CN110851228B - Complex event visualization arrangement processing system and method - Google Patents

Abstract

The invention discloses a complex event visualization arrangement processing system and a complex event visualization arrangement processing method, wherein event information is acquired through an event acquisition module; the preprocessing module acquires a target event according to the event information; the scene event configuration module generates a visual scene configuration interface, acquires a configuration instruction based on the scene configuration interface, and processes the target event according to the configuration instruction to obtain a scene event; the scheduling module acquires attribute information of the service processing system, and sends the scene event to a target service processing system matched with the scene event based on the attribute information, so that the target service processing system processes the scene event. Since the visual scene configuration interface generated in the scene event configuration module includes several configuration components, a user may implement configuration of an event through selection of the configuration components. Based on the visual display in the process of arranging and scheduling the complex events, the flexibility of processing is realized, and the experience effect of operation and maintenance personnel is improved.

Description

Complex event visualization arrangement processing system and method

Technical Field

The invention relates to the technical field of data processing, in particular to a system and a method for visual arrangement and processing of complex events.

Background

Complex event processing (Complex event processing, CEP) is an analysis technique based on event streams in a dynamic environment, wherein events are usually meaningful state changes, and by analyzing the association among the events, and using filtering, association, aggregation and other techniques, detection rules are specified according to the time sequence relationship among the events and the aggregation relationship, a satisfactory event sequence is continuously queried from the event streams, and finally more complex composite events are obtained through analysis.

However, in the process of arranging and processing complex events in the prior art, script information corresponding to each complex event needs to be generated for each complex event, namely, when a new complex event is processed, the corresponding script information needs to be rearranged, so that the processing process is complicated, the flexibility is poor, and the experience effect of operation and maintenance personnel on complex event processing is reduced.

Disclosure of Invention

Aiming at the problems, the invention provides a complex event visual arrangement processing system and a complex event visual arrangement processing method, which realize processing flexibility and improve experience effects of operation and maintenance personnel based on visual display in the arrangement and scheduling processes of complex events.

In order to achieve the above object, the present invention provides the following technical solutions:

a complex event visualization orchestration processing system, the method comprising:

the event acquisition module is used for acquiring event information;

the preprocessing module is used for acquiring a target event according to the event information;

the scene event configuration module is used for generating a visual scene configuration interface, acquiring a configuration instruction based on the scene configuration interface, and processing the target event according to the configuration instruction to obtain a scene event; the visual scene configuration interface comprises a plurality of configuration components, wherein the configuration components are used for receiving configuration instructions and associating visual configuration rules; the configuration instructions characterize instructions generated from selected operations on the configuration component;

and the scheduling module is used for acquiring attribute information of the service processing system, and transmitting the scene event to a target service processing system matched with the scene event based on the attribute information so as to realize the processing of the scene event by the target service processing system.

Optionally, the event acquisition module includes:

an event receiving unit for receiving event information;

the event release unit is used for releasing the event information to the complex event visualization arrangement processing system;

the event query unit is used for receiving a query request and obtaining event information matched with the query request;

the event monitoring unit is used for monitoring the event information according to preset monitoring conditions so as to obtain the event information meeting the preset monitoring conditions.

Optionally, the event acquisition module further includes:

the permission control unit is used for monitoring access information to the event information, judging whether preset permission information is met or not based on the access information so as to display the event information to a user with access permission;

and the flow control unit is used for monitoring the flow information in the complex event visualization arrangement processing system so as to acquire the system flow state information according to the monitoring result.

Optionally, the preprocessing module includes:

a format processing unit, configured to convert the event information into a target format, where the target format is a format that can be identified by the configuration component;

and the content processing unit is used for processing the event information according to the target field to obtain a target event.

Optionally, the scene event configuration module includes:

the interface generation unit is used for generating a visual scene configuration interface and a configuration component in the visual scene configuration interface, wherein the configuration component is used for associating visual configuration rules;

the format conversion unit is used for carrying out format conversion on the target event so that the target event can be identified by the associated visual configuration rule;

the rule management module is used for managing the visual configuration rule so that the visual configuration rule meets the display condition of the configuration component;

the scene generation module is used for acquiring a configuration instruction through the configuration component, calling a matched visual configuration rule based on the configuration instruction, generating a scene event corresponding to the target event according to the visual configuration rule, and displaying the scene event.

Optionally, the scheduling module includes:

the attribute information acquisition unit is used for acquiring attribute information of the service processing system;

the scheduling policy matching unit is used for determining a target service system according to a preset scheduling policy and the attribute information;

a sending unit, configured to send the scenario event to the target service system;

and the execution unit is used for controlling the target service system to process the scene event.

Optionally, the system further comprises:

the recognition module is used for recognizing the target event according to a pre-established scene recognition model to obtain a scene event corresponding to the target event, wherein the scene recognition model is a model obtained by training through a machine learning algorithm according to the event in the complex event group as a training sample.

A method of complex event visualization orchestration processing, the method comprising:

acquiring event information;

acquiring a target event according to the event information;

generating a visual scene configuration interface, acquiring a configuration instruction based on the scene configuration interface, and processing the target event according to the configuration instruction to obtain a scene event; the visual scene configuration interface comprises a plurality of configuration components, wherein the configuration components are used for receiving configuration instructions and associating visual configuration rules; the configuration instructions characterize instructions generated from selected operations on the configuration component;

and acquiring attribute information of a service processing system, and transmitting the scene event to a target service processing system matched with the scene event based on the attribute information to realize the processing of the scene event by the target service processing system.

Optionally, the acquiring the target event according to the event information includes:

converting the event information into a target format, wherein the target format is a format which can be identified by the configuration component;

and processing the event information according to the target field to obtain a target event.

Optionally, the method further comprises:

identifying the target event according to a pre-established scene identification model to obtain a scene event corresponding to the target event, wherein the scene identification model is a model obtained by training through a machine learning algorithm according to the event in a complex event group as a training sample

Compared with the prior art, the invention provides a complex event visualization arrangement processing system and a complex event visualization arrangement processing method, wherein the system comprises the following steps: the event acquisition module is used for acquiring event information; the preprocessing module is used for acquiring a target event according to the event information; the scene event configuration module is used for generating a visual scene configuration interface, acquiring a configuration instruction based on the scene configuration interface, and processing the target event according to the configuration instruction to obtain a scene event; and the scheduling module is used for acquiring attribute information of the service processing system, and transmitting the scene event to a target service processing system matched with the scene event based on the attribute information so as to realize the processing of the scene event by the target service processing system. Because the visual scene configuration interface generated in the scene event configuration module comprises a plurality of configuration components, the configuration components are used for associating visual configuration rules; the user may implement the configuration of the event through selection of the configuration component. Based on the visual display in the process of arranging and scheduling the complex events, the flexibility of processing is realized, and the experience effect of operation and maintenance personnel is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present invention, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a system for visualizing and arranging complex events according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a complex event processing system according to an embodiment of the present invention;

fig. 3 is a flow chart of a complex event visualization arrangement processing method according to an embodiment of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The terms first and second and the like in the description and in the claims and in the above-described figures are used for distinguishing between different objects and not necessarily for describing a sequential or chronological order. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to the listed steps or elements but may include steps or elements not expressly listed.

In an embodiment of the present invention, there is provided a complex event visualization orchestration processing system, see fig. 1, including:

an event acquisition module 10 for acquiring event information;

a preprocessing module 11, configured to obtain a target event according to the event information;

the scene event configuration module 12 is configured to generate a visual scene configuration interface, acquire a configuration instruction based on the scene configuration interface, and process the target event according to the configuration instruction to obtain a scene event; the visual scene configuration interface comprises a plurality of configuration components, wherein the configuration components are used for receiving configuration instructions and associating visual configuration rules; the configuration instructions characterize instructions generated from selected operations on the configuration component;

and the scheduling module 13 is used for acquiring attribute information of the service processing system, and transmitting the scene event to a target service processing system matched with the scene event based on the attribute information, so as to realize the processing of the scene event by the target service processing system.

The complex event visualization orchestration process performed in the embodiments of the present application is a complex event orchestration process based on the international CloudEvent specification event. CloudEvents is a specification for describing event data in a generic format to provide interactive capabilities across services, platforms, and systems. The event format specifies how to serialize CloudEvent using some encoding format. Compatible CloudEvents implementations that support these encodings must follow the encoding rules specified in the corresponding event formats.

The event acquisition module 10 is mainly capable of acquiring event information, i.e. performing an event subscription function through it. The receiving, publishing and inquiring rights of the event are reasonably controlled through event subscription, and the event user and the acquired amount are authorized and controlled according to the service requirement. Thus, the event acquisition module primary functionality embodies the monitoring and review of events prior to their entry into the complex event visualization orchestration processing system provided by embodiments of the present application. Specifically, the event acquisition module may include a plurality of units that perform corresponding sub-functions, and specifically, the event acquisition module includes:

an event receiving unit for receiving event information;

the event release unit is used for releasing the event information to the complex event visualization arrangement processing system;

the event query unit is used for receiving a query request and obtaining event information matched with the query request;

the event monitoring unit is used for monitoring the event information according to preset monitoring conditions so as to obtain the event information meeting the preset monitoring conditions.

The event acquisition module further includes:

the permission control unit is used for monitoring access information to the event information, judging whether preset permission information is met or not based on the access information so as to display the event information to a user with access permission;

and the flow control unit is used for monitoring the flow information in the complex event visualization arrangement processing system so as to acquire the system flow state information according to the monitoring result.

Through the units, the event acquisition module not only can receive the event information, but also can release the event information, namely the event information can be known by a user who sends the event visualization arrangement processing system. The event information may include basic information of the event, namely, event type, event trigger condition, event attribute information, etc. Because the system provided by the embodiment of the application supports the inquiry of the user on the event, namely the inquiry request can be received, then the matched event information is obtained by analyzing according to the inquiry information included in the inquiry request, and the event information can be issued to the corresponding inquiry interface, so that the user who inquires the event can obtain the event information.

The embodiment of the application also provides an event monitoring function, namely, the event information can be monitored according to the preset monitoring conditions to obtain the event information meeting the conditions, so that the automation of the event information acquisition is realized. And meanwhile, authority control and flow control can be executed, so that the safety and availability of the event information are ensured.

In this embodiment of the present application, the preprocessing module 11 may obtain the target event according to the event information, so that conversion of the format of the event information may be implemented, and some content may also be screened, where the preprocessing module includes:

a format processing unit, configured to convert the event information into a target format, where the target format is a format that can be identified by the configuration component;

and the content processing unit is used for processing the event information according to the target field to obtain a target event.

The scene event configuration module is used for realizing the arrangement of the target event into the scene event. The scene event configuration module is used for generating a visual scene configuration interface, acquiring a configuration instruction based on the scene configuration interface, and processing the target event according to the configuration instruction to obtain a scene event; the visual scene configuration interface comprises a plurality of configuration components, wherein the configuration components are used for receiving configuration instructions and associating visual configuration rules; the configuration instructions characterize instructions generated from selected operations on the configuration component;

the configuration components capable of representing different configuration rules can be displayed on the scene configuration interface, and a user can realize the configuration of the visualization rules of different events through the selection, the dragging and the like of the configuration components, so that the visualization of the whole configuration process is realized.

Specifically, the scene event configuration module includes:

the interface generation unit is used for generating a visual scene configuration interface and a configuration component in the visual scene configuration interface, wherein the configuration component is used for associating visual configuration rules;

the format conversion unit is used for carrying out format conversion on the target event so that the target event can be identified by the associated visual configuration rule;

the rule management module is used for managing the visual configuration rule so that the visual configuration rule meets the display condition of the configuration component;

the scene generation module is used for acquiring a configuration instruction through the configuration component, calling a matched visual configuration rule based on the configuration instruction, generating a scene event corresponding to the target event according to the visual configuration rule, and displaying the scene event.

And then, the dispatch of the scene event is realized through the dispatching module, namely, the scene event is sent to the corresponding target service processing system, and the target service processing system executes the processing of the scene event.

Because there are a plurality of service processing systems for processing different scene events, the service processing system which is most matched with the current scene event is selected as a target service processing system for processing according to the attribute information of the service processing systems, namely the load information, the network information, the service scene category information and the like of the service processing systems.

For example, the event characterizes the event that the user logs in the website a, and the obtained scene event is a scene event for continuously logging in the website a for M times through configuration of the event, after the scene event is generated, the scene event, that is, the event that the user logs in the website a for M times, is sent to a target service processing system corresponding to the website a to perform a system, a processing result is obtained, for example, reward information is generated, and the reward information is sent to the user to be used as a reward for continuously logging in the website a by the user.

Specifically, the scheduling module includes:

the attribute information acquisition unit is used for acquiring attribute information of the service processing system;

the scheduling policy matching unit is used for determining a target service system according to a preset scheduling policy and the attribute information;

a sending unit, configured to send the scenario event to the target service system;

and the execution unit is used for controlling the target service system to process the scene event.

Correspondingly, the system further comprises:

the recognition module is used for recognizing the target event according to a pre-established scene recognition model to obtain a scene event corresponding to the target event, wherein the scene recognition model is a model obtained by training through a machine learning algorithm according to the event in the complex event group as a training sample.

Namely, for an event group which is too complex and is not easy to logically express, the model is used for deep learning through a neural network, training is carried out through related data accumulation, and then intelligent scene class identification is provided through an algorithm. Wherein the relevant data characterizes training samples, which may be complex events annotated with various information including context-related information.

Referring to fig. 2, a schematic structural diagram of a complex event processing system provided in an embodiment of the present application is shown, where related functions of event subscription, scenario event, schedule management, interface management, and scenario intelligent learning are included in the diagram. The event subscription function mainly comprises the functions of event receiving, event publishing, event inquiring, authority control, event monitoring and flow control; the scene event function comprises format conversion, rule management and information visual reconstruction functions; the scheduling management function comprises functions of format conversion, scheduling strategy, flow scheduling and scheduling configuration; the interface management function comprises the functions of format conversion, interface compiling and interface debugging.

Specifically, the receiving, publishing and inquiring rights of the event are reasonably controlled through event subscription, and the event stay and the acquisition amount are authorized and controlled according to the service requirement; after the event is acquired through event acceptance, the format conversion and rule processing of the event processing are configured through the visualized graph, so that a detailed and accurate scene event is formed; for event groups which are too complex and are not easy to logically express, establishing a model, performing deep learning through a neural network, performing training through related data accumulation, and then providing intelligent scene identification through an algorithm; for the identified scene event, distributing the event to different nodes of the interface cluster for service processing by using a strategy of visual configuration through visual scheduling configuration; for scheduling configuration which is not easy to be carried out according to rules, a model can be built, a large amount of data is trained, after model parameters are normal, the same-open algorithm service is carried out, and complex event scheduling is matched; interface management completes interface management of the docking third party system.

In the embodiment of the invention, the event processing is monitored preferentially through the event subscription; completing logic processing of related complex events through visual arrangement of scene events; reasonably controlling message routing through scheduling management; intelligent complex business rule management is provided through deep learning. Based on the visual display in the process of arranging and scheduling the complex events, the flexibility of processing is realized, and the experience effect of operation and maintenance personnel is improved.

Correspondingly, referring to fig. 3, in an embodiment of the present invention, there is further provided a method for processing visualization layout of a complex event, where the method includes:

s101, acquiring event information;

s102, acquiring a target event according to the event information;

s103, generating a visual scene configuration interface, acquiring a configuration instruction based on the scene configuration interface, and processing the target event according to the configuration instruction to obtain a scene event;

the visual scene configuration interface comprises a plurality of configuration components, wherein the configuration components are used for receiving configuration instructions and associating visual configuration rules; the configuration instructions characterize instructions generated from selected operations on the configuration component;

s104, acquiring attribute information of a service processing system, and transmitting the scene event to a target service processing system matched with the scene event based on the attribute information, so as to realize the processing of the scene event by the target service processing system.

Optionally, the acquiring the target event according to the event information includes:

converting the event information into a target format, wherein the target format is a format which can be identified by the configuration component;

and processing the event information according to the target field to obtain a target event.

Optionally, the method further comprises:

and identifying the target event according to a pre-established scene identification model to obtain a scene event corresponding to the target event, wherein the scene identification model is a model obtained by training through a machine learning algorithm according to the event in the complex event group as a training sample.

Specifically, the method and the system effectively subscribe and manage the events conforming to the CloudEvent track specification, provide event acceptance, release, inquiry and related authority control, flow control and monitoring, and keep the security of the system.

And processing the simple event information to form accurate scene events through visual format conversion and visual rule configuration.

Routing scheduling of services according to event attributes, service processing system pressure conditions, network conditions, tenant and other information

For algorithms which cannot be simply logically processed by business, the deep learning model and algorithm are simplified, related parameters are precisely trained through a large amount of data, and the learned model is formed into the algorithm to provide intelligent analysis, so that the business processing accuracy is improved, and the method mainly uses various neural network algorithms related to deep learning.

The scheme of the invention provides visual arrangement of related events and scheduling logics, is favorable for processing the service obtained by people, and can provide artificial intelligence auxiliary service for complex important service which is not easy to be processed logically by building a complex model through artificial intelligence for training. The flexibility of event processing is realized, and the experience effect of user processing is improved.

In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other. For the device disclosed in the embodiment, since it corresponds to the method disclosed in the embodiment, the description is relatively simple, and the relevant points refer to the description of the method section.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A complex event visualization orchestration processing system, the system comprising:

the event acquisition module is used for acquiring event information;

the preprocessing module is used for acquiring a target event according to the event information;

the scene event configuration module is used for generating a visual scene configuration interface, acquiring a configuration instruction based on the scene configuration interface, and processing the target event according to the configuration instruction to obtain a scene event; the visual scene configuration interface comprises a plurality of configuration components capable of representing different configuration rules, wherein the configuration components are used for receiving configuration instructions and associating the visual configuration rules; the configuration instruction characterizes an instruction generated according to the selected operation of the configuration component, and the configuration of the visualization rules of different events is realized;

the scheduling module is used for acquiring attribute information of the service processing system, and transmitting the scene event to a target service processing system matched with the scene event based on the attribute information so as to realize the processing of the scene event by the target service processing system;

the complex event visualization orchestration processing system at least comprises: event subscription, scene event, scheduling management, interface management and scene intelligent learning related functional modules;

the event subscription function module at least comprises event receiving, event publishing, event inquiring, authority control, event monitoring and flow control function modules;

the scene event functional module at least comprises a format conversion, rule management and information visual reconstruction functional module;

the dispatching management function module at least comprises a format conversion function module, a dispatching strategy function module, a flow dispatching function module and a dispatching configuration function module;

the interface management function module at least comprises a format conversion function module, an interface compiling function module and an interface debugging function module;

the event subscription function module is used for reasonably controlling the receiving, publishing and inquiring rights of the event and carrying out authorized control on event users and acquired amount according to service requirements;

after the event receiving functional module acquires the event, the event receiving functional module configures format conversion and rule processing of event processing through a visualized graph to form a scene event;

for complex event groups which are not easy to logically express, establishing a model, performing deep learning through a neural network, performing training through related data accumulation, and providing intelligent scene identification through an algorithm;

for the identified scene event, distributing the event to different nodes of the interface cluster for service processing by using a strategy of visual configuration through visual scheduling configuration;

for events which cannot be scheduled and configured according to rules, data training is carried out by establishing a model, after model parameters are determined, the same-open algorithm service is carried out, and complex event scheduling is matched;

interface management completes interface management of the docking third party system.

2. The system of claim 1, wherein the event acquisition module comprises:

an event receiving unit for receiving event information;

the event release unit is used for releasing the event information to the complex event visualization arrangement processing system;

the event query unit is used for receiving a query request and obtaining event information matched with the query request;

the event monitoring unit is used for monitoring the event information according to preset monitoring conditions so as to obtain the event information meeting the preset monitoring conditions.

3. The system of claim 1, wherein the event acquisition module further comprises:

the permission control unit is used for monitoring access information to the event information, judging whether preset permission information is met or not based on the access information so as to display the event information to a user with access permission;

and the flow control unit is used for monitoring the flow information in the complex event visualization arrangement processing system so as to acquire the system flow state information according to the monitoring result.

4. The system of claim 1, wherein the preprocessing module comprises:

a format processing unit, configured to convert the event information into a target format, where the target format is a format that can be identified by the configuration component;

and the content processing unit is used for processing the event information according to the target field to obtain a target event.

5. The system of claim 1, wherein the scenario event configuration module comprises:

the interface generation unit is used for generating a visual scene configuration interface and a configuration component in the visual scene configuration interface, wherein the configuration component is used for associating visual configuration rules;

the format conversion unit is used for carrying out format conversion on the target event so that the target event can be identified by the associated visual configuration rule;

the rule management module is used for managing the visual configuration rule so that the visual configuration rule meets the display condition of the configuration component;

the scene generation module is used for acquiring a configuration instruction through the configuration component, calling a matched visual configuration rule based on the configuration instruction, generating a scene event corresponding to the target event according to the visual configuration rule, and displaying the scene event.

6. The system of claim 1, wherein the scheduling module comprises:

the attribute information acquisition unit is used for acquiring attribute information of the service processing system;

the scheduling policy matching unit is used for determining a target service system according to a preset scheduling policy and the attribute information;

a sending unit, configured to send the scenario event to the target service system;

and the execution unit is used for controlling the target service system to process the scene event.

7. The system of claim 1, wherein the system further comprises:

the recognition module is used for recognizing the target event according to a pre-established scene recognition model to obtain a scene event corresponding to the target event, wherein the scene recognition model is a model obtained by training through a machine learning algorithm according to the event in the complex event group as a training sample.

8. A complex event visualization orchestration processing method, which is applied to a complex event visualization orchestration processing system, the method comprising:

acquiring event information;

acquiring a target event according to the event information;

generating a visual scene configuration interface, acquiring a configuration instruction based on the scene configuration interface, and processing the target event according to the configuration instruction to obtain a scene event; the visual scene configuration interface comprises a plurality of configuration components capable of representing different configuration rules, wherein the configuration components are used for receiving configuration instructions and associating the visual configuration rules; the configuration instruction characterizes an instruction generated according to the selected operation of the configuration component, and the configuration of the visualization rules of different events is realized;

acquiring attribute information of a service processing system, and transmitting the scene event to a target service processing system matched with the scene event based on the attribute information to realize the processing of the scene event by the target service processing system;

the complex event visualization orchestration processing system at least comprises: event subscription, scene event, scheduling management, interface management and scene intelligent learning related functional modules;

the event subscription function module at least comprises event receiving, event publishing, event inquiring, authority control, event monitoring and flow control function modules;

the scene event functional module at least comprises a format conversion, rule management and information visual reconstruction functional module;

the dispatching management function module at least comprises a format conversion function module, a dispatching strategy function module, a flow dispatching function module and a dispatching configuration function module;

the interface management function module at least comprises a format conversion function module, an interface compiling function module and an interface debugging function module;

the event subscription function module is used for reasonably controlling the receiving, publishing and inquiring rights of the event and carrying out authorized control on event users and acquired amount according to service requirements;

after the event receiving functional module acquires the event, the event receiving functional module configures format conversion and rule processing of event processing through a visualized graph to form a scene event;

for complex event groups which are not easy to logically express, establishing a model, performing deep learning through a neural network, performing training through related data accumulation, and providing intelligent scene identification through an algorithm;

for the identified scene event, distributing the event to different nodes of the interface cluster for service processing by using a strategy of visual configuration through visual scheduling configuration;

for events which cannot be scheduled and configured according to rules, data training is carried out by establishing a model, after model parameters are determined, the same-open algorithm service is carried out, and complex event scheduling is matched;

interface management completes interface management of the docking third party system.

9. The method of claim 8, wherein the obtaining a target event from the event information comprises:

converting the event information into a target format, wherein the target format is a format which can be identified by the configuration component;

and processing the event information according to the target field to obtain a target event.

10. The method of claim 8, wherein the method further comprises:

and identifying the target event according to a pre-established scene identification model to obtain a scene event corresponding to the target event, wherein the scene identification model is a model obtained by training through a machine learning algorithm according to the event in the complex event group as a training sample.