CN113657779A

CN113657779A - Dynamically-configured wind control decision method, system, equipment and storage medium

Info

Publication number: CN113657779A
Application number: CN202110962504.1A
Authority: CN
Inventors: 赵泽钰
Original assignee: Hangzhou Shiqu Information Technology Co ltd
Current assignee: Hangzhou Shiqu Information Technology Co ltd
Priority date: 2021-08-20
Filing date: 2021-08-20
Publication date: 2021-11-16
Anticipated expiration: 2041-08-20
Also published as: CN113657779B

Abstract

The application discloses a dynamically-configured wind control decision method, which comprises the steps of receiving an instruction for initiating a wind control access application, which is input by a service worker; receiving an instruction for accepting the wind control access application input by a wind control worker; calling a decision tree arrangement module, wherein the decision tree is a multi-node, multi-flow and custom-configurable wind control decision link, receiving configuration parameters input by wind control personnel, and carrying out decision tree arrangement configuration to obtain a configuration result; submitting the configuration result to audit, receiving an instruction of completing the audit, and performing configuration synchronization; and receiving a wind control request, reading the configuration result, executing the decision tree, and outputting a wind control decision based on the decision tree. By adopting the method, the configuration is more flexible and unified, rapid adjustment can be realized, the overall working efficiency is improved, and the method is suitable for more wind control service scenes. The application also discloses a dynamically-configured wind control decision making system, equipment and a storage medium.

Description

Dynamically-configured wind control decision method, system, equipment and storage medium

Technical Field

The invention belongs to the technical field of Internet wind control, and particularly relates to a dynamically-configured wind control decision method, a system, equipment and a storage medium.

Background

With the transformation and rapid development of digital economy, market environment and policy-oriented changes are more frequent, and enterprises face more and more risk games. However, most of the existing wind control in the two major industries of e-commerce and finance is from business, the capabilities of different business adaptation, link trend, parameter assembly, decision analysis and the like are realized through a large amount of hard codes, the flexibility of the wind control is generally focused on performing rule configuration execution on assembled parameters, however, the difference of internal standardization processes is large, and the configuration capability of the wind control link is weak.

Disclosure of Invention

In order to solve the problems, the invention provides a dynamically-configured wind control decision method, a system, equipment and a storage medium, the configuration is more flexible, unified and standard, rapid adjustment can be realized, the overall working efficiency is improved, and the method is suitable for more wind control service scenes.

The invention provides a dynamically-configured wind control decision method, which comprises the following steps:

receiving an instruction for initiating a wind control access application input by a service worker;

receiving an instruction for accepting the wind control access application input by a wind control worker;

calling a decision tree arrangement module, wherein the decision tree is a multi-node, multi-flow and custom-configurable wind control decision link, receiving configuration parameters input by wind control personnel, and carrying out decision tree arrangement configuration to obtain a configuration result;

submitting the configuration result to audit, receiving an instruction of completing the audit, and performing configuration synchronization;

and receiving a wind control request, reading the configuration result, executing the decision tree, and outputting a wind control decision based on the decision tree.

Preferably, in the above dynamically-configured wind control decision method, the method further includes:

receiving an instruction for modifying the decision tree arrangement configuration input by a wind control worker, and modifying the decision tree arrangement configuration to obtain a modified configuration result;

and submitting the modified configuration result to audit, receiving an instruction of finishing the audit, and performing configuration synchronization again.

Preferably, in the above dynamically configured wind control decision method, the invoking a decision tree arrangement module receives configuration parameters input by the wind control staff, and performs decision tree arrangement configuration, where obtaining a configuration result includes:

a decision tree arrangement calling module for receiving the original parameter input type, field name, parameter name and whether transmission is necessary or not input by the wind control personnel, a completion data confirmation instruction and an original parameter input confirmation instruction required by calling the completion data;

building core nodes by using the process nodes, connecting each node by using a connecting line, drawing the decision tree, and confirming the internal name of each process node;

and performing flow direction condition configuration, actuator node module degradation configuration, actuator node module default decision configuration, actuator node module participation selection configuration, script content configuration, script node associated script content configuration, scorecard node configuration and participation configuration to obtain a configuration result.

Preferably, in the above dynamically-configured wind control decision method, the receiving a wind control request, reading the configuration result, executing the decision tree, and outputting a wind control decision based on the decision tree includes:

receiving the wind control request, and reading the configuration result;

searching and confirming an effective starting node, if the effective starting node is not found, sending out execution error information, if the effective starting node is found, executing output regulation configuration, and searching a next node;

if the next node is not found, sending out execution error information, and if the next node exists, summarizing original input parameters, completion parameters and upstream node output parameters before executing the next node;

executing different node contents according to the node types, and if the next node is an actuator node, keeping the decision information as the latest decision information;

continuously executing the output condition, and searching a next node until the node is finished;

assembling the latest decision information into a final decision, and performing parameter data assembly based on parameter configuration;

and if the final decision information is not found when the end node is reached, sending information that the default wind control decision passes.

The invention provides a dynamically-configured wind control decision system, which comprises:

the system comprises a wind control access application instruction receiving device, a wind control access application receiving device and a wind control access application receiving device, wherein the wind control access application instruction receiving device is used for receiving an instruction for initiating a wind control access application, which is input by a service worker;

the wind control access application instruction accepting device is used for receiving an instruction for accepting the wind control access application, which is input by wind control personnel;

the decision tree arrangement configuration device is used for calling a decision tree arrangement module, the decision tree is a multi-node, multi-flow and custom-configurable wind control decision link, receives configuration parameters input by wind control personnel, and performs decision tree arrangement configuration to obtain a configuration result;

a submission auditing and configuration synchronizing device used for submitting the configuration result to auditing, receiving an instruction of auditing completion and carrying out configuration synchronization;

and the decision tree executing device is used for receiving the wind control request, reading the configuration result, executing the decision tree and outputting the wind control decision based on the decision tree.

Preferably, in the above dynamically-configured wind control decision system, further comprising:

the decision tree arrangement configuration modification device is used for receiving an instruction for modifying the decision tree arrangement configuration input by a wind control worker, and modifying the decision tree arrangement configuration to obtain a modified configuration result; and submitting the modified configuration result to audit, receiving an instruction of finishing the audit, and performing configuration synchronization again.

Preferably, in the above dynamically configured wind control decision system, the decision tree arrangement and configuration device is specifically configured to:

Preferably, in the above dynamically-configured wind control decision system, the decision tree executing device is specifically configured to:

receiving the wind control request, and reading the configuration result;

The invention provides a dynamically-configured wind control decision device, which comprises:

a memory for storing a computer program;

a processor for executing the computer program to implement the dynamically configurable wind control decision method of any of the above.

The present invention provides a storage medium having a computer program stored thereon, which, when executed by a processor, implements the steps of the dynamically configurable wind control decision method according to any of the above.

As can be seen from the above description, the dynamically-configured wind control decision method provided by the present invention includes receiving an instruction for initiating a wind control access application, which is input by a service person; receiving an instruction for accepting the wind control access application input by a wind control worker; calling a decision tree arrangement module, wherein the decision tree is a multi-node, multi-flow and custom-configurable wind control decision link, receiving configuration parameters input by wind control personnel, and carrying out decision tree arrangement configuration to obtain a configuration result; submitting the configuration result to audit, receiving an instruction of completing the audit, and performing configuration synchronization; the method comprises the steps of receiving a wind control request, reading a configuration result, executing a decision tree and outputting a wind control decision based on the decision tree, wherein the decision tree adopted by the method is a multi-node, multi-flow and custom-configurable wind control decision link, so that the configuration is more flexible, unified and standard, rapid adjustment can be realized, the overall working efficiency is improved, and the method is suitable for more wind control service scenes. The present invention provides the above-described apparatus, device and storage medium with the same advantages as the above-described method.

Drawings

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

FIG. 1 is a schematic diagram of an embodiment of a dynamically configurable wind control decision method according to the present invention;

FIG. 2 is a schematic diagram of an embodiment of a dynamically configurable wind control decision system according to the present invention;

FIG. 3 is a schematic diagram of an embodiment of a dynamically configurable wind control decision device according to the present invention;

fig. 4 is a flow chart of a wind control access in a wind control decision method based on dynamic configuration;

fig. 5 is a decision execution flow chart in a dynamically-configured wind control decision method.

Detailed Description

The core of the invention is to provide a dynamically-configured wind control decision method, a system, equipment and a storage medium, the configuration is more flexible and unified, the rapid adjustment can be realized, the overall working efficiency is improved, and the method is suitable for more wind control service scenes.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Fig. 1 shows an embodiment of a dynamically-configured wind control decision method provided by the present invention, where fig. 1 is a schematic diagram of an embodiment of a dynamically-configured wind control decision method provided by the present invention, and the method may include the following steps:

s1: receiving an instruction for initiating a wind control access application input by a service worker;

that is to say, in the wind control access stage, a service person initiates a wind control access application at the beginning, referring to fig. 4, fig. 4 is a flow chart of wind control access in a wind control decision method based on dynamic configuration, specifically, the service person fills an access mode, including system interface access and message queue access; then, filling a service scene by service personnel; finally, the service personnel confirm the original participating person and the attributive person and give parameter samples.

S2: receiving a command for accepting a wind control access application input by a wind control worker;

that is, the wind controller receives the application, and may give a corresponding instruction to the computer, and the wind controller receiving part in fig. 4 is referred to continuously, which is a loop including: original entry screening, data completion configuration, decision tree, module configuration, deployment application and auditing and version management.

S3: calling a decision tree arrangement module, wherein the decision tree is a multi-node, multi-flow and custom-configurable wind control decision link, receiving configuration parameters input by wind control personnel, and carrying out decision tree arrangement configuration to obtain a configuration result;

that is, after the application is accepted, the arrangement configuration of the decision tree can be performed, and the wind control personnel can input some configuration parameters matched with the current wind control decision to obtain the configuration corresponding to the current wind control decision.

The multiple nodes refer to multiple decision tree process nodes and comprise a starting node, an actuator node, a score card node, a script node and an ending node, wherein the actuator node refers to an actuator which executes specific wind control rules and gives wind control decisions and comprises a front module and a rule module, and the module execution sequence of the actuator node comprises the following conditions: only configuring a front module; only configuring the rule module; and meanwhile, a front module and a rule module are configured, and the front module is executed firstly. The actuator front module verifies historical control user risk information in a black and white list, risk attributes and other modes, and extracts corresponding decision information if risk information is hit after the actuator front module completes execution; if the risk information is not hit, extracting default decision information; if the decision result is downward transparent transmission and the actuator node has a configuration rule module, continuing to execute the rule module; and if the decision result is not transmitted downwards or the actuator node is not provided with the rule module, the actuator node finishes executing and carries out the next process. The executor rule module executes the configured rule list in batches by using an expression execution framework, and outputs the rule list in a unified mode. After the execution of the executor rule module is completed, if the rule information is hit, the corresponding decision information is carried out in advance; if the rule information is not hit, the decision information is defaulted in advance. And then the executor node executes the next process. The scoring card node configures an execution mathematical formula and calculates a risk scoring value based on a scoring rule execution result, a single node may configure a plurality of scoring rules, and after a certain rule is hit, the mathematical formula in the scoring card node is calculated and returned as a result. The script node is based on a dynamic script language, and is used for solving the service requirement that the standard wind control process cannot meet, and performing customized complex scene development, and the supported capability of the script node includes but is not limited to the following descriptions: the method comprises the steps of pushing a message queue, accessing a database, reading a distributed configuration center, calling other internal and external interfaces, packaging a complex service logic function and the like, wherein a script content is associated with a script node, the iteration of the script content does not need configuration updating of a decision tree, the script content is newly added and enters auditing after updating, after the auditing is completed, the script content records a historical version, meanwhile, the latest version is synchronized to the decision tree, and the script content allows a rollback version to enter an auditing flow. And the end node is used for marking the completion of the execution of the decision tree, reading the parameter configuration, standardizing the assembly parameter and outputting the final wind control decision.

The multi-flow direction refers to that a single node allows a plurality of input sources, which are a plurality of output sources of a node or a plurality of nodes at the upstream, and a single node allows a plurality of output flows, the flow direction configuration on the output flows is sequentially executed, if no flow direction condition is configured, the default selection is carried out, the execution result of the executed node is taken as the execution exit parameter, together with the original entry parameter, as the entry parameter of the subsequent node along with the execution of the decision tree,

the self-defined configuration comprises basic input parameter configuration, data multi-stage completion configuration, node configuration, flow direction condition configuration, degradation configuration, default decision configuration and output parameter configuration, wherein the basic input parameter configuration is used for defining original input parameters of the wind control service, and the original input parameters are called and filled by service personnel and are as concise as possible; the data multilevel completion configuration is an aggregation of the wind control data capacity, and the wind control aggregation index data and the internal data are provided uniformly and are provided for the follow-up flow nodes to be used during execution. The degraded configuration is configured independently and acts on a preposed module and a rule module of the actuator node, if a certain module starts the degraded configuration, the module is not executed, and the default decision configuration is returned.

The starting node is a decision tree entry, if the starting node is not configured, the starting node cannot be found in the execution of the decision tree, and an error is returned; if a plurality of starting nodes are configured, the decision tree executes respective flow direction condition configuration to lock the really effective starting nodes; and if the starting nodes flow to a plurality of matched conditions, one of the starting nodes is arbitrarily selected as the effective starting node.

S4: submitting the configuration result to audit, receiving an instruction of completing the audit, and performing configuration synchronization;

that is, after configuration is completed, the configuration is submitted to relevant personnel for auditing, and when an instruction of auditing completion is sent by an auditor, the configuration can be synchronized to the system for application.

S5: and receiving a wind control request, reading a configuration result, executing a decision tree, and outputting a wind control decision based on the decision tree.

It should be noted that this is to enter a wind control execution phase, specifically, the wind control request is automatically initiated by the system, and reading the configuration may include the following steps: based on the service key in the parameter, the decision tree configuration is pulled from the cache; if no configuration exists, returning to execute an error; if configuration exists, a decision tree is executed.

The decision tree is utilized to obtain more accurate wind control decisions corresponding to the current scene, the method has universality, and the method comprises the adaptation of wind control services such as credit, reverse arbitrage, reverse cheating, payment and account numbers, the difference of traditional wind control different service development is abandoned, the kernel is concentrated, a unified and standardized configuration management system is established, the overall working efficiency is improved, the decision tree is flexible in arrangement and configuration, and meanwhile, the method can be rapidly adjusted according to the service change.

As can be seen from the above description, in the embodiment of the dynamically-configured wind control decision method provided by the present invention, the instruction for initiating a wind control access application input by a service person is received; receiving a command for accepting a wind control access application input by a wind control worker; calling a decision tree arrangement module, wherein the decision tree is a multi-node, multi-flow and custom-configurable wind control decision link, receiving configuration parameters input by wind control personnel, and carrying out decision tree arrangement configuration to obtain a configuration result; submitting the configuration result to audit, receiving an instruction of completing the audit, and performing configuration synchronization; the method comprises the steps of receiving a wind control request, reading a configuration result, executing a decision tree, and outputting a wind control decision based on the decision tree.

In a specific embodiment of the above dynamically-configured wind control decision method, the method may further include the following steps:

receiving a command for modifying the arrangement configuration of the decision tree input by the wind control personnel, and modifying the arrangement configuration of the decision tree to obtain a modified configuration result;

and submitting the modified configuration result to audit, receiving an instruction of completing the audit, and performing configuration synchronization again.

That is to say, the decision tree can be modified for the online wind control service, after the modification is completed, the audit is submitted, and after the audit is completed, the configuration synchronization is performed again, so that the adaptability improvement can be conveniently performed for some scenes. One specific example is as follows:

if the wind control decision link is to be adjusted, carrying out clone operation, copying a piece of decision tree data in batch, increasing the version number at the same time, providing the decision tree data for modification configuration, and isolating the decision tree data from the version running on the line without influencing each other; after configuration is completed, submitting audit; after the audit is finished, the old version data is covered by the decision tree data of the new version, so that the aim of configuration synchronization is fulfilled; if the wind control decision link is required to be rolled back, rolling back operation is carried out, and if no historical version exists at present, the rolling back function cannot be provided; if the current historical version exists, rolling back to the version which is in effect on the last line, and then performing effect after checking; and if the wind control decision link needs to be offline, performing offline operation, and taking effect after auditing.

In another specific embodiment of the above dynamically-configured wind control decision method, the invoking a decision tree arrangement module receives configuration parameters input by a wind control worker, and performing decision tree arrangement configuration to obtain a configuration result may specifically include:

the method comprises the steps that a decision tree arrangement module is called, and an original parameter input type, a field name and a parameter name which are input by a wind control worker, whether transmission is necessary or not, a completion data confirmation instruction and an original parameter input confirmation instruction required by calling completion data are received;

building core nodes by using the process nodes, connecting each node by using a connecting line, drawing a decision tree, and confirming the internal name of each process node;

In another specific embodiment of the above dynamically-configured wind control decision method, receiving a wind control request, reading a configuration result, executing a decision tree, and outputting a wind control decision based on the decision tree may specifically include:

referring to fig. 5, fig. 5 is a decision execution flow chart of a wind control decision method based on dynamic configuration, first, a wind control request is received from a start node, and a configuration result is read from a configuration center;

searching and confirming an effective starting node, if no effective starting node is found, sending out execution error information, directly reaching an ending node for outputting, and if an effective starting node is found, executing output regulation configuration and searching a next node;

Fig. 2 shows an embodiment of a dynamically-configured wind control decision system provided by the present invention, and fig. 2 is a schematic diagram of an embodiment of a dynamically-configured wind control decision system provided by the present invention, where the system includes:

a wind control access application instruction receiving device 201, configured to receive an instruction for initiating a wind control access application, which is input by a service worker;

the wind control access application instruction receiving device 202 is used for receiving an instruction for receiving a wind control access application, which is input by a wind control worker;

the decision tree arrangement configuration device 203 is used for calling a decision tree arrangement module, the decision tree is a multi-node, multi-flow and custom-configurable wind control decision link, receives configuration parameters input by wind control personnel, and performs decision tree arrangement configuration to obtain a configuration result;

a submission auditing and configuration synchronizing device 204, configured to submit the configuration result to auditing, receive an instruction of auditing completion, and perform configuration synchronization;

and the decision tree executing device 205 is configured to receive the wind control request, read the configuration result, execute the decision tree, and output a wind control decision based on the decision tree.

As can be seen from the above description, in the embodiment of the dynamically-configured wind control decision system provided by the present invention, the system includes a wind control access application instruction receiving device, which is used for receiving an instruction for initiating a wind control access application, which is input by a service person; the wind control access application instruction receiving device is used for receiving an instruction for receiving a wind control access application input by a wind control worker; the decision tree arrangement configuration device is used for calling a decision tree arrangement module, the decision tree is a multi-node, multi-flow and custom-configurable wind control decision link, receives configuration parameters input by wind control personnel, and performs decision tree arrangement configuration to obtain a configuration result; the submission auditing and configuration synchronizing device is used for submitting the configuration result to auditing, receiving an instruction of auditing completion and carrying out configuration synchronization; the decision tree execution device is used for receiving the wind control request, reading the configuration result, executing the decision tree and outputting the wind control decision based on the decision tree, so that the configuration is more flexible, unified and standard, rapid adjustment can be realized, the overall working efficiency is improved, and the decision tree execution device is suitable for more wind control service scenes.

In an embodiment of the above dynamically configured wind control decision system, the method may further include:

the decision tree arrangement configuration modification device is used for receiving a command for modifying the decision tree arrangement configuration input by the wind control personnel, and modifying the decision tree arrangement configuration to obtain a modified configuration result; and submitting the modified configuration result to audit, receiving an instruction of completing the audit, and performing configuration synchronization again.

That is to say, the decision tree can be modified for the online wind control service, after the modification is completed, the audit is submitted, and after the audit is completed, the configuration synchronization is performed again, so that the adaptability improvement can be conveniently performed for some scenes.

In another embodiment of the above dynamically configured wind control decision system, the decision tree arrangement and configuration device is specifically configured to:

In another embodiment of the above dynamically configured wind control decision system, the decision tree executing device is specifically configured to:

receiving a wind control request, and reading a configuration result;

Fig. 3 shows an embodiment of a dynamically-configured wind control decision device provided by the present invention, where fig. 3 is a schematic diagram of an embodiment of a dynamically-configured wind control decision device provided by the present invention, and the device may include:

a memory 301 for storing a computer program;

a processor 302 for executing a computer program to implement the dynamically configurable wind control decision method of any of the above.

In an embodiment of a storage medium, the storage medium has a computer program stored thereon, and the computer program, when executed by a processor, implements the steps of the dynamically configurable wind control decision method as described in any of the above.

The equipment and the storage medium provided by the invention are more flexible in configuration, unified and standard, can realize rapid adjustment, improve the overall working efficiency and are suitable for more wind control service scenes.

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

1. A dynamically-configurable wind control decision method is characterized by comprising the following steps:

2. The dynamically configurable wind control decision method according to claim 1, further comprising:

3. The dynamically-configurable wind control decision method according to claim 1, wherein the invoking of the decision tree arrangement module receives configuration parameters input by the wind control personnel, and performs decision tree arrangement configuration to obtain a configuration result includes:

4. The dynamically configurable wind control decision method according to claim 1, wherein the receiving a wind control request, reading the configuration result, executing the decision tree, and outputting a wind control decision based on the decision tree comprises:

receiving the wind control request, and reading the configuration result;

5. A dynamically configurable wind control decision system, comprising:

6. The dynamically configurable wind control decision system according to claim 5, further comprising:

7. The dynamically configurable wind control decision system according to claim 5, wherein the decision tree orchestration configuration device is specifically configured to:

8. The dynamically configurable wind control decision system according to claim 5, wherein the decision tree executing means is specifically configured to:

receiving a wind control request, and reading the configuration result;

9. A dynamically configurable wind control decision device, comprising:

a memory for storing a computer program;

a processor for executing the computer program to implement the dynamically configurable wind control decision method of any of claims 1-4.

10. A storage medium, characterized in that the storage medium has stored thereon a computer program which, when being executed by a processor, carries out the steps of the dynamically configurable wind control decision method according to any one of claims 1-4.