CN113657779B - Dynamic configuration wind control decision method, system, equipment and storage medium - Google Patents
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Abstract
The application discloses a dynamic configuration wind control decision method, which comprises the steps of receiving a command for initiating a wind control access application, which is input by a business person; receiving an instruction which is input by a wind control person and used for accepting the wind control access application; invoking a decision tree arrangement module, wherein the decision tree is a multi-node, multi-flow-direction and self-definable wind control decision link, receiving configuration parameters input by wind control personnel, and performing decision tree arrangement configuration to obtain a configuration result; submitting the configuration result to auditing, receiving an auditing completed instruction, 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, the rapid adjustment can be realized, the overall working efficiency is improved, and the method is suitable for more wind control business scenes. The application also discloses a dynamically configured wind control decision system, a device and a storage medium.
Description
Technical Field
The invention belongs to the technical field of Internet wind control, and particularly relates to a dynamic configuration wind control decision method, a system, equipment and a storage medium.
Background
With the transformation and rapid development of digital economies, market environment and policy oriented changes are more frequent, and enterprises face more and more risk games. However, most of the current wind control of two main industries of e-commerce and finance is from service, and the capability of different service adaptation, link trend, parameter assembly, decision analysis and the like is realized through a large amount of hard codes, so that the flexibility is generally concentrated on performing regular configuration on the assembled parameters, however, the difference of internal standardization processes is relatively large, and the wind control link configuration capability 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, which are more flexible and unified in configuration, can realize rapid adjustment, improve the overall working efficiency and are suitable for more wind control business scenes.
The invention provides a dynamic configuration wind control decision method, which comprises the following steps:
receiving an instruction for initiating a wind control access application, which is input by a service person;
receiving an instruction which is input by a wind control person and used for accepting the wind control access application;
invoking a decision tree arrangement module, wherein the decision tree is a multi-node, multi-flow-direction and self-definable wind control decision link, receiving configuration parameters input by wind control personnel, and performing decision tree arrangement configuration to obtain a configuration result;
submitting the configuration result to auditing, receiving an auditing completed instruction, 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 dynamically configured wind control decision method, the method further includes:
receiving an instruction for modifying the decision tree arrangement configuration, which is input by a wind control person, modifying the decision tree arrangement configuration, and obtaining a modified configuration result;
submitting the modified configuration result to auditing, receiving an auditing completed instruction, and carrying out configuration synchronization again.
Preferably, in the dynamically configured wind control decision method, the calling decision tree arrangement module receives configuration parameters input by the wind control personnel, and performs decision tree arrangement configuration, and the obtaining a configuration result includes:
a decision tree arrangement module is called, and the original parameter entering type, field name, parameter name, whether the original parameter entering type, field name and parameter name are transmitted or not and whether the data confirmation instruction is needed to be transmitted or not and the original parameter entering confirmation instruction needed to call the complement data are received;
building a core node by using flow nodes, connecting each node by using a connecting line, drawing the decision tree, and confirming the internal name of each flow node;
and carrying out flow direction condition configuration, degradation configuration of an actuator node module, default decision configuration of the actuator node module, entry selection configuration of the actuator node module, script content configuration, script node association script content configuration, score card node configuration and parameter output configuration to obtain a configuration result.
Preferably, in the 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 for a valid starting node, sending out execution error information if the valid starting node is not found, and executing output adjustment configuration if the valid starting node is found, and searching for the next node;
if the next node is not found, sending out execution error information, and if the next node exists, summarizing original entering parameters, complement parameters and upstream node exiting parameters before executing the next node;
executing different node contents according to the node type, and if the next node is an executor node, reserving decision information as latest decision information;
continuing to execute the output condition, searching for the next node until the node is finished;
assembling the latest decision information as a final decision, and performing parameter output data assembly based on parameter output configuration;
if the final decision information is not found, sending out the information that the default wind control decision passes.
The invention provides a dynamically configured wind control decision system, which comprises:
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 person;
the wind control access application instruction accepting device is used for receiving an instruction which is input by a wind control person and is used for accepting the wind control access application;
the decision tree arrangement configuration device is used for calling a decision tree arrangement module, wherein the decision tree is a multi-node, multi-flow-direction and self-definable configured wind control decision link, receiving configuration parameters input by wind control personnel, and carrying out decision tree arrangement configuration to obtain a configuration result;
the submitting auditing and configuration synchronizing device is used for submitting the configuration result to auditing, receiving an auditing completed instruction and performing configuration synchronization;
and the decision tree execution device is used for receiving the 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 dynamically configured wind control decision system, the method further includes:
the decision tree arrangement configuration modification device is used for receiving an instruction for modifying the decision tree arrangement configuration, which is input by a wind control personnel, and modifying the decision tree arrangement configuration to obtain a modified configuration result; submitting the modified configuration result to auditing, receiving an auditing completed instruction, and carrying out configuration synchronization again.
Preferably, in the dynamically configured wind control decision system, the decision tree arrangement configuration device is specifically configured to:
a decision tree arrangement module is called, and the original parameter entering type, field name, parameter name, whether the original parameter entering type, field name and parameter name are transmitted or not and whether the data confirmation instruction is needed to be transmitted or not and the original parameter entering confirmation instruction needed to call the complement data are received;
building a core node by using flow nodes, connecting each node by using a connecting line, drawing the decision tree, and confirming the internal name of each flow node;
and carrying out flow direction condition configuration, degradation configuration of an actuator node module, default decision configuration of the actuator node module, entry selection configuration of the actuator node module, script content configuration, script node association script content configuration, score card node configuration and parameter output configuration to obtain a configuration result.
Preferably, in the 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;
searching for a valid starting node, sending out execution error information if the valid starting node is not found, and executing output adjustment configuration if the valid starting node is found, and searching for the next node;
if the next node is not found, sending out execution error information, and if the next node exists, summarizing original entering parameters, complement parameters and upstream node exiting parameters before executing the next node;
executing different node contents according to the node type, and if the next node is an executor node, reserving decision information as latest decision information;
continuing to execute the output condition, searching for the next node until the node is finished;
assembling the latest decision information as a final decision, and performing parameter output data assembly based on parameter output configuration;
if the final decision information is not found, sending out the information that the default wind control decision passes.
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 stored thereon a computer program which, when executed by a processor, implements the steps of the dynamically configurable wind control decision method as set forth in any one of the preceding claims.
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 input by a service person; receiving an instruction which is input by a wind control person and used for accepting the wind control access application; invoking a decision tree arrangement module, wherein the decision tree is a multi-node, multi-flow-direction and self-definable wind control decision link, receiving configuration parameters input by wind control personnel, and performing decision tree arrangement configuration to obtain a configuration result; submitting the configuration result to auditing, receiving an auditing completed instruction, and performing configuration synchronization; the wind control request is received, the configuration result is read, the decision tree is executed, and the wind control decision based on the decision tree is output, so that the decision tree adopted by the method is a multi-node, multi-flow and self-defined configuration wind control decision link, the configuration is more flexible and unified, the rapid adjustment can be realized, the overall working efficiency is improved, and the method is applicable to more wind control business scenes. The apparatus, device and storage medium of the present invention have the same advantages as the above method.
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 an embodiment of a dynamically configurable wind control decision method provided by the present invention;
FIG. 2 is a schematic diagram of an embodiment of a dynamically configurable wind-controlled decision system according to the present invention;
FIG. 3 is a schematic diagram of an embodiment of a dynamically configurable wind-controlled decision device provided by 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 flow chart of decision execution in a dynamically configurable based wind control decision method.
Detailed Description
The core of the invention is to provide a dynamic configuration wind control decision method, a system, equipment and a storage medium, so that the configuration is more flexible and unified and standard, the rapid adjustment can be realized, the overall working efficiency is improved, and the method is suitable for more wind control business scenes.
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.
An embodiment of a dynamically configurable wind control decision method provided by the present invention is shown in fig. 1, and fig. 1 is a schematic diagram of an embodiment of a dynamically configurable wind control decision method provided by the present invention, where the method may include the following steps:
s1: receiving an instruction for initiating a wind control access application, which is input by a service person;
that is, 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 wind control access flow chart in a wind control decision method based on dynamic configuration, specifically, the service person fills in an access mode, including system interface access and message queue access; then filling in a service scene by service personnel; finally, the industry personnel confirms the original entering person and the attributing person and gives a parameter sample.
S2: receiving an instruction of receiving a wind control access application input by a wind control person;
that is, the wind control personnel accepts the application, and can give a corresponding instruction to the computer, and continue to refer to the wind control acceptance portion in fig. 4, which is a cycle including: original entry screening, data complement configuration, decision tree, module configuration, deployment application, auditing and version management.
S3: invoking a decision tree arrangement module, wherein the decision tree is a multi-node, multi-flow-direction and self-definable 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 receiving the application, 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 multi-node is a plurality of decision tree flow nodes and comprises a start node, an executor node, a scoring card node, a script node and an end node, wherein the executor node is an executor for executing wind control specific rules and giving wind control decisions, the multi-node decision tree flow nodes comprise a front-end module and a rule module, and the module execution sequence of the executor node comprises the following conditions: only configuring a front module; only configuring a rule module; meanwhile, a pre-module and a rule module are configured, and the pre-module is executed first. The front-end module of the executor checks the user risk information managed by the history by using black-white lists, risk attributes and other modes, and extracts corresponding decision information if the risk information is hit after the front-end module of the executor completes execution; if the hit risk information is not found, extracting default decision information; if the decision result is downward transparent transmission, and the executor node is provided with a configuration rule module, continuing to execute the rule module; if the decision result is not downward transparent, or the executor node does not have a rule module, the executor node finishes execution and carries out the next flow. And the executor rule module executes the configured rule list in batches by using the expression execution framework and uniformly outputs the rule list. After the executor rule module completes execution, if rule information is hit, corresponding decision information is advanced; if the rule information is not hit, the default decision information is advanced. And then the executor node finishes execution and carries out the next flow. The scoring card node executes a mathematical formula based on the scoring rule execution result, calculates a risk scoring value, and a single node may configure a plurality of scoring rules, calculate the mathematical formula therein after a certain rule hits, and return as a result. The script node is based on a dynamic script language and is used for solving the service requirement which cannot be met by a standard wind control flow, and carrying out customized complex scene development, and the supporting capability of the script node comprises but is not limited to the following description: pushing a message queue, accessing a database, reading a distributed configuration center, calling other internal and external interfaces, packaging complex business logic functions and the like, associating a script node with a script content, carrying out iteration of the script content without configuration updating of a decision tree, entering an audit after the script content is newly added and updated, recording a historical version of the script content after the audit is completed, synchronizing the latest version to the decision tree, allowing the script content to roll back the version, and entering an audit flow. The ending node is used for marking the execution completion of the decision tree, reading out parameter configuration, standardizing assembly of the parameter, and outputting a final wind control decision.
The multi-direction refers to that a single node allows multiple input sources, essentially multiple output sources of the previous node or multiple upstream nodes, the single node allows multiple output streams, the flow direction configuration on the output streams is sequentially executed, if no flow direction condition is configured, the default selection is performed, along with the execution of the decision tree, the execution result of the executed node is taken as an execution output parameter, together with the original input parameter, as the input parameter of the subsequent node,
the customizable configuration comprises a basic parameter entering configuration, a data multi-level complement configuration, a node configuration, a flow direction condition configuration, a degradation configuration, a default decision configuration and a parameter exiting configuration, wherein the basic parameter entering configuration is used for defining an original parameter entering of the wind control service, and the original parameter entering is called and filled by service personnel as succinct as possible; the data multi-level complement configuration is to aggregate the wind control data capability, uniformly provide wind control aggregate index data and internal data, and provide the wind control aggregate index data and the internal data for the subsequent flow nodes to execute. The degradation configuration is a pre-module and a rule module which are configured independently and act on the executor node, and if a certain module enables the degradation 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 when the decision tree is executed, and an error is returned; if a plurality of starting nodes are configured, the decision tree executes respective flow direction condition configuration, and the starting nodes which are really effective are locked; if the flow direction of the start node is matched with a plurality of conditions, one of the start nodes is arbitrarily taken as the effective start node.
S4: submitting the configuration result to audit, receiving an audit completed instruction, and performing configuration synchronization;
that is, after the configuration is completed, the configuration is submitted to relevant personnel for verification, and when the verification personnel issues a verification completion instruction, the configuration can be synchronized into the system for application.
S5: and receiving the wind control request, reading the configuration result, executing the decision tree, and outputting the wind control decision based on the decision tree.
It should be noted that this enters the wind control execution phase, specifically, the wind control request is automatically initiated by the system, and the reading configuration may include the following steps: pulling a policy tree configuration from the cache based on the service key in the entry; if no configuration exists, returning an execution error; if there is a configuration, executing the decision tree.
The method has universality including but not limited to credit, anti-arbitrage, anti-cheating, payment, account number and other wind control service adaptation, abandons the difference of traditional wind control different service development, concentrates on the kernel, establishes a unified and standardized configuration management system, improves the overall working efficiency, ensures flexible arrangement and configuration of the decision tree, and can be quickly adjusted according to service changes.
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 method includes receiving an instruction for initiating a wind control access application input by a service person; receiving an instruction of receiving a wind control access application input by a wind control person; invoking a decision tree arrangement module, wherein the decision tree is a multi-node, multi-flow-direction and self-definable 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 audit completed instruction, and performing configuration synchronization; the method has the advantages that the wind control request is received, the configuration result is read, the decision tree is executed, the wind control decision based on the decision tree is output, and the decision tree adopted by the method is a multi-node, multi-flow-direction and self-definable wind control decision link, so that 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 business scenes.
In a specific embodiment of the dynamically configured wind control decision method, the method may further include the following steps:
receiving an instruction for modifying the configuration of the decision tree, which is input by a wind control person, modifying the configuration of the decision tree, and obtaining a modified configuration result;
submitting the modified configuration result to auditing, receiving an auditing completed instruction, and carrying out configuration synchronization again.
That is, for the online wind control service, the decision tree can be modified, 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 for some scenes is more convenient. One specific example is as follows:
if wind control decision link adjustment is required, cloning operation is carried out, a part of decision tree data is copied in batches, the version number is increased at the same time, and the data is provided for modification configuration, is isolated from the running version on line and does not affect each other; submitting the audit after the configuration is completed; after the auditing 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 to be rolled back, rolling back operation is carried out, and if no history version exists at present, the rolling back function cannot be provided; if the history version exists currently, rolling back to the version which is validated on the last line, and validating after auditing; if the wind control decision link is to be disconnected, the disconnection operation is carried out, and the verification is carried out to take effect.
In another specific embodiment of the dynamically configured wind control decision method, the step of calling a decision tree arrangement module, receiving configuration parameters input by a wind control person, and performing decision tree arrangement configuration may specifically include:
a decision tree arrangement module is called, and an original parameter entering type, a field name, a parameter name, a necessary transmission and completion data confirmation instruction and an original parameter entering confirmation instruction required by calling the completion data which are input by an air control personnel are received;
setting up a core node by using flow nodes, connecting each node by using a connecting line, drawing a decision tree, and confirming the internal name of each flow node;
and carrying out flow direction condition configuration, degradation configuration of an actuator node module, default decision configuration of the actuator node module, entry selection configuration of the actuator node module, script content configuration, script node association script content configuration, score card node configuration and parameter output configuration to obtain a configuration result.
In still another embodiment of the foregoing dynamically configurable 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 flow chart of decision execution in a dynamically configured wind control decision method, first, a wind control request is received from a start node, and a configuration result is read from a configuration center;
searching for a valid starting node, if the valid starting node is not found, sending out execution error information, directly reaching an ending node for output, and if the valid starting node is found, executing output adjustment configuration, and searching for the next node;
if the next node is not found, sending out execution error information, and if the next node exists, summarizing original entering parameters, complement parameters and upstream node exiting parameters before executing the next node;
executing different node contents according to the node type, and if the next node is an executor node, reserving decision information as latest decision information;
continuing to execute the output condition, searching for the next node until the node is finished;
assembling the latest decision information as a final decision, and performing parameter output data assembly based on parameter output configuration;
if the final decision information is not found, sending out the information that the default wind control decision passes.
An embodiment of a dynamically configurable wind control decision system provided by the present invention is shown in fig. 2, and fig. 2 is a schematic diagram of an embodiment of a dynamically configurable wind control decision system provided by the present invention, where the system includes:
the wind control access application instruction receiving device 201 is configured to receive an instruction for initiating a wind control access application, which is input by a service person;
the wind control access application instruction accepting device 202 is configured to receive an instruction for accepting a wind control access application input by a wind control person;
the decision tree arrangement configuration device 203 is configured to invoke a decision tree arrangement module, wherein the decision tree is a multi-node, multi-flow-direction and self-definable wind control decision link, receive configuration parameters input by wind control personnel, and perform decision tree arrangement configuration to obtain a configuration result;
the submitting auditing and configuration synchronizing device 204 is used for submitting the configuration result to auditing, receiving an auditing completed instruction and performing configuration synchronization;
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 embodiment includes a wind control access application instruction receiving device, configured to receive an instruction for initiating a wind control access application, which is input by a service person; the wind control access application instruction accepting device is used for receiving an instruction for accepting a wind control access application input by a wind control person; the decision tree arrangement configuration device is used for calling a decision tree arrangement module, wherein the decision tree is a multi-node, multi-flow-direction and self-definable wind control decision link, receiving configuration parameters input by wind control personnel, and carrying out decision tree arrangement configuration to obtain a configuration result; the submitting auditing and configuration synchronizing device is used for submitting the configuration result to auditing, receiving an auditing completed instruction and performing configuration synchronization; 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, so that 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 business scenes.
In a specific embodiment of the dynamically configured wind control decision system, the method may further include:
the decision tree arrangement configuration modification device is used for receiving an instruction for modifying the decision tree arrangement configuration input by the wind control personnel, modifying the decision tree arrangement configuration and obtaining a modified configuration result; submitting the modified configuration result to auditing, receiving an auditing completed instruction, and carrying out configuration synchronization again.
That is, for the online wind control service, the decision tree can be modified, 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 for some scenes is more convenient.
In another embodiment of the above dynamically configurable wind-controlled decision system, the decision tree arrangement configuration device is specifically configured to:
a decision tree arrangement module is called, and an original parameter entering type, a field name, a parameter name, a necessary transmission and completion data confirmation instruction and an original parameter entering confirmation instruction required by calling the completion data which are input by an air control personnel are received;
setting up a core node by using flow nodes, connecting each node by using a connecting line, drawing a decision tree, and confirming the internal name of each flow node;
and carrying out flow direction condition configuration, degradation configuration of an actuator node module, default decision configuration of the actuator node module, entry selection configuration of the actuator node module, script content configuration, script node association script content configuration, score card node configuration and parameter output configuration to obtain a configuration result.
In a further embodiment of the above dynamically configurable wind control decision system, the decision tree execution means is specifically configured to:
receiving a wind control request and reading a configuration result;
searching for a valid starting node, sending out execution error information if the valid starting node is not found, and executing output adjustment configuration if the valid starting node is found, and searching for the next node;
if the next node is not found, sending out execution error information, and if the next node exists, summarizing original entering parameters, complement parameters and upstream node exiting parameters before executing the next node;
executing different node contents according to the node type, and if the next node is an executor node, reserving decision information as latest decision information;
continuing to execute the output condition, searching for the next node until the node is finished;
assembling the latest decision information as a final decision, and performing parameter output data assembly based on parameter output configuration;
if the final decision information is not found, sending out the information that the default wind control decision passes.
An embodiment of a dynamically configurable wind control decision device provided by the present invention is shown in fig. 3, and fig. 3 is a schematic diagram of an embodiment of a dynamically configurable wind control decision device provided by the present invention, where 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 the storage medium provided by the invention, a computer program is stored on the storage medium, and when the computer program is executed by a processor, the steps of the wind control decision method dynamically configured according to any one of the above are implemented.
The equipment and the storage medium provided by the invention are also more flexible and unified in configuration, can realize rapid adjustment, improve the overall working efficiency and are suitable for more wind control business 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 (8)
1. A dynamically configurable, wind-controlled decision-making method, comprising:
receiving an instruction for initiating a wind control access application, which is input by a service person;
receiving an instruction which is input by a wind control person and used for accepting the wind control access application;
invoking a decision tree arrangement module, wherein the decision tree is a multi-node, multi-flow-direction and self-definable wind control decision link, receiving configuration parameters input by wind control personnel, and performing decision tree arrangement configuration to obtain a configuration result;
submitting the configuration result to auditing, receiving an auditing completed instruction, and performing configuration synchronization;
receiving a wind control request, reading the configuration result, executing the decision tree, and outputting a wind control decision based on the decision tree;
the calling decision tree arrangement module receives configuration parameters input by the wind control personnel, performs decision tree arrangement configuration, and obtains configuration results, wherein the configuration results comprise:
a decision tree arrangement module is called, and the original parameter entering type, field name, parameter name, whether the original parameter entering type, field name and parameter name are transmitted or not and whether the data confirmation instruction is needed to be transmitted or not and the original parameter entering confirmation instruction needed to call the complement data are received;
building a core node by using flow nodes, connecting each node by using a connecting line, drawing the decision tree, and confirming the internal name of each flow node;
and carrying out flow direction condition configuration, degradation configuration of an actuator node module, default decision configuration of the actuator node module, entry selection configuration of the actuator node module, script content configuration, script node association script content configuration, score card node configuration and parameter output configuration to obtain a configuration result.
2. The dynamically configurable, wind-controlled decision-making method of claim 1, further comprising:
receiving an instruction for modifying the decision tree arrangement configuration, which is input by a wind control person, modifying the decision tree arrangement configuration, and obtaining a modified configuration result;
submitting the modified configuration result to auditing, receiving an auditing completed instruction, and carrying out configuration synchronization again.
3. The dynamically configurable wind control decision method of 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;
searching for a valid starting node, sending out execution error information if the valid starting node is not found, and executing output adjustment configuration if the valid starting node is found, and searching for the next node;
if the next node is not found, sending out execution error information, and if the next node exists, summarizing original entering parameters, complement parameters and upstream node exiting parameters before executing the next node;
executing different node contents according to the node type, and if the next node is an executor node, reserving decision information as latest decision information;
continuing to execute the output condition, searching for the next node until the node is finished;
assembling the latest decision information as a final decision, and performing parameter output data assembly based on parameter output configuration;
if the final decision information is not found, sending out the information that the default wind control decision passes.
4. A dynamically configurable, wind-controlled decision-making system, comprising:
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 person;
the wind control access application instruction accepting device is used for receiving an instruction which is input by a wind control person and is used for accepting the wind control access application;
the decision tree arrangement configuration device is used for calling a decision tree arrangement module, wherein the decision tree is a multi-node, multi-flow-direction and self-definable configured wind control decision link, receiving configuration parameters input by wind control personnel, and carrying out decision tree arrangement configuration to obtain a configuration result;
the submitting auditing and configuration synchronizing device is used for submitting the configuration result to auditing, receiving an auditing completed instruction and performing 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 a wind control decision based on the decision tree;
the decision tree arrangement configuration device is specifically used for:
a decision tree arrangement module is called, and the original parameter entering type, field name, parameter name, whether the original parameter entering type, field name and parameter name are transmitted or not and whether the data confirmation instruction is needed to be transmitted or not and the original parameter entering confirmation instruction needed to call the complement data are received;
building a core node by using flow nodes, connecting each node by using a connecting line, drawing the decision tree, and confirming the internal name of each flow node;
and carrying out flow direction condition configuration, degradation configuration of an actuator node module, default decision configuration of the actuator node module, entry selection configuration of the actuator node module, script content configuration, script node association script content configuration, score card node configuration and parameter output configuration to obtain a configuration result.
5. The dynamically configurable, wind-controlled decision system of claim 4, further comprising:
the decision tree arrangement configuration modification device is used for receiving an instruction for modifying the decision tree arrangement configuration, which is input by a wind control personnel, and modifying the decision tree arrangement configuration to obtain a modified configuration result; submitting the modified configuration result to auditing, receiving an auditing completed instruction, and carrying out configuration synchronization again.
6. The dynamically configurable, wind-controlled decision system of claim 4, wherein the decision tree execution means is specifically configured to:
receiving a wind control request and reading the configuration result;
searching for a valid starting node, sending out execution error information if the valid starting node is not found, and executing output adjustment configuration if the valid starting node is found, and searching for the next node;
if the next node is not found, sending out execution error information, and if the next node exists, summarizing original entering parameters, complement parameters and upstream node exiting parameters before executing the next node;
executing different node contents according to the node type, and if the next node is an executor node, reserving decision information as latest decision information;
continuing to execute the output condition, searching for the next node until the node is finished;
assembling the latest decision information as a final decision, and performing parameter output data assembly based on parameter output configuration;
if the final decision information is not found, sending out the information that the default wind control decision passes.
7. A dynamically configurable, wind-controlled decision-making 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 1-3.
8. A storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the dynamically configurable wind control decision method of any of claims 1-3.
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