for positive implementation, internet content safety becomes the key point of national and social attention, so that the requirements on directionality, sensitivity and risk prevention and control capacity of national policies in the aspect of content wind control are higher, some similar content wind control platforms appear in the current market, corresponding products can be flexibly selected and used in the aspect of content risk detection basic capacity, and the following problems still exist: the risk identification capability in risk management and control is basic capability, but the identification capability range and effect of each product are different, and the risk is too high when the identification capability of a single family is used; the second problem is that different business scenarios are different in risk management and control mechanisms, multiple handling strategies are often required to be configured in the same scenario, and the conflict problem often occurs due to frequent adjustment, and is difficult to find manually.

Disclosure of Invention

The technical purpose is as follows: in order to solve the technical problems, the invention discloses a multimedia content wind control management device and a management method, which can get rid of excessive dependence on a single manufacturer with the bottom risk identification capability and solve the problem of configuration and disposal strategy conflict in a service scene.

The technical scheme is as follows: in order to achieve the technical purpose, the invention adopts the following technical scheme:

a multimedia content pneumatic management apparatus, comprising: the system comprises a scene acquisition module, a disposal rule checking module, a disposal rule adjusting module, a scene disposal arrangement result issuing module, a manufacturer and share acquisition module, a manufacturer distribution calculation module, a message identification module and a message disposal module;

the scene acquisition module is used for acquiring scene information used by a current user;

the processing rule obtaining module is used for obtaining processing rule information under the current scene;

the treatment rule checking module is used for checking whether the danger level and the treatment priority under the same identification capability number are reasonable or not;

a processing rule adjusting module, configured to adjust the processing rule for the configuration error;

the issued scene processing and arranging result module is used for issuing the processing and arranging combined information after the verification is passed and storing the information into the message processing module;

the factory and share acquisition module is used for acquiring the factory providing the specified capability and share information thereof in the current scene;

the factory allocation calculation module is used for allocating the message processing quantity according to the set factory share;

the message identification module is used for identifying the danger level of the content of the message body;

and the message handling module is used for processing the message according to the scene arrangement rule.

Preferably, the scene information in the scene acquisition module of the present invention includes a scene number, a scene name, a scene summary, and a user number; a user adds a scene name and a scene summary by himself through a PC end system page, a user number and a scene number are automatically generated by the system, data are stored in a database, and a plurality of scenes exist.

Preferentially, the disposal rules in the disposal rule obtaining module comprise a scene number, an identification capability name, an identification capability number and a danger level, wherein the identification capability name comprises an identification capability type and a doubtful degree, the identification capability type comprises normal, yellow-involved, fraud-involved, political-involved, storm-involved, gambling-involved, black fingerprint, white fingerprint, black list and white list, and the doubtful degree is high, medium and low; the treatment action includes: a treatment number, a treatment name, and a treatment priority, wherein the treatment name includes: intercepting blackening, intercepting not sending to be audited, intercepting sending to be audited and releasing, wherein the treatment priority is increased progressively from 1 according to Arabic numbers, 1 represents the lowest priority, a user carries out treatment rule maintenance through a PC (personal computer) end, and specific information is registered in a database.

Preferably, the information acquired by the manufacturer and the share acquisition module thereof includes a scene number, an identification capability number, a manufacturer name, and a share.

The management method based on the multimedia content wind control management device comprises a wind control disposal arrangement verification method and specifically comprises the following steps:

s1, obtaining user scene information, wherein the scene information comprises: scene number, scene name, scene summary, user number;

s2, acquiring a latest identification capability and disposal action complete list according to the scene information, and inquiring a plurality of pieces of added identification capability information and disposal action combinations thereof in a database through scene numbers;

s3, comprehensively calculating a verification reasonable value, and in order to ensure whether the combination of the multiple pieces of identification capability information and the handling actions thereof is unreasonable, respectively verifying the collision conditions of high, medium and low suspiciousness and handling actions of the involved yellow, involved fraud, involved administration, involved storm and involved gambling, and ensuring that the danger level and the handling priority are reasonable.

And S4, deleting unreasonable information, then carrying out comprehensive calculation again until all the unreasonable information is reasonable, obtaining a disposal arrangement number according to the risk level of the configuration error item and the disposal priority obtained by checking in the step S3, and deleting the disposal arrangement number. The remaining disposal arrangement information is subjected to comprehensive calculation to check the reasonable value according to step S3.

Preferably, the manifest information acquired in step S2 of the present invention includes: the system comprises a scene number, an identification capability name, an identification capability number and a danger level, wherein the identification capability name comprises an identification capability type and a doubtful degree, the identification capability type comprises yellow-related, fraud-related, political-related, storm-related, gambling-related, black fingerprints, white fingerprints, black lists and white lists, and the doubtful degree is high, medium and low; the treatment action includes: a treatment number, a treatment name, and a treatment priority, wherein the treatment name includes: intercepting blackening, intercepting not to send an audit, intercepting to send an audit and releasing, wherein the treatment priority is increased progressively from 1 according to Arabic numbers, and 1 represents the lowest priority;

acquiring the latest identification capability and disposal action complete list refers to the combination of identification capability information and disposal actions, such as normal-release, yellow-related-high suspected-interception blackening, yellow-related-medium suspected-interception submission and the like, to form disposal and arrangement combination information, and the method comprises the following steps: scene number, disposal arrangement number, identification capability name, danger level, disposal number, disposal name, disposal priority.

Preferably, the step S3 of the present invention includes the following steps:

s31, defining x as a danger level, wherein the larger the numerical value is, the higher the danger level is;

s32, defining y = f (x) as a treatment level, wherein the larger the y value is, the higher the treatment priority is;

s33, calculating f '(x), and when f' (x) > =0, configuring correctly; when f' (x) <0, the configuration is wrong.

Preferably, the multimedia content wind control management method of the present invention further comprises a multi-manufacturer identification processing scheduling method, and the specific steps are as follows:

s10, acquiring manufacturers and share information thereof, wherein the manufacturers and the share information thereof comprise: scene number, identification capability number, manufacturer name, and share;

s20, calculating the manufacturer capacity used by the current message; the judgment of one identification capability realizes that a plurality of manufacturers exist, and each scene distributes the message processing quantity according to the share after configuring the share proportion of different manufacturers;

and S30, identifying the message according to the manufacturer capability, and calling the manufacturer identification capability judgment through the manufacturer acquired in the step S20.

Preferably, the specific process of calculating which vendor capability the current message uses in step S20 of the present invention is as follows:

s201, defining the serial number of a currently selected manufacturer as currentInde, and setting an initial value as-1; defining the share of the manufacturer as the weight of the manufacturer; defining the currently selected factory share as the current weight currentWeight;

s202, judging whether a manufacturer provides corresponding judgment capability or not according to the identification capability name required in the message request, if not, returning error information, and if detecting that the manufacturer provides the corresponding judgment capability, continuing to perform the next step;

s203, judging whether currentIndex is equal to-1, if yes, selecting the manufacturer with the largest share, wherein currentIndex = the serial number of the manufacturer with the largest weight, and scheduling the current round is finished; if the judgment result is negative, continuing;

s204, dividing the currently total number of the manufacturers by the currently used manufacturer serial number currentIndex to judge whether the obtained result is greater than 0, if so, selecting the current manufacturer, and ending the scheduling; if the judgment is no, continuing;

s205, the current weight currentWeight = the weight of the current manufacturer-the maximum common divisor gcdWeight, the maximum common divisor gcdWeight means the maximum common divisor obtained by comparing the weights of all manufacturers in the system except the current manufacturer in pairs, then the maximum maxWeight is selected from the maximum common divisor, whether the current weight is less than or equal to zero is judged, and if the result is false, the step S207 is directly skipped to; if the result is true, continuing;

s206, assigning the maximum weight to the current weight, currentWeight = maxWeight, judging whether the current weight is equal to zero, and if the result is true, returning error information; if false, the next step;

s207, obtain the next manufacturer serial number, currentIndex = the next manufacturer serial number, and repeat step S202 to loop until the entire manufacturer list is traversed.

Has the advantages that: due to the adoption of the technical scheme, the invention has the following technical effects:

1) the system adopts a wind-controlled disposal arrangement verification technology, and can verify the rationality of disposal rule configuration in time;

2) the system adopts a multi-manufacturer identification processing scheduling method, and can regulate and control the reasonable use proportion of different algorithms of different manufacturers;

3) the system provides a module matched with the wind control management identification processing flow, and adapts to different service requirements;

4) the method is suitable for timely discovering and disposing of the non-compliant content of the content publishing platforms such as the network disk, the social communication, the news platform, the reading platform, the video platform, the microblog, the public number, the enterprise website and the like.

Drawings

FIG. 1 is a flow chart of a wind-controlled disposition arrangement verification according to the present invention;

FIG. 2 is a flow chart of a multiple vendor identification process scheduling method in accordance with the present invention;

fig. 3 is a system structure diagram of a multimedia content wind management device according to the present invention.

Detailed Description

The invention provides a multimedia content wind control management device and a management method, which comprise a multimedia content wind control management system, a wind control disposal arrangement verification method and a multimedia multi-manufacturer identification processing scheduling method.

Is a flow chart of the wind control disposal arrangement verification method. The method comprises the following steps: FIG. 1

S1, obtaining user scene information, wherein the scene information comprises: scene number, scene name, scene summary, user number.

In this embodiment, acquiring the user scene information refers to acquiring a scene number;

the method comprises the following specific steps: the corresponding registered scene list is inquired in the database through the user number, the scene number and the scene name are obtained, the scene number is multiple, a specific scene name is selected by a foreground page, and the specific unique scene number is correspondingly positioned.

S2, acquiring a latest identification capability and treatment action complete list according to scene information, wherein the list information comprises: the system comprises a scene number, an identification capability name, an identification capability number and a danger level, wherein the identification capability name comprises an identification capability type and a doubtful degree, the identification capability type comprises yellow-related, fraud-related, political-related, storm-related, gambling-related, black fingerprints, white fingerprints, black lists and white lists, and the doubtful degree is high, medium and low; the treatment action includes: a treatment number, a treatment name, and a treatment priority, wherein the treatment name includes: intercepting blackening, intercepting not sending to be examined, intercepting sending to be examined and releasing, wherein the treatment priority is increased progressively from 1 according to Arabic numerals, and 1 represents the lowest priority.

In this embodiment, acquiring the latest identification capability and disposal action complete list refers to a combination of identification capability information and a disposal action, such as normal-release, yellow-related-high suspected-interception blackening, yellow-related-medium suspected-interception review, and the like, to form disposal arrangement combination information, which includes: scene number, disposal arrangement number, identification capability name, danger level, disposal number, disposal name, disposal priority.

The method comprises the following specific steps: and inquiring the corresponding added multiple pieces of identification capability information and the handling action combination thereof in the database through the scene number.

S3, comprehensively calculating a check reasonable value

In order to ensure whether the combination of multiple pieces of identification capability information and their handling actions is unreasonable, the collision between the high, medium and low suspicion degrees of concerning yellow, concerning fraud, concerning government, concerning violence and concerning gambling and the handling actions needs to be checked respectively to ensure the reasonable danger level and the handling priority. The checking method for each scene is similar but different, for example, the method for checking the rationality of the risk level and the treatment priority of the information related to yellow is specifically as follows:

s31, defining x as a danger level, wherein the larger the numerical value is, the higher the danger level is;

s32, defining y = f (x) as a treatment level, wherein the larger the y value is, the higher the treatment priority is;

s33, calculating f '(x), and when f' (x) > =0, configuring correctly; when f' (x) <0, the configuration is wrong.

And S4, deleting unreasonable information and then carrying out comprehensive calculation again until the information is completely reasonable.

In this embodiment, the disposal organization number is obtained according to the risk level of the configuration error item and the disposal priority verified in step S3, and is deleted. The remaining disposal arrangement information is subjected to comprehensive calculation to check the reasonable value according to step S3.

Is a flow chart of a multi-manufacturer identification processing scheduling method. The method comprises the following steps: in addition, a method for identifying, processing and scheduling multiple manufacturers is also provided, fig. 2

S10, acquiring manufacturers and share information thereof, wherein the manufacturers and the share information thereof comprise: scene number, identification capability number, manufacturer number (labeled sequentially with arabic numerals), manufacturer name, and share (labeled with arabic numerals). For example: scenario 1 has 2 manufacturers: manufacturer A and manufacturer B, respectively, have the numbers 1 and 2, and the portions 2 and 3 (respectively, 40% and 60% by scale).

In this embodiment, the obtaining of the manufacturer and the share information thereof means obtaining a manufacturer number and a share, and obtaining the manufacturer number and the share from the memory database according to the scene number.

S20, calculating the factory capacity used by the current message, judging the identification capacity to realize that a plurality of factories exist, such as yellow-related identification capacity, and distributing the message processing quantity strictly according to the share after configuring the share proportion of different factories in each scene.

The method for calculating which manufacturer capability the current message uses is as follows:

s201, defining the serial number of a currently selected manufacturer as currentInde, and setting an initial value as-1; defining the share of the manufacturer as the weight of the manufacturer; defining the currently selected factory share as the current weight currentWeight;

s202, judging whether a manufacturer provides corresponding judgment capability or not according to the identification capability name required in the message request, if not, returning error information, and if detecting that the manufacturer provides the corresponding judgment capability, continuing to perform the next step;

s203, judging whether currentIndex is equal to-1, if yes, selecting the manufacturer with the largest share, wherein currentIndex = the serial number of the manufacturer with the largest weight, and scheduling the current round is finished; if the judgment result is negative, continuing;

s204, dividing the number of the current total manufacturer by the serial number (currentIndex) of the manufacturer used last time, judging whether the obtained result is greater than 0, if so, selecting the current manufacturer, and ending the scheduling; if the judgment is no, continuing;

s205, the current weight currentWeight = the weight of the current manufacturer-the maximum common divisor (gcdWeight), wherein the maximum common divisor (gcdWeight) refers to the maximum common divisor obtained by comparing the weights of all manufacturers in the system in pairs except the current manufacturer, and then selects the maximum value (maxWeight) from the maximum common divisor; judging whether the current weight is less than or equal to zero, and if the current weight is less than or equal to zero, directly jumping to the step S207; if the result is true, continuing;

s206, assigning the maximum weight to the current weight, currentWeight = maxWeight, judging whether the current weight is equal to zero, and if the result is true, returning error information; if false, the next step;

s207, obtain the next manufacturer serial number, currentIndex = the next manufacturer serial number, and repeat step S202 to loop until the entire manufacturer list is traversed.

S30, identifying information according to the manufacturer capability

In this embodiment, the manufacturer obtained in the above step S20 calls the manufacturer identification capability judgment, such as the yellow-related identification capability.

In addition, a system for the wind control management of the multimedia content is also provided.

Fig. 3 is a schematic structural diagram of a multimedia content pneumatic control management device. The system comprises a scene acquisition module 1000, a disposal rule acquisition module 2000, a disposal rule check module 3000, a disposal rule adjustment module 4000, a scene disposition arrangement result issuing module 5000, a manufacturer and share acquisition module 6000, a manufacturer distribution calculation module 7000, a message identification module 8000 and a message disposal module 9000.

The scene acquiring module 1000 is configured to acquire scene information used by a current user. The scene information includes a scene number, a scene name, a scene summary, and a user number. A user adds a scene name and a scene summary by himself through a PC end system page, a user number and a scene number are automatically generated by the system, data are stored in a database, and a plurality of scenes exist.

In this embodiment, the user selects a specific scene name at the PC, and the system may obtain the scene number value from the database according to the scene name or directly obtain the scene number value according to the scene number element hidden at the PC.

The treatment rule obtaining module 2000 is configured to obtain treatment rule information in a current scenario. The handling rules comprise a scene number, an identification capability name, an identification capability number and a danger level, wherein the identification capability name consists of an identification capability type and a doubtful degree, the identification capability type comprises normal, yellow-related, fraud-related, political, storm-related, gambling-related, black fingerprints, white fingerprints, a black list and a white list, and the doubtful degree is high, medium and low; the treatment action includes: a treatment number, a treatment name, and a treatment priority, wherein the treatment name includes: intercepting blackening, intercepting not sending to be audited, intercepting sending to be audited and releasing, wherein the treatment priority is increased progressively from 1 according to Arabic numbers, 1 represents the lowest priority, a user carries out treatment rule maintenance through a PC (personal computer) end, and specific information is registered in a database.

In this embodiment, acquiring the latest recognition capability and treatment action list refers to the combination of the recognition capability information and the treatment actions, and forms treatment arrangement combination information including a scene number, a treatment arrangement number, a recognition capability name, a risk level, a treatment number, a treatment name, and a treatment priority. The interception blackening, interception non-submission, interception submission and release priorities are 4, 3, 2 and 1 in sequence. And inquiring a corresponding disposal arrangement combined information list in a database through the scene number and the identification capability number of the current operation every time the PC side data is added, modified or deleted.

The disposal rule checking module 3000 is configured to check whether the risk level and the disposal priority are reasonable under the same identification capability number. For example: concerning the conflict condition of 4 treatment rules, namely high suspected-interception non-submission, medium suspected-interception blackening, high suspected-interception submission and low suspected-interception submission.

In this embodiment, through the wind-controlled disposal arrangement verification method S3, the information in the disposal rule list is verified one by one, and the information of the verification configuration error is obtained. The specific method comprises the following steps:

s31, defining x as a danger level, wherein the larger the numerical value is, the higher the danger level is;

s32, defining y = f (x) as a treatment level, wherein the larger the y value is, the higher the treatment priority is;

s33, calculating f '(x), and when f' (x) > =0, configuring correctly; when f' (x) <0, the configuration is wrong.

A disposition rule adjusting module 4000, configured to adjust the disposition rule of the configuration error. The user deletes or adjusts the relationship between the risk level and the disposal priority through the PC, sends the adjusted data to the database, calls the disposal rule obtaining module 2000, obtains disposal rule information in the current scene in a new round, and checks whether the risk level and the disposal priority under the same identification capability number are reasonable.

And the issued scene processing arrangement result module 5000 is configured to issue the processing arrangement combination information and store the issued processing arrangement combination information into the message processing module after the verification passes.

In this embodiment, the information to be delivered includes a scene number, a disposal arrangement number, an identification capability name, a risk level, a disposal number, a disposal name, and a disposal priority, an http protocol or a grpc protocol is used in the delivery process, and a message handling module is used as a receiving party and stored in a distributed cache database, for example: redis.

The manufacturer and share obtaining module 6000 is configured to obtain information of manufacturers and shares of manufacturers providing the specified capability in the current scene, where the information specifically includes a scene number, an identification capability number, a manufacturer number (sequentially labeled with arabic numerals), a manufacturer name, and a share (labeled with arabic numerals). For example: scenario 1 has 2 manufacturers: manufacturer A and manufacturer B, respectively, have the numbers 1 and 2, and the portions 2 and 3 (respectively, 40% and 60% by scale). Maintained by a user through a PC terminal, information is stored in a relational database and a distributed cache database, for example: redis. And when the information changes, the relational database and the distributed cache database change simultaneously, and the data storage type of the distributed cache database is list.

In this embodiment, the obtaining of the manufacturer and the share information thereof means obtaining a manufacturer number and a share, and obtaining the manufacturer number and the share from the distributed cache database according to the scene number and the identification capability number transmitted by the message, so as to improve the query speed.

And a factory allocation calculation module 7000 for allocating the message processing amount according to the predetermined factory share. For example: the yellow identification capability of 3 manufacturers is respectively 20%, 30% and 50%, the message is requested for 100 times per second, and the messages need to be distributed according to the specified limit within 1 second.

In this embodiment, the identification capability corresponding to which manufacturer is used by the current message is obtained by calculation through the S20 method, and the specific information is formed to include a scene number, an identification capability number, and a manufacturer label.

Message identification module 8000, for identifying a risk level for the message body content, for example: and identifying the yellow-related danger level of the current picture.

In this embodiment, the message information includes a message number, message body content, scene number, and identification capability number, where the message body content includes message text information, image base64, video base64, message md5 value, message sha1 value, message sha256 value, message file name, message format, message uploader, and message recipient. The message is sent to the corresponding capability of the manufacturer for identification through an http protocol or a grpc protocol, the identification feedback information comprises a message number, an identification capability number and a danger level, and the identification feedback information is combined with the original message to form a new message packet body.

And a message handling module 9000, configured to process the message according to the scene arrangement rule. For example: and configuring a piece of information related to yellow-high suspected-interception non-submission according to the scene layout rule, and if the information identification conclusion is related to yellow-high suspected, carrying out interception non-submission on the information.

In this embodiment, according to the message number, the identification capability number, and the risk level attached to the message, a corresponding handling action in the distributed cache database is queried, a specific operation is executed according to the queried action, and the current message flow is ended; if the corresponding handling action is not found, the next recognition capability flow processing is performed to execute the manufacturer and the share obtaining module 6000, which represents that the current message is normal under the recognition capability.

The invention discloses a multimedia content wind control management device and a management method, which can get rid of excessive dependence on a single manufacturer with bottom layer risk identification capability and solve the problem of configuration and disposal strategy conflict in a service scene through a wind control disposal arrangement and verification method and a multi-manufacturer identification processing scheduling method.

The above description is only of the preferred embodiments of the present invention, and it should be noted that: it will be apparent to those skilled in the art that various modifications and adaptations can be made without departing from the principles of the invention and these are intended to be within the scope of the invention.

Claims (9)

1. A multimedia content pneumatic management device, comprising: the system comprises a scene acquisition module, a disposal rule checking module, a disposal rule adjusting module, a scene disposal arrangement result issuing module, a manufacturer and share acquisition module, a manufacturer distribution calculation module, a message identification module and a message disposal module;

the scene acquisition module is used for acquiring scene information used by a current user;

the processing rule obtaining module is used for obtaining processing rule information under the current scene;

the treatment rule checking module is used for checking whether the danger level and the treatment priority under the same identification capability number are reasonable or not;

a processing rule adjusting module, configured to adjust the processing rule for the configuration error;

the issued scene processing and arranging result module is used for issuing the processing and arranging combined information after the verification is passed and storing the information into the message processing module;

the factory and share acquisition module is used for acquiring the factory providing the specified capability and share information thereof in the current scene;

the factory allocation calculation module is used for allocating the message processing quantity according to the set factory share;

the message identification module is used for identifying the danger level of the content of the message body;

and the message handling module is used for processing the message according to the scene arrangement rule.

2. The apparatus for managing multimedia contents according to claim 1, wherein the scene information in the scene capturing module includes a scene number, a scene name, a scene summary, and a user number; a user adds a scene name and a scene summary by himself through a PC end system page, a user number and a scene number are automatically generated by the system, data are stored in a database, and a plurality of scenes exist.

3. The multimedia content pneumatic management device of claim 1, wherein the disposition rules in the disposition rule obtaining module include a scene number, an identification capability name, an identification capability number, and a risk level, wherein the identification capability name is composed of an identification capability type and a suspicion degree, the identification capability type includes normal, yellow-related, fraud-related, political, storm-related, gambling-related, black-fingerprint, white-fingerprint, black-list, white-list, high, medium, and low suspicion degrees; the treatment action includes: a treatment number, a treatment name, and a treatment priority, wherein the treatment name includes: intercepting blackening, intercepting not sending to be audited, intercepting sending to be audited and releasing, wherein the treatment priority is increased progressively from 1 according to Arabic numbers, 1 represents the lowest priority, a user carries out treatment rule maintenance through a PC (personal computer) end, and specific information is registered in a database.

4. The apparatus of claim 1, wherein the information obtained by the manufacturer and its share obtaining module includes a scene number, an identification number, a manufacturer name, and a share.

5. The management method of the multimedia content wind control management device based on the claims 1 to 4 is characterized by comprising a wind control handling arrangement verification method, and the specific steps are as follows:

s1, obtaining user scene information, wherein the scene information comprises: scene number, scene name, scene summary, user number;

s2, acquiring a latest identification capability and disposal action complete list according to the scene information, and inquiring a plurality of pieces of added identification capability information and disposal action combinations thereof in a database through scene numbers;

s3, comprehensively calculating a verification reasonable value, and in order to ensure whether the combination of a plurality of pieces of identification capability information and handling actions thereof is unreasonable, respectively verifying the collision conditions of high, medium and low suspiciousness and handling actions of yellow, fraud, administration, storm and gambling, and ensuring that the danger level and the handling priority are reasonable;

s4, after unreasonable information is deleted, comprehensive calculation is carried out again until all the unreasonable information is reasonable, a disposal arrangement number is obtained according to the risk level of the configuration error item and the disposal priority obtained through verification in the step S3, and the disposal arrangement number is deleted; the remaining disposal arrangement information is subjected to comprehensive calculation to check the reasonable value according to step S3.

6. The method for managing multimedia contents according to claim 5, wherein the manifest information obtained in the step S2 includes: the system comprises a scene number, an identification capability name, an identification capability number and a danger level, wherein the identification capability name comprises an identification capability type and a doubtful degree, the identification capability type comprises yellow-related, fraud-related, political-related, storm-related, gambling-related, black fingerprints, white fingerprints, black lists and white lists, and the doubtful degree is high, medium and low; the treatment action includes: a treatment number, a treatment name, and a treatment priority, wherein the treatment name includes: intercepting blackening, intercepting not to send an audit, intercepting to send an audit and releasing, wherein the treatment priority is increased progressively from 1 according to Arabic numbers, and 1 represents the lowest priority;

acquiring the latest identification capability and disposal action complete list refers to the combination of identification capability information and disposal actions, such as normal-release, yellow-related-high suspected-interception blackening, yellow-related-medium suspected-interception submission and the like, to form disposal and arrangement combination information, and the method comprises the following steps: scene number, disposal arrangement number, identification capability name, danger level, disposal number, disposal name, disposal priority.

7. The method for managing multimedia contents according to claim 5, wherein the step S3 comprises the following steps:

s31, defining x as a danger level, wherein the larger the numerical value is, the higher the danger level is;

s32, defining y = f (x) as a treatment level, wherein the larger the y value is, the higher the treatment priority is;

s33, calculating f '(x), and when f' (x) > =0, configuring correctly; when f' (x) <0, the configuration is wrong.

8. The method for managing multimedia content wind control according to claim 5, further comprising a multi-vendor identification processing scheduling method, comprising the steps of:

s10, acquiring manufacturers and share information thereof, wherein the manufacturers and the share information thereof comprise: scene number, identification capability number, manufacturer name, and share;

s20, calculating the manufacturer capacity used by the current message; the judgment of one identification capability realizes that a plurality of manufacturers exist, and each scene distributes the message processing quantity according to the share after configuring the share proportion of different manufacturers;

and S30, identifying the message according to the manufacturer capability, and calling the manufacturer identification capability judgment through the manufacturer acquired in the step S20.

9. The method for multimedia content pneumatic management according to claim 8, wherein the specific process of calculating which vendor capability the current message uses in step S20 is:

s201, defining the serial number of a currently selected manufacturer as currentInde, and setting an initial value as-1; defining the share of the manufacturer as the weight of the manufacturer; defining the currently selected factory share as the current weight currentWeight;

s202, judging whether a manufacturer provides corresponding judgment capability or not according to the identification capability name required in the message request, if not, returning error information, and if detecting that the manufacturer provides the corresponding judgment capability, continuing to perform the next step;

s203, judging whether currentIndex is equal to-1, if yes, selecting the manufacturer with the largest share, wherein currentIndex = the serial number of the manufacturer with the largest weight, and scheduling the current round is finished; if the judgment result is negative, continuing;

s204, dividing the currently total number of the manufacturers by the currently used manufacturer serial number currentIndex to judge whether the obtained result is greater than 0, if so, selecting the current manufacturer, and ending the scheduling; if the judgment is no, continuing;

s205, the current weight currentWeight = the weight of the current manufacturer-the maximum common divisor gcdWeight, the maximum common divisor gcdWeight means the maximum common divisor obtained by comparing the weights of all manufacturers in the system except the current manufacturer in pairs, then the maximum maxWeight is selected from the maximum common divisor, whether the current weight is less than or equal to zero is judged, and if the result is false, the step S207 is directly skipped to; if the result is true, continuing;

s206, assigning the maximum weight to the current weight, currentWeight = maxWeight, judging whether the current weight is equal to zero, and if the result is true, returning error information; if false, the next step;

s207, obtain the next manufacturer serial number, currentIndex = the next manufacturer serial number, and repeat step S202 to loop until the entire manufacturer list is traversed.

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