CN115422591A - Information processing method and system based on big data - Google Patents

Abstract

The application relates to the technical field of big data and information stealing prevention, in particular to an information processing method and system based on big data, which determines behavior intention data of a marked interactive behavior event according to a risk event knowledge base; determining an information stealing intention node matched with the behavior intention data from an information stealing intention relationship network; and generating an information protection strategy aiming at the marked interactive behavior event according to the information stealing intention node.

Description

Information processing method and system based on big data

The application is a divisional application with the application number of 202111533112X, the application date of 20211215 and the application name of 'a method and a system for stealing information applied to big data of a service user'.

Technical Field

The embodiment of the application relates to the technical field of big data and information stealing prevention, in particular to an information processing method and system based on big data.

Background

With the rapid development of the internet and big data, information security and data leakage events are also continuously generated, and users can also bear the risk problem while enjoying the convenience and opportunity brought by the internet, thereby bringing great damage to the users. A large number of information leakage events have been caused due to the wealth of data in the big data era. Although the data security of the user operation terminal already has a certain level of local security protection system, the data structure and the network layer end point have good protection. However, for the online service with the increasingly larger scale, how to realize more accurate and reliable information stealing prevention processing through the service conversation behavior is one of the technical problems that needs to be overcome at present.

Disclosure of Invention

In view of this, the present application provides an information processing method and system based on big data.

In a first aspect, an embodiment of the present application provides an information processing method based on big data, including: determining abnormal session behavior description of marked interaction behavior events contained in a user service interaction record to be analyzed; splicing the abnormal conversation behavior description of the marked interactive behavior event by means of the abnormal conversation behavior description of the first auxiliary interactive behavior event pointed by each of the auxiliary user service interactive records to obtain at least one group of knowledge mapping indexes pointed by each of the abnormal conversation behavior descriptions of the first auxiliary interactive behavior event; determining abnormal conversation behavior description of a risk event knowledge base by combining abnormal conversation behavior description of a second auxiliary type interaction behavior event with a set service scene theme and knowledge mapping indexes pointed by the abnormal conversation behavior description of at least one group of first auxiliary type interaction behavior events; the second auxiliary type interaction behavior event is determined by combining the first auxiliary type interaction behavior event in the auxiliary type user service interaction record; and combining the abnormal conversation behavior description of the risk event knowledge base, and creating a risk event knowledge base corresponding to the marked interactive behavior events of the user service interaction records to be analyzed, wherein the risk event knowledge base carries an information stealing intention relationship network corresponding to the marked interactive behavior events.

By means of the design, the matching relationship between the abnormal conversation behavior description of the marked interactive behavior event and the abnormal conversation behavior description of at least one group of first auxiliary interactive behavior events is determined by taking the knowledge mapping index as a reference, and the matching relationship can indicate the matching result between the abnormal conversation behavior description of the second auxiliary interactive behavior event determined by combining the abnormal conversation behavior description of the first auxiliary interactive behavior event and the abnormal conversation behavior description of the risk event knowledge base determined by combining the marked interactive behavior event, so that the determined risk event knowledge base has the description content (such as abnormal description content and the like) of the marked interactive behavior event in the user service interaction record to be analyzed, and has relatively complete matching degree with the marked interactive behavior event, meanwhile, the determined risk event knowledge base can be matched with the set service scene theme, and further accurate information stealing protection processing can be carried out on the basis of an information stealing intention relationship network corresponding to the marked interactive behavior event carried in the risk event knowledge base.

For an independently implementable technical solution, the determining, in combination with a knowledge mapping index to which a second auxiliary interactive behavior event exists for setting a business scenario topic and at least one group of abnormal session behavior descriptions of the first auxiliary interactive behavior event point, an abnormal session behavior description of a risk event knowledge base includes: combining the abnormal conversation behavior description of at least one group of second auxiliary type interactive behavior events, and creating an overall analysis result of the abnormal conversation behavior description of at least one group of second auxiliary type interactive behavior events; and creating the abnormal session behavior description of the risk event knowledge base by combining not less than one group of abnormal session behavior descriptions of the second auxiliary interactive behavior events, the overall analysis result and not less than one group of knowledge mapping indexes pointed by the abnormal session behavior descriptions of the first auxiliary interactive behavior events.

For an independently implementable technical solution, the creating, in combination with at least one set of abnormal conversational behavior description of the second auxiliary interactive behavior event, the integrity analysis result, and at least one set of knowledge mapping indicators pointed by the abnormal conversational behavior description of the first auxiliary interactive behavior event, an abnormal conversational behavior description of the risk event knowledge base includes: determining comparison conditions of the abnormal session behavior descriptions of the second auxiliary type interactive behavior events in each group by combining the abnormal session behavior descriptions of the second auxiliary type interactive behavior events in at least one group of abnormal session behavior descriptions of the second auxiliary type interactive behavior events and the overall analysis result; performing extension operation on comparison conditions of respective directions of abnormal session behavior descriptions of at least one group of second auxiliary type interactive behavior events by combining knowledge mapping indexes of respective directions of the abnormal session behavior descriptions of at least one group of first auxiliary type interactive behavior events; and combining the comparison condition of the expansion operation and the overall analysis result to create the abnormal conversation behavior description of the risk event knowledge base.

By means of the design, the overall behavior content of the abnormal conversation behavior description of at least one group of second auxiliary interactive behavior events can be accurately indicated by means of the overall analysis result; by means of comparison of the abnormal conversation behavior descriptions of each group of second auxiliary type interaction behavior events, comparison results of the abnormal conversation behavior descriptions of each group of second auxiliary type interaction behavior events and the abnormal conversation behavior descriptions of at least one group of second auxiliary type interaction behavior events can be accurately shown, and then overall analysis results are optimized by means of accurate comparison result information, so that abnormal conversation behavior descriptions of a risk event knowledge base can be relatively and accurately determined.

For an independently implementable technical solution, the determining an abnormal session behavior description of a marked interaction behavior event included in a user service interaction record to be analyzed includes: determining the user service interaction record to be analyzed carrying the marked interaction behavior event; and processing the user service interaction record to be analyzed by means of an AI intelligent model which is debugged in advance to obtain the abnormal session behavior description of the marked interaction behavior event in the user service interaction record to be analyzed.

By means of the design, the interactive behavior event description of the marked interactive behavior event in the user service interaction record to be analyzed can be more accurately indicated by means of the abnormal session behavior description of the marked interactive behavior event.

For a separately implementable aspect, the method further comprises: determining a plurality of auxiliary user service interaction records comprising a first auxiliary interaction behavior event; and aiming at each auxiliary user service interaction record in the auxiliary user service interaction records, processing each auxiliary user service interaction record by means of an AI intelligent model which is debugged in advance to obtain abnormal conversation behavior description of the first auxiliary interaction behavior event in each auxiliary user service interaction record.

By means of the design, the description of the abnormal conversation behavior of the first auxiliary interactive behavior event can be used for more accurately indicating the description of the interactive behavior events pointed by the first auxiliary interactive behavior event in the auxiliary user service interaction record. Meanwhile, by means of a plurality of auxiliary user service interaction records containing the first auxiliary interaction behavior events, the abnormal description content of the interaction behavior events can be comprehensively analyzed.

For an independently implementable technical solution, the obtaining at least one group of knowledge mapping indexes of respective orientations of abnormal session behavior descriptions of first auxiliary interactive behavior events by splicing abnormal session behavior descriptions of marked interactive behavior events by means of abnormal session behavior descriptions of first auxiliary interactive behavior events to which a plurality of auxiliary user service interactive records are respectively directed includes: performing vector projection operation on the abnormal conversation behavior description of the marked interactive behavior event and the abnormal conversation behavior description of the first auxiliary interactive behavior event to obtain at least one group of transition mapping indexes to which the abnormal conversation behavior description of the first auxiliary interactive behavior event points; and determining knowledge mapping indexes corresponding to the abnormal conversation behavior descriptions of the first auxiliary type interactive behavior events of each group by combining transition mapping indexes corresponding to the abnormal conversation behavior descriptions of each group of first auxiliary type interactive behavior events in at least one group of abnormal conversation behavior descriptions of the first auxiliary type interactive behavior events.

By means of the design, the knowledge mapping index can accurately indicate the splicing result when the abnormal conversation behavior descriptions of the marked interactive behavior events are spliced by means of the abnormal conversation behavior descriptions of the plurality of first auxiliary interactive behavior events.

For an independently implementable technical solution, the determining, in combination with at least one set of transition mapping indicators corresponding to abnormal conversational behavior descriptions of each set of first auxiliary interactive behavior events in the abnormal conversational behavior descriptions of the first auxiliary interactive behavior events, knowledge mapping indicators corresponding to abnormal conversational behavior descriptions of the first auxiliary interactive behavior events of each set, includes: determining a first abnormal session behavior description which reflects local characteristics of the first auxiliary type interactive behavior event and corresponds to a risk event knowledge base from the abnormal session behavior descriptions of the first auxiliary type interactive behavior events; optimizing a transition mapping index corresponding to the first abnormal session behavior description in the abnormal session behavior description of the first auxiliary interactive behavior event to obtain a first knowledge mapping index; determining a transition mapping index corresponding to a second abnormal conversation behavior description in the abnormal conversation behavior description of the first auxiliary interaction behavior event as a second knowledge mapping index; the second abnormal conversation behavior description is an abnormal conversation behavior description except the first abnormal conversation behavior description in the abnormal conversation behavior description of the first auxiliary interactive behavior event; and combining the first knowledge mapping index and the second knowledge mapping index to obtain a knowledge mapping index of abnormal session behavior description of each group of the first auxiliary interactive behavior events.

For a separately implementable aspect, the method further comprises: optimizing the abnormal conversation behavior description of the first auxiliary type interaction behavior event in the auxiliary type user service interaction record to obtain the abnormal conversation behavior description of the second auxiliary type interaction behavior event with the set service scene theme; or, in combination with a first auxiliary type interactive behavior event in the auxiliary type user service interactive record, creating a derived behavior event record covering a second auxiliary type interactive behavior event carrying the set service scene theme; and creating an abnormal conversation behavior description of the second auxiliary type interaction behavior event in the derived behavior event record by means of an AI intelligent model which is debugged in advance.

By means of the design, the knowledge mapping indexes corresponding to the local features of part of the interactive behavior events are optimized, so that abnormal session behavior descriptions obtained by combining the knowledge mapping indexes and abnormal session behavior descriptions of a plurality of corresponding first auxiliary interactive behavior events and splicing the abnormal session behavior descriptions of marked interactive behavior events corresponding to the user service interaction records to be analyzed are similar to the abnormal session behavior descriptions of marked interactive behavior events corresponding to the user service interaction records to be analyzed, and the obtained knowledge mapping indexes can accurately indicate indexes when the first auxiliary abnormal interactive session behavior events are spliced with the marked abnormal interactive session behavior events.

For an independently implementable solution, the AI intelligence model is adapted by: determining a sample user service interaction record set; the set of example user service interaction records comprises a plurality of first example user service interaction records of first example interaction behavior events and a second example user service interaction record of second example interaction behavior events; the first example user service interaction records comprise a plurality of first example user service interaction record queues, and each first example user service interaction record queue covers user service interaction records of first example interaction behavior events with the same conversation interaction habit, which are obtained by respectively crawling from a plurality of set crawling conditions; determining an abnormal conversational behavior description of a first exemplar interaction behavior event of a first exemplar user service interaction record and an abnormal conversational behavior description of a second exemplar interaction behavior event of a second exemplar user service interaction record in the set of exemplar user service interaction records; by means of a basic AI intelligent model, performing description mining on a first example user service interaction record and a second example user service interaction record in the example user service interaction record set to obtain an estimated abnormal session behavior description of a first example interaction behavior event of the first example user service interaction record and an estimated abnormal session behavior description of a second example interaction behavior event of the second example user service interaction record; and debugging the basic AI intelligent model by means of the abnormal conversation behavior description and the estimated abnormal conversation behavior description of the first example interactive behavior event and the abnormal conversation behavior description and the estimated abnormal conversation behavior description of the second example interactive behavior event so as to obtain the debugged AI intelligent model.

For an independently implementable aspect, the determining an abnormal conversational behavior description of a second example interaction behavior event of the second example user business interaction record includes: determining interaction behavior event characteristics of each of the second example user service interaction records; concatenating the abnormal conversational behavior description of the second example interaction behavior event creating the second example user business interaction record with the interaction behavior event characteristics of the second example user business interaction record and the second example user business interaction record.

For an independently implementable solution, the example set of user service interaction records further comprises: a third exemplary user service interaction record; the third example user service interaction record is obtained by performing attention optimization on the first example user service interaction record;

the big data-based information processing method further comprises the following steps: determining an anomalous conversational behavior description of a third example interaction behavior event of the third example user traffic interaction record; describing and mining a third example user service interaction record by means of the basic AI intelligent model to obtain an estimated abnormal conversation behavior description of a third example interaction behavior event of the third example user service interaction record;

the debugging the basic AI intelligent model by means of the abnormal conversation behavior description and the estimated abnormal conversation behavior description of the first example interaction behavior event and the abnormal conversation behavior description and the estimated abnormal conversation behavior description of the second example interaction behavior event to obtain the debugged AI intelligent model comprises: and debugging the basic AI intelligent model by means of the abnormal conversation behavior description and the estimated abnormal conversation behavior description of the first example interaction behavior event, the abnormal conversation behavior description and the estimated abnormal conversation behavior description of the second example interaction behavior event and the abnormal conversation behavior description and the estimated abnormal conversation behavior description of the third example interaction behavior event to obtain the debugged AI intelligent model.

By the design, the AI intelligent models with different indexes can be obtained by optimizing the number of the first example user service interaction records, the second example user service interaction records and the third example user service interaction records, so that the AI intelligent models with higher value can be obtained for actual application conditions; meanwhile, the third example user service interaction record is obtained through attention optimization, so that the reliability of the debugged AI intelligent model on information stealing analysis is higher when the third example user service interaction record is included in the example user service interaction record. Further, the interactive behavior event abnormal description content which can be comprehensively analyzed from the interactive behavior event contained in the second example user service interaction record can improve the model performance of the AI intelligent model.

In a second aspect, an embodiment of the present application further provides an information theft prevention system, including a processor, a network module, and a memory; the processor and the memory communicate through the network module, and the processor reads the computer program from the memory and operates to perform the above-described method.

In the description that follows, additional features will be set forth, in part, in the description. These features will be in part apparent to those skilled in the art upon examination of the following and the accompanying drawings, or may be learned by production or use. The features of the present application may be realized and attained by practice or use of various aspects of the methodologies, instrumentalities and combinations particularly pointed out in the detailed examples that follow.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

Fig. 1 is a block diagram illustrating an information anti-theft system according to an embodiment of the present disclosure.

Fig. 2 is a flowchart of an information processing method based on big data according to an embodiment of the present application.

Fig. 3 is a block diagram of an information processing apparatus based on big data according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all the embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

Fig. 1 illustrates a block schematic diagram of an information theft-prevention system 10 provided by an embodiment of the present application. The information theft-prevention system 10 in the embodiment of the present application may be a server with data storage, transmission, and processing functions, as shown in fig. 1, the information theft-prevention system 10 includes: memory 1011, processor 1012, network module 1013, and artificial intelligence based new media resource processing device 20.

The memory 1011, the processor 1012, and the network module 1013 are electrically connected directly or indirectly to enable data transfer or interaction. For example, the components may be electrically connected to each other via one or more communication buses or signal lines. The memory 1011 stores therein an artificial intelligence based new media resource processing device 20, the artificial intelligence based new media resource processing device 20 includes at least one software function module which can be stored in the memory 1011 in the form of software or firmware (firmware), and the processor 1012 executes various function applications and data processing by running software programs and modules stored in the memory 1011, such as the artificial intelligence based new media resource processing device 20 in the embodiment of the present application, so as to implement the artificial intelligence based new media resource processing method in the embodiment of the present application.

The Memory 1011 may be, but is not limited to, a Random Access Memory (RAM), a Read Only Memory (ROM), a Programmable Read-Only Memory (PROM), an Erasable Read-Only Memory (EPROM), an electrically Erasable Read-Only Memory (EEPROM), and the like. The memory 1011 is used for storing programs, and the processor 1012 executes the programs after receiving the execution instructions.

The processor 1012 may be an integrated circuit chip having data processing capabilities. The Processor 1012 may be a general-purpose Processor including a Central Processing Unit (CPU), a Network Processor (NP), and the like. The various methods, steps and logic blocks disclosed in the embodiments of the present application may be implemented or performed. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

The network module 1013 is used to establish a communication connection between the information theft prevention system 10 and other communication terminal devices through a network, so as to implement transceiving operation of network signals and data. The network signal may include a wireless signal or a wired signal.

It is to be understood that the configuration shown in FIG. 1 is merely illustrative and that information theft prevention system 10 may include more or fewer components than shown in FIG. 1 or may have a different configuration than shown in FIG. 1. The components shown in fig. 1 may be implemented in hardware, software, or a combination thereof.

An embodiment of the present application further provides a computer storage medium, where a computer program is stored, and the computer program implements the method when running.

Fig. 2 shows a flowchart of a big data based information processing method provided in an embodiment of the present application. The method steps defined by the flow related to the method are applied to the information theft-prevention system 10 and can be realized by the processor 1012, and the method comprises the technical scheme recorded in the following steps 101-104.

Step 101, determining abnormal session behavior description of marked interaction behavior events contained in a user service interaction record to be analyzed.

And 102, splicing abnormal conversation behavior descriptions of the marked interactive behavior events by means of abnormal conversation behavior descriptions of the first auxiliary interactive behavior events pointed by the auxiliary user service interactive records, and obtaining knowledge mapping indexes pointed by the abnormal conversation behavior descriptions of at least one group of first auxiliary interactive behavior events.

103, determining abnormal conversation behavior description of a risk event knowledge base by combining abnormal conversation behavior description of a second auxiliary type interaction behavior event with a set service scene theme and knowledge mapping indexes pointed by abnormal conversation behavior descriptions of at least one group of first auxiliary type interaction behavior events; the second auxiliary interactive behavior event is determined in combination with the first auxiliary interactive behavior event in the auxiliary user service interaction record.

And step 104, combining the abnormal conversation behavior description of the risk event knowledge base, and creating a risk event knowledge base corresponding to the marked interaction behavior events of the user service interaction records to be analyzed.

In the embodiment of the application, when the abnormal session behavior description of the marked interactive behavior event in the user service interaction record to be analyzed is spliced by the aid of the abnormal session behavior description of the first auxiliary interactive behavior event pointed by each of the auxiliary user service interaction records, the determined knowledge mapping index and the abnormal session behavior description of the second auxiliary interactive behavior event which is determined by combining the first auxiliary interactive behavior event in the auxiliary user service interaction record and has the set service scene theme are obtained, the abnormal session behavior description of the risk event knowledge base is obtained, the risk event knowledge base corresponding to the user service interaction record to be analyzed is created by combining the abnormal session behavior description of the risk event knowledge base, the process determines the matching relationship between the abnormal session behavior description of the marked interactive behavior event and the abnormal session behavior description of at least one group of first auxiliary interactive behavior events by taking the knowledge mapping index as reference, the matching relation can show the correlation between the abnormal conversation behavior of the second auxiliary interactive behavior event determined by combining the abnormal conversation behavior of the first auxiliary interactive behavior event and the abnormal conversation behavior description of the risk event knowledge base established by combining the abnormal conversation behavior description of the marked interactive behavior event, so that the abnormal conversation behavior description of the determined risk event knowledge base not only has the characteristics (such as abnormal description content and the like) of the marked interactive behavior event in the user service interaction record to be analyzed, but also has relatively complete matching degree with the marked interactive behavior event, and can enable the determined risk event knowledge base to have a set service scene theme, and further carry out information stealing protection processing based on an information stealing intention relation network corresponding to the marked interactive behavior event carried in the risk event knowledge base .

It is understood that the technical solutions described for the above steps 101 to 104 can be explained according to the following embodiments.

For the above step 101, the user service interaction record to be analyzed may be understood as a predetermined user service interaction record including an interaction behavior event, or a user service interaction record including an interaction behavior event, which is determined when a certain service session item is collected by a collection module of a related interaction record processing thread. For example: any group of interaction behavior events covered in the user service interaction record can be determined as marked interaction behavior events, and the marked interaction behavior events are used as service session items generated by the interaction behavior events.

Further, when the big data-based information processing method provided by the embodiment of the application is applied to different business links, the determination method of the business interaction records of the user to be analyzed is different. For example, on the premise that the big data-based information processing method is applied to cloud computing services (e.g., administrative enterprise cloud services, smart medical services, and teleworking services), a user service interaction record generating module provided in a cloud computing service terminal may determine a user service interaction record including an interaction behavior event corresponding to a cloud computing service user, or specify a user service interaction record including an interaction behavior event corresponding to a cloud computing service user in a storage space from the cloud computing service terminal, and use the determined user service interaction record including the interaction behavior event corresponding to the cloud computing service user as a user service interaction record to be analyzed.

For an independently implementable technical solution, the determining the abnormal session behavior description of the marked interaction behavior event included in the user service interaction record to be analyzed, recorded in the step 101, may specifically include the following contents: determining a user service interaction record to be analyzed, which carries the marked interaction behavior event; and processing the user service interaction record to be analyzed by means of the AI intelligent model which is debugged in advance to obtain the abnormal conversation behavior description of the marked interaction behavior event in the user service interaction record to be analyzed.

For an independently implementable technical solution, the embodiment of the present application provides a specific implementation method for debugging an AI intelligent model, which may include the following contents recorded in step 201 and step 202.

Step 201: determining a sample set of user service interaction records (which may be understood as a sample set of user service interaction records); the example user interaction record set comprises a plurality of first example user interaction records of first example interaction behavior events and a second example user interaction record of second example interaction behavior events; the plurality of first example user service interaction records comprise a plurality of first example user service interaction record queues, and each first example user service interaction record queue covers user service interaction records of first example interaction behavior events with the same conversation interaction habit, which are obtained by crawling from a plurality of set crawling conditions respectively.

In the embodiment of the present application, for a plurality of first example user service interaction records of a first example interaction behavior event covered by an example user service interaction record set, the corresponding first example interaction behavior event may be understood as a predetermined interaction behavior event for determining the interaction behavior event user service interaction record to debug at least one single service session item of the AI intelligent model.

For example, when the first example interaction behavior event is collected to determine the first example user service interaction record queue, a plurality of first example user service interaction record queues may be determined for a plurality of different session interaction habits, for example. Wherein, a plurality of different conversation interaction habits can be understood as operation habits, chat text habits and the like. In an embodiment of the present application, when determining the first example user service interaction record, the service environments of the first example interaction behavior events in different first example user service interaction records may be consistent. Similarly, the first example user service interaction record queue to which the first example interaction behavior event points under different session interaction habits is determined by similar implementation techniques, which will not be further described herein. Further, after determining the first example user-service interaction record queues to which the plurality of different session interaction habits point, a plurality of first example user-service interaction records of the first example interaction behavior event may be determined.

For example, in determining the first example user interaction record, the user interaction record may be collected and determined by a user interaction record collection module (e.g., an associated functional thread). On the premise of determining the first example user service interaction record, the interaction behavior events corresponding to a plurality of acquisition single service session items with different session interaction habits are derived under the condition that the acquisition targets in the user service interaction record are different dimensions, so that the acquisition effect of the AI intelligent model on the abnormal session behavior description corresponding to the interaction behavior events in the user service interaction record under the multiple dimensions can be debugged by means of the first example user service interaction record. The second exemplary user service interaction record may be collected arbitrarily for different single service session items.

For example, on the premise that a second example user service interaction record is acquired arbitrarily for different single service session items, a plurality of second example interaction behavior events may be acquired by a neural network or other user service interaction record acquisition modules to determine the second example user service interaction record; or directly acquiring a plurality of second example user service interaction records acquired in advance. The second example user service interaction record may include a plurality of sets of acquired interaction behavior event user service interaction records including non-critical content; the second example user service interaction record includes non-key content and other parts which have influence on analyzing the interaction behavior event, and the parts are used for debugging the influence of the AI intelligent model on the remaining content except the interaction behavior event on the premise that the interaction behavior event in the user service interaction record to be analyzed is analyzed to determine the description of the abnormal conversation behavior, so that the performance is weakened.

In another embodiment of the present application, the example user service interaction record set further includes a third example user service interaction record, and the third example user service interaction record can be obtained by performing attention optimization (feature enhancement or feature saliency processing) on the first example user service interaction record. The stability and robustness of the AI intelligent model in determining the abnormal session behavior description can be improved by means of the attention optimization method.

Based on the above, the abnormal session behavior description of the example interaction behavior event corresponding to the third example user service interaction record is the same as the abnormal session behavior description of the example interaction behavior event corresponding to the first example user service interaction record for creating the third example user service interaction record.

Based on the content described in step 201, the relevant content for debugging the AI intelligent model may also include the following content.

At step 202, an abnormal conversational behavior description of a first example interaction behavior event of a first example user business interaction record and an abnormal conversational behavior description of a second example interaction behavior event of a second example user business interaction record in a set of example user business interaction records are determined.

For the embodiment of the present application, when determining the abnormal conversational behavior description of the first example interaction behavior event of the first example user service interaction record in the example user service interaction record set and the abnormal conversational behavior description of the second example interaction behavior event of the second example user service interaction record, the following steps may be performed: an abnormal conversational behavior description of a first example interaction behavior event of the first example user business interaction record of the set of example user business interaction records, an abnormal conversational behavior description of a second example interaction behavior event of the second example user business interaction record, and an abnormal conversational behavior description of a third example interaction behavior event of the third example user business interaction record are determined.

In an embodiment of the application, for a first example user interaction record in the example user interaction record set, after the first example user interaction behavior event is collected and a corresponding first example user interaction record is determined, abnormal conversation behavior descriptions of example interaction behavior events of the first example interaction behavior event in each group of the first example user interaction records may be determined. In the case that the deep neural network is used to determine the first example user interaction record, for example, the deep neural network may be used to determine the deep user interaction record, so as to obtain the abnormal conversational behavior description of the example interaction behavior event of the first example interaction behavior event.

For an independently implementable embodiment, for a second example user service interaction record in the example user service interaction record set, the present application embodiment provides a related content for determining an abnormal session behavior description of a second example interaction behavior event of the second example user service interaction record, which may specifically include the content recorded in the following steps 401 and 402.

In step 401, the interaction behavior event characteristics of each second example user service interaction record are determined. Step 402, creating an abnormal session behavior description of a second example interaction behavior event of the second example user service interaction record by means of the interaction behavior event feature of the second example user service interaction record and the second example user service interaction record.

In an embodiment of the present application, the second example user service interaction records may be understood to include certain sets of interactive behavior event user service interaction records (behavior event records) that include non-critical content, and each of the second example user service interaction records includes certain interactive behavior event characteristics. The interaction behavior event characteristics included in the second example user service interaction record are used for determining abnormal session behavior description of the example interaction behavior event corresponding to the second example user service interaction record.

It is to be appreciated that the abnormal conversational behavior description of the second example interactive behavior event of the second example user-service interaction record may be created by means of a stitching policy, provided that the interactive behavior event characteristics of the second example user-service interaction record are obtained.

Step 203: and by means of a basic AI intelligent model, performing description mining on a first example user service interaction record and a second example user service interaction record in the example user service interaction record set to obtain an estimated abnormal session behavior description of the first example interaction behavior event of the first example user service interaction record and an estimated abnormal session behavior description of the second example interaction behavior event of the second example user service interaction record.

In the embodiment of the present application, when determining the estimated abnormal conversational behavior description (predicted keypoint information) of the first example interactive behavior event of the first example user service interaction record and the estimated abnormal conversational behavior description of the second example interactive behavior event of the second example user service interaction record, the following steps may be performed: by means of the basic AI intelligent model, description mining is performed on a first example user service interaction record, a second example user service interaction record and a third example user service interaction record in the example user service interaction record set, so as to obtain an estimated abnormal session behavior description of a first example interaction behavior event of the first example user service interaction record, an estimated abnormal session behavior description of a second example interaction behavior event of the second example user service interaction record and an estimated abnormal session behavior description of a third example interaction behavior event of the third example user service interaction record.

It is to be understood that the step of determining at least one of the first, second, and third example user service interaction records may be performed synchronously with the step of mining the description of at least one of the first, second, and third example user service interaction records by the basic AI intelligence model, i.e., the estimated abnormal session behavior descriptions that are respectively directed to by mining the description of at least one of the first, second, and third example user service interaction records by the basic AI intelligence model may be directly obtained.

In addition, when at least one of the first example user service interaction record, the second example user service interaction record and the third example user service interaction record is description mined by the aid of the basic AI intelligent model, at least one of the first example user service interaction record, the second example user service interaction record and the third example user service interaction record can be description mined simultaneously; or, at least one of the first example user service interaction record, the second example user service interaction record, and the third example user service interaction record is sequentially described and mined according to the real index, so as to obtain an estimated abnormal session behavior description of the first example interaction behavior event of the first example user service interaction record, an estimated abnormal session behavior description of the second example interaction behavior event of the second example user service interaction record, and an estimated abnormal session behavior description of the third example interaction behavior event of the third example user service interaction record.

In the embodiment of the present application, for the first example user service interaction record and the second example user service interaction record included in the example user service interaction record set, different numbers of the first example user service interaction record and the second example user service interaction record may be selected according to the set ratio, and the selected first example user service interaction record and the selected second example user service interaction record are imported into the basic AI intelligent model; on the premise that the example user service interaction record set comprises the first example user service interaction record, the second example user service interaction record and the third example user service interaction record, different numbers of the first example user service interaction record, the second example user service interaction record and the third example user service interaction record can be selected according to the set proportion, and the selected first example user service interaction record, the selected second example user service interaction record and the selected third example user service interaction record are led into the basic AI intelligent model. When the duty ratio is selected differently, the bias points for debugging the AI intelligent model are also different. When the share of the first example user service interaction record and/or the third example user service interaction record is higher, the obtained AI intelligent model has better acquisition accuracy on abnormal conversation behaviors of the interaction behavior events corresponding to the interaction behavior events with different dimensions in the user service interaction record; when the share of the second example user service interaction record is higher, the impact of the debugged AI intelligent model on other non-key content parts except the interaction behavior event in the user service interaction record is stronger, and further different application requirements of different users can be met.

In the embodiment of the application, after the example user service interaction records are imported into the basic AI intelligent model, the basic AI intelligent model can perform description mining on the example user service interaction records and export the abnormal session behavior description of the estimated interaction behavior event of each example user service interaction record; with the help of the abnormal conversational behavior description of the estimated interactive behavior event and the abnormal conversational behavior description of the corresponding example interactive behavior event of each example user service interaction record, the deviation (model loss) of the AI intelligent model is determined, and the deviation is used for compatible (weighing) the accuracy of the AI intelligent model in creating the abnormal conversational behavior description of the interactive behavior event.

And 204, debugging the basic AI intelligent model by means of the abnormal conversation behavior description and the estimated abnormal conversation behavior description of the first example interaction behavior event and the abnormal conversation behavior description and the estimated abnormal conversation behavior description of the second example interaction behavior event so as to obtain the debugged AI intelligent model.

In the embodiment of the present application, when debugging the basic AI intelligent model to obtain the AI intelligent model, the following operation steps may be implemented: and debugging the basic AI intelligent model by means of the description of the abnormal conversation behavior and the description of the estimated abnormal conversation behavior of the first example interaction behavior event, the description of the abnormal conversation behavior and the description of the estimated abnormal conversation behavior of the second example interaction behavior event, and the description of the abnormal conversation behavior and the description of the estimated abnormal conversation behavior of the third example interaction behavior event, and obtaining the AI intelligent model after the debugging is finished.

It can be understood that the deviation of the AI intelligent model can be determined by combining the abnormal session behavior description of the estimated interactive behavior event and the comparison result of the abnormal session behavior description of the example interactive behavior event, and the AI intelligent model is debugged by means of the deviation, wherein the purpose of debugging is to reduce the deviation, so that the obtained abnormal session behavior description of the estimated interactive behavior event can be close to the abnormal session behavior description of the actual interactive behavior event to a certain extent when the AI intelligent model processes the user service interaction record. On the premise of obtaining the debugged AI intelligent model, the user service interaction record to be analyzed can be imported into the AI intelligent model, and the abnormal conversation behavior description corresponding to the marked interaction behavior event in the user service interaction record to be analyzed is obtained.

For the above step 102, the assisted user service interaction record may be interaction behavior events pointed by different single service session items, and the interaction behavior events corresponding to different single service session items are different. Further, an interactive behavior event user service interaction record of each service session item is determined, and the determined interactive behavior event user service interaction record is used as a second example user service interaction record. In this way, the abnormal session behavior description of the second example interaction behavior event determined in combination with the second example user service interaction record can capture as rich an abnormal description content of the interaction behavior event as possible.

In this embodiment of the present application, when determining abnormal session behavior descriptions of a plurality of first auxiliary interaction behavior events corresponding to a plurality of auxiliary user service interaction records, the method may be implemented in the following manner: determining a plurality of auxiliary user service interaction records comprising a first auxiliary interaction behavior event; and aiming at each auxiliary user service interaction record in the auxiliary user service interaction records, determining the abnormal conversation behavior description of the first auxiliary interaction behavior event in each auxiliary user service interaction record by means of an AI intelligent model which is debugged in advance. The implementation technique for determining a plurality of first auxiliary abnormal interactive session behavior events by using the debugged AI intelligent model is similar to the implementation technique for determining marked abnormal interactive session behavior events by using the debugged AI intelligent model, and will not be further described here.

It can be understood that, on the premise of determining the abnormal session behavior description of the marked interactive behavior event and the abnormal session behavior description of the first auxiliary interactive behavior event, the abnormal session behavior descriptions of the marked interactive behavior event may be spliced by means of the abnormal session behavior description of the first auxiliary interactive behavior event to determine a knowledge mapping index of the abnormal session behavior descriptions of the first auxiliary interactive behavior event pointing to each of the plurality of auxiliary user service interaction records. The knowledge mapping index can be used as a reference to establish a matching relationship between the abnormal session behavior description of the marked interactive behavior event in the user service interaction record to be analyzed and the abnormal session behavior description of the first auxiliary interactive behavior event pointed by each of the auxiliary user service interaction records.

For an independently implementable technical solution, the abnormal session behavior descriptions of the first auxiliary interactive behavior events, which are recorded in the step 102 and point to by means of the plurality of auxiliary user service interaction records, are spliced with the abnormal session behavior descriptions of the marked interactive behavior events, so as to obtain at least one group of knowledge mapping indexes of the respective points of the abnormal session behavior descriptions of the first auxiliary interactive behavior events, which may specifically include the contents recorded in the following step 601 and step 602.

Step 601, performing vector projection operation on the abnormal conversational behavior description of the marked interactive behavior event and the abnormal conversational behavior description of the first auxiliary interactive behavior event to obtain at least one group of transition mapping indexes (which can be understood as intermediate indexes) pointed by the abnormal conversational behavior description of the first auxiliary interactive behavior event.

In the embodiment of the present application, in the process of splicing the abnormal session behavior descriptions of the marked interactive behavior events through the abnormal session behavior descriptions of the first auxiliary interactive behavior events, the feature information obtained by globally collating the abnormal session behavior descriptions of the first auxiliary interactive behavior events through the knowledge mapping index is as close as possible to the feature information of the abnormal session behavior descriptions of the marked interactive behavior events. The knowledge mapping index may be a quantitative index of the abnormal session behavior description of each first auxiliary interactive behavior event when the abnormal session behavior description of the first auxiliary interactive behavior event corresponding to the plurality of auxiliary user service interaction records expresses the abnormal session behavior description of the marked interactive behavior event.

Step 602, determining a knowledge mapping index corresponding to the abnormal session behavior description of each group of first auxiliary type interactive behavior events by combining the transition mapping index corresponding to the abnormal session behavior description of each group of first auxiliary type interactive behavior events in the abnormal session behavior description of at least one group of first auxiliary type interactive behavior events.

For an independently implementable technical solution, the transition mapping index recorded in the step 602 and corresponding to the abnormal conversational behavior description of each group of the first auxiliary interactive behavior event in the abnormal conversational behavior description of not less than one group of the first auxiliary interactive behavior event is combined to determine the knowledge mapping index corresponding to the abnormal conversational behavior description of each group of the first auxiliary interactive behavior event, and the method may specifically include the contents described in the following steps 701 to 704.

Step 701, determining a first abnormal session behavior description indicating that the local features of the risk event knowledge base in the first auxiliary type interactive behavior events correspond to from the abnormal session behavior descriptions of each group of first auxiliary type interactive behavior events.

For some design ideas which can be implemented independently, in order to enable the knowledge mapping index to more accurately indicate the condition that the abnormal session behavior description of the first auxiliary interactive behavior event is spliced by the abnormal session behavior description of the marked interactive behavior event, the knowledge mapping index corresponding to the local feature of the local interactive behavior event can be optimized, so that the abnormal session behavior description obtained by combining the knowledge mapping index and the abnormal session behavior descriptions of the plurality of corresponding first auxiliary interactive behavior events is similar to the abnormal session behavior description of the marked interactive behavior event corresponding to the user service interaction record to be analyzed. At this time, the local characteristics of the local interaction behavior event corresponding to the knowledge mapping indexes to be optimized are local characteristics of the risk event knowledge base. The local features of the actual risk event knowledge base (visual-type knowledge graph) may be determined on demand and will not be described further herein.

Step 702, optimizing a transition mapping index corresponding to a first abnormal session behavior description in the abnormal session behavior description of the first auxiliary interactive behavior event to obtain a first knowledge mapping index.

703, determining a transition mapping index corresponding to a second abnormal session behavior description in the abnormal session behavior description of the first auxiliary interactive behavior event as a second knowledge mapping index; the second abnormal conversational behavior description is an abnormal conversational behavior description of the first auxiliary interactive behavior event except the first abnormal conversational behavior description.

In this embodiment of the present application, a transition mapping index corresponding to a second abnormal session behavior description in the abnormal session behavior description of the first auxiliary interaction behavior event may be determined as a second knowledge mapping index. In addition, the abnormal session behavior description of each group of the first auxiliary interactive behavior events except the first abnormal session behavior description of the target local feature can be used as a second abnormal session behavior description. Because the influence of the knowledge mapping index corresponding to the second abnormal session behavior description on the splicing result is small, or the splicing result is excellent during splicing, the knowledge mapping index corresponding to the second abnormal session behavior description can not be optimized, so that the efficiency is improved on the premise of ensuring the splicing effect.

And 704, combining the first knowledge mapping index and the second knowledge mapping index to obtain a knowledge mapping index of the abnormal session behavior description of each group of the first auxiliary interactive behavior events.

In the embodiment of the application, since the first knowledge mapping index corresponds to the local feature of the risk event knowledge base, and the second knowledge mapping index corresponds to the local feature of the interaction behavior event, except for the local feature of the risk event knowledge base, in the multiple local features of the interaction behavior event, the first knowledge mapping index and the second knowledge mapping index are fused to determine the knowledge mapping index corresponding to at least one group of local features of the interaction behavior event, that is, the knowledge mapping index of the abnormal session behavior description of each group of the first auxiliary interaction behavior events.

For the above step 103, the set service scene theme may be a cross-border service scene theme, an intra-border service scene theme, or a test service scene theme, and may be specifically set according to actual needs. For example, for a case where the set service scene theme is the cross-border service scene theme, the second auxiliary interactive behavior event having the set service scene theme may be the cross-border interactive behavior event.

In an independently implementable technical solution, when creating an abnormal conversational behavior description of a second auxiliary interactive behavior event by means of the second auxiliary interactive behavior event having a set business scenario theme, the implementation may be performed in the following manner: optimizing the abnormal conversation behavior description of a first auxiliary type interaction behavior event of the first auxiliary type interaction behavior event in the auxiliary type user service interaction record to obtain the abnormal conversation behavior description of a second auxiliary type interaction behavior event with a set service scene theme; or, combining a first auxiliary type interactive behavior event in the auxiliary type user service interactive record, and creating a derived behavior event record comprising a second auxiliary type interactive behavior event with a set service scene theme; and creating abnormal conversation behavior description of the second auxiliary type interaction behavior event in the derived behavior event record by means of the AI intelligent model which is debugged in advance.

In this embodiment of the application, on the premise that the first auxiliary abnormal interactive behavior event is optimized to obtain the abnormal session behavior description of the second auxiliary interactive behavior event having the set service scene theme, all or part of the abnormal session behavior descriptions in the abnormal session behavior description of the first auxiliary interactive behavior event may be optimized according to the set service scene theme, so that the interactive behavior event reflected by the obtained abnormal session behavior description of the second auxiliary interactive behavior event has the set service scene theme.

It can be understood that, on the premise of creating a derived behavior event record in combination with a first auxiliary type interactive behavior event and creating an abnormal session behavior description of a second auxiliary type interactive behavior event by means of an AI intelligent model obtained by debugging in advance, visual user service interaction record processing can be performed on the first auxiliary type interactive behavior event in the auxiliary type user service interaction record according to a set service scene theme to create a derived behavior event record (simulation record) of the second auxiliary type interactive behavior event (participation event) having the set service scene theme.

On the premise of obtaining a derived behavior event record of a second auxiliary interactive behavior event with a set service scene theme, determining abnormal session behavior description of the corresponding second auxiliary interactive behavior event by means of an AI intelligent model obtained by debugging in advance. The method for determining the abnormal session behavior description of the second auxiliary interactive behavior event by using the AI intelligent model obtained by debugging in advance is similar to the method for determining the abnormal session behavior description of the marked interactive behavior event and the abnormal session behavior description of the first auxiliary interactive behavior event by using the AI intelligent model obtained by debugging in advance, and will not be further described here.

After determining that the abnormal conversation behavior description of the second auxiliary interactive behavior event with the set business scene theme and the knowledge mapping indexes pointed by the abnormal conversation behavior descriptions of at least one group of the first auxiliary interactive behavior events respectively exist, the abnormal conversation behavior description of the risk event knowledge base can be determined.

For an independently implementable technical solution, the abnormal conversation behavior description recorded in step 103, in combination with the abnormal conversation behavior description of the second auxiliary interactive behavior event having the set service scene topic and the knowledge mapping index to which at least one group of abnormal conversation behavior descriptions of the first auxiliary interactive behavior event point, determines the abnormal conversation behavior description of the risk event knowledge base, and may specifically include the contents recorded in step 801 and step 802 as follows.

Step 801, combining the abnormal conversation behavior descriptions of at least one group of second auxiliary interactive behavior events, and creating an overall analysis result of the abnormal conversation behavior descriptions of at least one group of second auxiliary interactive behavior events.

For some design ideas that can be implemented independently, global computation processing (e.g., averaging) may be performed in combination with feature values of corresponding local features in the abnormal-session behavior description of the second auxiliary interactive behavior event to create an overall analysis result of the abnormal-session behavior description of the second auxiliary interactive behavior event. Wherein, the overall analysis result is used for indicating the overall behavior content (average characteristic) of the abnormal conversation behavior description of not less than one group of second auxiliary type interaction behavior events.

And step 802, creating abnormal session behavior descriptions of the risk event knowledge base by combining the abnormal session behavior descriptions of at least one group of second auxiliary interactive behavior events, the overall analysis result and knowledge mapping indexes pointed by the abnormal session behavior descriptions of at least one group of first auxiliary interactive behavior events.

For an independently implementable technical solution, the creating of the abnormal conversational behavior description of the risk event knowledge base by combining the abnormal conversational behavior description of not less than one set of the second auxiliary interactive behavior events, the integrity analysis result, and the knowledge mapping index to which the abnormal conversational behavior description of not less than one set of the first auxiliary interactive behavior events respectively points, which are recorded in the step 802, may specifically include the contents recorded in the following steps 901 to 903.

Step 901, determining a comparison condition (difference information) of the abnormal session behavior descriptions of each group of second auxiliary interaction behavior events according to the abnormal session behavior descriptions of each group of second auxiliary interaction behavior events in the abnormal session behavior descriptions of at least one group of second auxiliary interaction behavior events and the integrity analysis result.

And 902, combining knowledge mapping indexes pointed by the abnormal session behavior descriptions of at least one group of first auxiliary interactive behavior events, and performing extension operation on comparison conditions pointed by the abnormal session behavior descriptions of at least one group of second auxiliary interactive behavior events.

In the embodiment of the application, the knowledge mapping index can be used as an importance description corresponding to the abnormal session behavior description of at least one group of second auxiliary interactive behavior events, and global arrangement processing is performed on comparison conditions pointed by the abnormal session behavior descriptions of at least one group of second auxiliary interactive behavior events, so that a difference processing process is realized.

And step 903, combining the result of the expansion operation and the overall analysis result to create abnormal session behavior description of the risk event knowledge base.

Based on the above content, the abnormal conversation behavior description of the risk event knowledge base for setting the business scene theme, which is reflected by the abnormal conversation behavior description of the second auxiliary type interactive behavior event, can be obtained, while the characteristics of the interactive behavior event in the user business interaction record to be analyzed are included.

For the abnormal session behavior description by means of the risk event repository described in step 104 above, a risk event repository corresponding to the user business interaction record to be analyzed may be created.

In the implementation of the method, the corresponding risk event knowledge base can be created by means of visual optimization in combination with abnormal conversation behavior description of the risk event knowledge base, so that the richness and high visualization of the risk event knowledge base are guaranteed.

In addition, for some design ideas that can be implemented independently, after creating a risk event knowledge base corresponding to the marked interaction behavior events of the user business interaction record to be analyzed, the method may further include the following steps: determining behavior intention data of the marked interactive behavior event according to the risk event knowledge base; determining an information stealing intention node matched with the behavior intention data from the information stealing intention relationship network; and generating an information protection strategy aiming at the marked interactive behavior event according to the information stealing intention node.

In the embodiment of the application, behavior intention data of a marked interactive behavior event can be determined according to the upstream and downstream entity transfer relationship of a risk event knowledge base, then the information stealing intention node matched with the behavior intention data is obtained by calculating the target characteristic vector of the information stealing intention node in an information stealing intention relationship network and performing similarity matching with the characteristic vector to be analyzed corresponding to the behavior intention data, and thus, an information protection strategy aiming at the marked interactive behavior event can be accurately generated according to the information stealing intention node, and therefore stealing prevention and protection of related business information are achieved.

In addition, for some design ideas that can be implemented independently, generating an information protection policy for the marked interactive behavior event according to the information stealing intention node may include the following: determining risk intention index distribution information and intention preference attributes of the information stealing intention node; on the premise that the indirect risk intention index is determined to be contained in the information stealing intention node according to the risk intention index distribution information, common evaluation between intention preference attributes under the direct risk intention index of the information stealing intention node and intention preference attributes under the indirect risk intention index of the information stealing intention node is determined according to intention preference attributes and risk intention index keywords of the target intention node of a plurality of historical threat events, and intention preference attributes under the direct risk intention index of the information stealing intention node and associated with the intention preference attributes under the indirect risk intention index are updated to be under the corresponding indirect risk intention index; on the premise that a plurality of intention preference attributes are contained under the current direct risk intention index of the information stealing intention node, common evaluation among the intention preference attributes under the current direct risk intention index of the information stealing intention node is determined according to the intention preference attributes and risk intention index keywords of the indirect risk intention index of the target intention node of a plurality of historical threat events, and feature analysis and integration are carried out on the intention preference attributes under the current direct risk intention index according to the common evaluation among the intention preference attributes; setting indirect risk intention index keywords for each type of intention preference attributes obtained by the characteristic analysis and integration according to intention preference attributes and risk intention index keywords of target intention nodes of a plurality of historical threat events under the indirect risk intention index, and updating each type of intention preference attributes to the indirect risk intention index represented by the indirect risk intention index keywords; and determining an information stealing behavior list corresponding to the information stealing intention node according to the intention preference attribute corresponding to the indirect risk intention index, and making an information protection strategy aiming at the information stealing behavior list.

In the embodiment of the application, the information protection policy can be anonymization processing aiming at the targeted target information in the information stealing behavior list, so that the target information can be prevented from being stolen. It can be appreciated that by considering the updating and migration of intent preference attributes of different categories of risk intent indexes, updating and optimization of intent preference attributes under indirect type risk intent indexes can be achieved, thereby ensuring the trustworthiness of the resulting information protection policy.

Based on the same inventive concept, there is also provided an information processing apparatus 20 based on big data, applied to an information theft prevention system 10, the apparatus comprising:

a behavior description determining module 21, configured to determine an abnormal session behavior description of a marked interactive behavior event included in a user service interaction record to be analyzed;

the mapping index obtaining module 22 is configured to splice the abnormal session behavior descriptions of the marked interactive behavior events by using the abnormal session behavior descriptions of the first auxiliary interactive behavior events pointed to by the plurality of auxiliary user service interactive records, and obtain knowledge mapping indexes pointed to by the abnormal session behavior descriptions of at least one group of first auxiliary interactive behavior events;

the knowledge base analysis module 23 is configured to determine abnormal session behavior descriptions of the risk event knowledge base in combination with knowledge mapping indexes to which abnormal session behavior descriptions of a second auxiliary interactive behavior event having a set service scene theme and abnormal session behavior descriptions of at least one group of first auxiliary interactive behavior events point; the second auxiliary interactive behavior event is determined by combining the first auxiliary interactive behavior event in the auxiliary user service interaction record;

and the knowledge base creating module 24 is configured to create a risk event knowledge base corresponding to the marked interaction behavior event of the user service interaction record to be analyzed, in combination with the abnormal session behavior description of the risk event knowledge base.

In the embodiments provided in the present application, it should be understood that the disclosed apparatus and method can be implemented in other ways. The apparatus and method embodiments described above are illustrative only, as the flowcharts and block diagrams in the figures illustrate the architecture, functionality, and operation of possible implementations of apparatus, methods and computer program products according to various embodiments of the present application. In this regard, each block in the flowchart or block diagrams may represent a module, segment, or portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). It should also be noted that, in some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. It will also be noted that each block of the block diagrams and/or flowchart illustration, and combinations of blocks in the block diagrams and/or flowchart illustration, can be implemented by special purpose hardware-based systems which perform the specified functions or acts, or combinations of special purpose hardware and computer instructions.

In addition, functional modules in the embodiments of the present application may be integrated together to form an independent part, or each module may exist separately, or two or more modules may be integrated to form an independent part.

The functions may be stored in a computer-readable storage medium if they are implemented in the form of software functional modules and sold or used as separate products. Based on such understanding, the technical solution of the present application or portions thereof that substantially contribute to the prior art may be embodied in the form of a software product stored in a storage medium and including instructions for causing a computer device (which may be a personal computer, the information theft prevention system 10, or a network device) to perform all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes. It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a … …" does not exclude the presence of another identical element in a process, method, article, or apparatus that comprises the element.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (8)

1. An information processing method based on big data is applied to an information anti-theft system, and the method at least comprises the following steps:

determining behavior intention data of the marked interactive behavior event according to a risk event knowledge base;

determining an information stealing intention node matched with the behavior intention data from an information stealing intention relationship network;

and generating an information protection strategy aiming at the marked interactive behavior event according to the information stealing intention node.

2. The method of claim 1, wherein the risk event repository is created in a manner comprising:

determining abnormal session behavior description of marked interaction behavior events contained in a user service interaction record to be analyzed; splicing the abnormal conversation behavior description of the marked interaction behavior event by means of abnormal conversation behavior description of first auxiliary interaction behavior events pointed by a plurality of auxiliary user service interaction records, and obtaining at least one group of knowledge mapping indexes pointed by the abnormal conversation behavior description of the first auxiliary interaction behavior events;

determining abnormal conversation behavior description of a risk event knowledge base by combining abnormal conversation behavior description of a second auxiliary type interaction behavior event with a set service scene theme and knowledge mapping indexes pointed by abnormal conversation behavior descriptions of at least one group of first auxiliary type interaction behavior events; wherein the second auxiliary interactive behavior event is determined by combining the first auxiliary interactive behavior event in the auxiliary user service interaction record; combining the abnormal conversation behavior description of the risk event knowledge base, and creating a risk event knowledge base corresponding to the marked interaction behavior event of the user service interaction record to be analyzed; and the risk event knowledge base carries an information stealing intention relationship network corresponding to the marked interactive behavior event.

3. The big-data-based information processing method according to claim 2, wherein the determining the abnormal session behavior description of the marked interactive behavior events covered in the user service interaction record to be analyzed comprises:

determining the user service interaction record to be analyzed carrying the marked interaction behavior event;

and processing the user service interaction record to be analyzed by means of an AI intelligent model which is debugged in advance to obtain the abnormal session behavior description of the marked interaction behavior event in the user service interaction record to be analyzed.

4. The big-data-based information processing method according to claim 2, wherein the obtaining not less than one group of knowledge mapping indexes of the respective orientations of the abnormal conversational behavior descriptions of the first auxiliary interactive behavior events by splicing the abnormal conversational behavior descriptions of the marked interactive behavior events with the abnormal conversational behavior descriptions of the first auxiliary interactive behavior events that are respectively oriented by a plurality of auxiliary user service interactive records comprises:

performing vector projection operation on the abnormal conversation behavior description of the marked interactive behavior event and the abnormal conversation behavior description of the first auxiliary interactive behavior event to obtain at least one group of transition mapping indexes to which the abnormal conversation behavior description of the first auxiliary interactive behavior event points;

determining knowledge mapping indexes corresponding to abnormal conversation behavior descriptions of the first auxiliary type interaction behavior events of each group by combining transition mapping indexes corresponding to the abnormal conversation behavior descriptions of each group of first auxiliary type interaction behavior events in at least one group of abnormal conversation behavior descriptions of the first auxiliary type interaction behavior events;

correspondingly, the determining, by combining the transition mapping index corresponding to the abnormal conversational behavior description of each group of the first auxiliary interactive behavior event in at least one group of the abnormal conversational behavior descriptions of the first auxiliary interactive behavior event, a knowledge mapping index corresponding to the abnormal conversational behavior description of each group of the first auxiliary interactive behavior event includes:

determining a first abnormal session behavior description which reflects local characteristics of the first auxiliary type interactive behavior event and corresponds to a risk event knowledge base from the abnormal session behavior descriptions of the first auxiliary type interactive behavior events; optimizing a transition mapping index corresponding to the first abnormal session behavior description in the abnormal session behavior description of the first auxiliary interactive behavior event to obtain a first knowledge mapping index;

determining a transition mapping index corresponding to a second abnormal conversation behavior description in the abnormal conversation behavior description of the first auxiliary interaction behavior event as a second knowledge mapping index; the second abnormal conversation behavior description is an abnormal conversation behavior description except the first abnormal conversation behavior description in the abnormal conversation behavior description of the first auxiliary interactive behavior event;

and combining the first knowledge mapping index and the second knowledge mapping index to obtain a knowledge mapping index of abnormal session behavior description of each group of the first auxiliary interactive behavior events.

5. The big-data-based information processing method according to claim 2, wherein the determining the abnormal conversational behavior description of the risk event knowledge base in combination with the abnormal conversational behavior description of the second auxiliary interactive behavior event having the set business scenario topic and the knowledge mapping index to which no less than one group of abnormal conversational behavior descriptions of the first auxiliary interactive behavior event point respectively comprises:

combining the abnormal conversation behavior description of at least one group of second auxiliary type interactive behavior events, and creating an overall analysis result of the abnormal conversation behavior description of at least one group of second auxiliary type interactive behavior events;

creating abnormal session behavior descriptions of the risk event knowledge base by combining at least one group of abnormal session behavior descriptions of the second auxiliary type interactive behavior events, the integrity analysis result and at least one group of knowledge mapping indexes pointed by the abnormal session behavior descriptions of the first auxiliary type interactive behavior events;

correspondingly, the creating an abnormal conversational behavior description of the risk event knowledge base by combining the abnormal conversational behavior description of not less than one group of the second auxiliary interactive behavior events, the integrity analysis result, and the knowledge mapping index pointed by the abnormal conversational behavior description of not less than one group of the first auxiliary interactive behavior events comprises:

determining comparison conditions of the abnormal session behavior descriptions of the second auxiliary type interactive behavior events in each group by combining the abnormal session behavior descriptions of the second auxiliary type interactive behavior events in at least one group of abnormal session behavior descriptions of the second auxiliary type interactive behavior events and the overall analysis result;

performing extension operation on comparison conditions of respective directions of abnormal session behavior descriptions of at least one group of second auxiliary type interactive behavior events by combining knowledge mapping indexes of respective directions of the abnormal session behavior descriptions of at least one group of first auxiliary type interactive behavior events;

and combining the comparison condition of finishing the expansion operation and the integrity analysis result to create the abnormal conversation behavior description of the risk event knowledge base.

6. The big-data-based information processing method according to claim 2, wherein the method further comprises:

determining a plurality of auxiliary user service interaction records comprising a first auxiliary interaction behavior event;

and aiming at each auxiliary user service interaction record in the auxiliary user service interaction records, processing each auxiliary user service interaction record by means of an AI intelligent model which is debugged in advance to obtain abnormal conversation behavior description of the first auxiliary interaction behavior event in each auxiliary user service interaction record.

7. The big-data-based information processing method according to claim 2, wherein the method further comprises:

optimizing the abnormal conversation behavior description of the first auxiliary type interaction behavior event in the auxiliary type user service interaction record to obtain the abnormal conversation behavior description of the second auxiliary type interaction behavior event with the set service scene theme; or, in combination with a first auxiliary type interactive behavior event in the auxiliary type user service interactive record, creating a derived behavior event record covering a second auxiliary type interactive behavior event carrying the set service scene theme;

and creating an abnormal conversation behavior description of the second auxiliary type interaction behavior event in the derived behavior event record by means of an AI intelligent model which is debugged in advance.

8. An information anti-theft system is characterized by comprising a processor, a network module and a memory; the processor and the memory communicate through the network module, the processor reading a computer program from the memory and operating to perform the method of any of claims 1-7.

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