CN115564620A - Intelligent control method and system for emergency drilling process of emergency event - Google Patents

Abstract

The invention discloses an intelligent control method for emergency drilling process of an emergency, which comprises the following steps: establishing an emergency drilling standard database, a voice instruction library and emergency drilling situation coping rules; establishing an emergency drilling component library based on an emergency drilling standard database, a voice instruction library and emergency drilling situation corresponding rules; performing drilling based on the emergency drilling component library and recording the execution condition of the emergency event handling task in the drilling process; and performing emergency drilling evaluation based on the execution condition. The corresponding system, the electronic equipment and the computer readable storage medium are further disclosed, the dependency of a drilling organization unit on a drilling script can be reduced, emergency drilling task deployment and evaluation work can be completed through simple instruction input, drilling task deployment can be selected according to situation changes on the basis of the performed tasks, the randomness of emergency drilling is achieved, the 'live-guided live-tone' of the emergency drilling process is guaranteed, and the requirements of actual-combat emergency drilling are met.

Description

Intelligent control method and system for emergency drilling process of emergency event

Technical Field

The invention belongs to the technical field of emergency drilling and rescue, and particularly relates to an emergency drilling process intelligent control method and system.

Background

The emergency drilling control is controlled by manual signaling instructions of a pilot and debugger in an actual combat environment; and giving a role instruction through a script in the simulation drilling environment to control the drilling process. The existing technology has large dependence on a pre-designed script, the drilling process is strictly carried out according to the script design, the participating units mainly carry out 'performance' according to the script, the initiative and the variability of the participating units are not really scheduled, the aim of 'drilling' in actual combat can not be really achieved, the actual level of emergency treatment of the participating units can not be objectively reflected, and certain limitation is brought to the testability drilling and the research drilling which aim at finding problems and deficiencies. In order to further improve the quality of emergency drilling and improve the actual combat level, a drilling control technology needs to be innovated, so that the 'live-guided activity adjustment' in the emergency drilling process is realized, and the actual combat emergency drilling requirements are met.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide an emergency drilling process intelligent control method and system to help drilling organization units reduce the dependence on drilling scripts, and can complete emergency drilling task deployment and emergency drilling evaluation work through simple instruction input, and the drilling task deployment can be selected according to the situation change on the basis of the performed tasks, so that the randomness of emergency drilling is realized, the 'live-guided live-action regulation' in the emergency drilling process is guaranteed, and the actual-combat emergency drilling requirements are met.

The invention provides an intelligent control method for an emergency drilling process of an emergency, which comprises the following steps:

s1, establishing an emergency drilling standard database, a voice instruction library and emergency drilling situation coping rules;

s2, establishing an emergency drilling component library based on the emergency drilling standard database, the voice instruction library and emergency drilling situation corresponding rules;

s3, performing drilling based on the emergency drilling component library and recording the execution condition of the emergency handling task in the drilling process; and

and S4, performing emergency drilling evaluation based on the execution condition.

Preferably, the establishing of the emergency drilling standard database in S1 includes:

acquiring an emergency plan and a related supporting file;

analyzing an emergency plan and related files based on a pre-established knowledge graph, and extracting target data meeting preset association conditions, wherein the target data comprises emergency situations, organizations, emergency response and field rescue schemes;

establishing a standard data structure based on the target data, and establishing a data import template of the standard data structure;

defining standard data through a manual input or import mode, wherein the standard data comprises: disaster level, disaster damage, emergency response level, organization, drill staging, disposal task, evaluation index;

and establishing an emergency drilling standard database based on the data import template and the standard data.

Preferably, the establishing of the voice instruction library in S1 includes:

acquiring emergency drilling scripts and emergency case data;

performing semantic recognition on the corresponding emergency drilling script and the emergency case data to obtain instruction text data, and establishing a text instruction library based on the instruction text data, wherein the text instruction library comprises a plurality of text instructions;

converting the text instruction in the text instruction library into a voice instruction in a recording mode; and

and respectively setting labels on the voice commands to form the voice command library.

Preferably, the establishing of the emergency drilling situation correspondence rule in S1 includes:

constructing an output scenario response rule engine based on the emergency evolution return route and the emergency drilling plan;

establishing an emergency drilling scenario correspondence rule based on the output scenario correspondence rule engine, wherein the emergency drilling scenario correspondence rule comprises:

(1) Defining rule input conditions;

(2) Defining a rule type of the disaster scenario rule, wherein the definition of the rule type is realized in system configuration, and default to: rule input standard data-rule output standard data;

(3) Defining a rule output result of the disaster scenario rule;

and generating an emergency drilling situation coping model based on the emergency drilling situation coping rule.

Preferably, the step S2 of establishing an emergency drilling component library based on the emergency drilling standard database, the voice instruction library and the emergency drilling situation correspondence rule includes:

s21, selecting a drilling stage from the standard data, wherein the drilling stage is selected from the following group: monitoring early warning, pre-action and emergency outburst;

s22, based on the drilling stage, packaging an emergency drilling component according to the emergency situation;

and S23, constructing an emergency drilling component library of each drilling stage according to emergency plans, emergency cases or experiences based on the emergency drilling components.

Preferably, the step S3 of performing a drilling based on the emergency drilling component library and recording the execution condition of the emergency handling task in the drilling process includes:

s31, selecting a processing instruction for the emergency event in a form of inputting the voice instruction or manually selecting;

s32, sending an instruction, and matching the processing instruction with the emergency drilling component of the emergency drilling component library; in this embodiment, the matching method is to calculate the matching degree between each processing instruction and the corresponding drilling component through historical data of the emergency drilling component that is matched and implemented by case statistics, default the emergency drilling component that is most likely to be adopted as the one with the highest matching degree, and thus match the instruction corresponding to the disposal task with the emergency drilling component;

s33, forming a matching degree list according to the matching degrees in the S32 from high to low, and performing intelligent recommendation of the treatment task based on the matching degree list;

s34, selecting disposal tasks, selecting one or more disposal tasks according to the intelligent recommendation result, and issuing the disposal tasks to the participation unit of the emergency drilling;

s34, executing the one or more treatment tasks and recording the execution condition of the emergency treatment tasks in the drilling process;

and S35, after the disposal task is finished, the system executes S31-S32 again and updates the intelligent recommendation result, so that the real-time intelligent recommendation of the emergency drilling process can be realized according to the implementation situation of the emergency drilling.

Preferably, the S4, performing emergency drilling evaluation based on the execution situation includes:

s41, automatically filing the recorded execution situation of the emergency handling task in the drilling process to obtain a handling task file;

s42, inputting the task execution condition of the participating unit in a manual input mode;

s43, comparing the disposition task file in S41 and the task execution situation of the participation unit in S42 with an emergency drilling evaluation standard respectively to obtain a first evaluation result of the emergency drilling and a second evaluation result of the emergency drilling, fusing the first evaluation result of the emergency drilling and the second evaluation result of the emergency drilling to obtain an evaluation result of the emergency drilling, and generating a drilling evaluation report according to a drilling evaluation template and the evaluation result; wherein the emergency drilling evaluation criterion is obtained based on invoking a disposal task-drilling evaluation rule.

The second aspect of the present invention provides an emergency drilling progress intelligent control system, comprising:

the basic data establishing module is used for establishing an emergency drilling standard database, a voice instruction library and emergency drilling situation coping rules;

the component library establishing module is used for establishing an emergency drilling component library based on the emergency drilling standard database, the voice instruction library and the emergency drilling situation corresponding rule;

the control module is used for implementing drilling based on the emergency drilling component library and recording the execution situation of the emergency handling task in the drilling implementation process; and

and the evaluation module is used for performing emergency drilling evaluation based on the execution condition, and is specifically implemented as an intelligent evaluation component in the embodiment.

A third aspect of the invention provides an electronic device comprising a processor and a memory, the memory storing a plurality of instructions, the processor being configured to read the instructions and to perform the method according to the first aspect.

A fourth aspect of the invention provides a computer readable storage medium storing a plurality of instructions readable by a processor and performing the method of the first aspect.

The method, the device, the electronic equipment and the computer readable storage medium provided by the invention have the following beneficial technical effects:

the method can help the drill organization unit to reduce the dependency on the drill script, can complete emergency drill task deployment and emergency drill evaluation work through simple instruction input, can select drill task deployment according to situation change on the basis of the performed task, realizes the randomness of emergency drill, guarantees 'live-guided exercise adjustment' in the emergency drill process, and meets the requirement of actual-combat emergency drill.

Drawings

Fig. 1 is a flow chart illustrating a standard data definition of an intelligent control method for emergency drilling process according to a preferred embodiment of the present invention.

Fig. 2 is a flow chart illustrating the construction of the voice command library of the emergency drilling process intelligent control method according to the preferred embodiment of the present invention.

Fig. 3 is a flowchart illustrating the construction of a scenario of an emergency drilling process intelligent control method according to a preferred embodiment of the present invention.

Fig. 4 is a flow control schematic diagram of an emergency drilling process intelligent control method according to a preferred embodiment of the present invention.

Fig. 5 is a schematic diagram illustrating a drilling implementation flow of the emergency drilling process intelligent control method according to the preferred embodiment of the present invention.

Fig. 6 is a schematic diagram illustrating the drilling evaluation of the emergency drilling process intelligent control method according to the preferred embodiment of the present invention.

Fig. 7 is an architecture diagram of an intelligent control system for emergency drilling process according to the preferred embodiment of the present invention.

Fig. 8 is a schematic structural diagram of an embodiment of an electronic device provided in the present invention.

Detailed Description

The following detailed description of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Example one

An emergency drilling process intelligent control method comprises the following steps:

s1, establishing an emergency drilling standard database, a voice instruction library and emergency drilling situation coping rules;

s2, establishing an emergency drilling component library based on the emergency drilling standard database, the voice instruction library and emergency drilling situation corresponding rules;

s3, performing drilling based on the emergency drilling component library and recording the execution condition of the emergency handling task in the drilling process; and

and S4, performing emergency drilling evaluation based on the execution condition.

Referring to fig. 1, as a preferred embodiment, the establishing of the emergency drilling criteria database in S1 includes:

acquiring an emergency plan and a related support file, in the embodiment, after an initial emergency plan and a related support file are acquired, whether new data are acquired or not needs to be judged, if so, the new data are summarized and accumulated, and if not, the following steps are continued; the new data refers to the established structured data, and the process is to change the text data in the emergency plan into the structured data, namely the new data. Such as disaster damage (attribute data): casualties, building collapse, traffic interruption, communication interruption, economic loss, potential risks and the like; emergency response level (attribute data): first-level response, second-level response, third-level response and fourth-level response; treatment points (attribute data): disaster situation investigation, disaster situation control, medical assistance, traffic guarantee, communication guarantee, order maintenance and the like; organization (attribute data): a master command, a slave master command, a comprehensive coordination group, a disaster relief and rescue group, a traffic guarantee group, a communication guarantee group, a rescue group and the like;

analyzing the emergency plan and related files based on a pre-established knowledge graph, and extracting target data meeting preset association conditions, wherein the target data comprise emergency situations, organizations, emergency response and field rescue schemes;

establishing a standard data structure based on the target data, and establishing a data import template of the standard data structure;

defining standard data through a manual input or import mode, wherein the standard data comprises: disaster level, disaster damage, emergency response level, organization, drill staging, disposal task, evaluation index;

and establishing an emergency drilling standard database based on the data import template and the standard data.

Referring to fig. 2, as a preferred embodiment, the establishing of the voice instruction library in S1 includes:

acquiring an emergency drilling script and emergency case data, in the embodiment, after acquiring initial emergency drilling script and emergency case data, judging whether to acquire new data, if so, summarizing and accumulating the new data, and if not, continuing the following steps; the new data refers to the established structured data, and the process is to change the text data in the emergency drilling script and the emergency case data into the structured data, namely the new data. Such as disaster damage (attribute data): casualties, building collapse, traffic interruption, communication interruption, economic loss, potential risks and the like; emergency response level (attribute data): first-level response, second-level response, third-level response and fourth-level response; treatment points (attribute data): disaster situation investigation, disaster situation control, medical assistance, traffic guarantee, communication guarantee, order maintenance and the like; organization (attribute data): a master command, a slave master command, a comprehensive coordination group, a disaster relief and rescue group, a traffic guarantee group, a communication guarantee group, a rescue group and the like;

performing semantic recognition on the corresponding emergency drilling script and the emergency case data to obtain instruction text data, and establishing a text instruction library based on the instruction text data, wherein the text instruction library comprises a plurality of text instructions;

converting the text instruction in the text instruction library into a voice instruction in a recording mode; and

and respectively setting labels for the voice commands to form the voice command library.

Referring to fig. 3, as a preferred embodiment, the establishing of the emergency drilling situation correspondence rule in S1 includes:

constructing an output scenario response rule engine based on the emergency evolution return route and the emergency drilling plan;

establishing an emergency drilling scenario correspondence rule based on the output scenario correspondence rule engine, wherein the emergency drilling scenario correspondence rule comprises:

(1) Defining rule input conditions; in this embodiment, a standardized disaster damage data source is selected as a rule input condition, and in this embodiment, in order to ensure that a rule can be correctly called, the input condition of the limited rule must be standard data defined in an emergency drilling standard database;

(2) Defining a rule type of the disaster scenario rule, wherein the definition of the rule type is realized in system configuration, and default to: rule input standard data-rule output standard data, such as rule type 1: disaster damage-emergency response level; emergency response level-organization; disaster damage-disposal tasks; treatment task-assessment index, etc.

(3) Defining a rule output result of the disaster scenario rule; in order to ensure that the rule can be correctly called, the output condition of the limiting rule must be standard data defined in the emergency drilling standard database, and the emergency drilling scene-corresponding rule construction is completed through the steps. Examples of rules are:

the category: disaster damage-disposition task, described in detail: disaster damage: the depth of the accumulated water of the underground garage is more than or equal to 1.5 m, namely a disposal task: and (4) rapidly organizing personnel to carry out emergency drainage operation of the garage, and doing secondary derived disaster prevention work.

In this embodiment, the emergency drilling situation correspondence rule further includes the following steps after being established: and generating an emergency drilling situation coping model based on the emergency drilling situation coping rule.

Referring to fig. 4, as a preferred embodiment, the step S2 of establishing an emergency drilling component library based on the emergency drilling standard database, the voice instruction library and the emergency drilling situation correspondence rule includes:

s21, selecting a drilling stage from the standard data, wherein the drilling stage is selected from the following group: monitoring early warning, pre-action and emergency outburst, wherein a plurality of sub-stages can be arranged under each drilling stage;

s22, based on the drilling stage, packaging an emergency drilling component according to the emergency situation; in the embodiment, in the drilling stage of monitoring and early warning, if an emergency event of a heavy rainstorm process occurs after 24 hours, the emergency event is packaged into an emergency drilling component comprising a corresponding series of treatment tasks;

and S23, constructing an emergency drilling component library of each drilling stage based on the emergency drilling components according to emergency plans, emergency cases or experiences, namely monitoring early warning, preataking actions and emergency drilling component libraries at emergency places.

Referring to fig. 5, as a preferred embodiment, the S3, implementing a drill based on the emergency drill component library and recording the execution situation of the emergency handling task in the process of implementing the drill includes:

s31, selecting a processing instruction for the emergency event in a form of inputting the voice instruction or manually selecting;

s32, sending an instruction, and matching the processing instruction with the emergency drilling component of the emergency drilling component library; in the embodiment, the matching method is to calculate the matching degree between each processing instruction and the corresponding drilling component according to a similarity algorithm by case statistics of historical data of the matched and implemented emergency drilling components, default the emergency drilling component with the highest matching degree as the emergency drilling component which is most likely to be adopted, and match the instruction corresponding to the disposal task with the emergency drilling component; the task intelligent matching related parameters comprise: the type of the emergency, the intensity of the emergency, the place of occurrence, the time of occurrence, the disaster loss and/or the emergency response level;

s33, forming a matching degree list according to the matching degrees in the S32 from high to low, and performing intelligent recommendation of the treatment task based on the matching degree list; in this embodiment, the first 3 treatment tasks are recommended by default according to the similarity calculation result;

s34, selecting disposal tasks, selecting one or more disposal tasks according to the intelligent recommendation result, and issuing the disposal tasks to the participation unit of the emergency drilling;

s34, executing the one or more handling tasks and recording the execution condition of the emergency handling task in the drilling process; wherein the execution case includes: aiming at disaster loss, disposal tasks, measures taken, personnel executed, equipment and material input conditions, rescue effect and the like;

and S35, after the disposal task is finished, the system executes S31-S32 again and updates the intelligent recommendation result, so that the real-time intelligent recommendation of the emergency drilling process can be realized according to the implementation situation of the emergency drilling.

Referring to fig. 6, as a preferred embodiment, the S4, performing emergency drilling evaluation based on the execution situation includes:

s41, automatically filing the recorded execution situation of the emergency handling task in the drilling process to obtain a handling task file;

s42, inputting the task execution condition of the participation unit in a manual input mode, wherein in the input process, keywords need to be selected from a corpus so as to ensure the comparison efficiency;

s43, comparing the task file of the disposition in S41 and the task execution situation of the participation unit in S42 with an emergency drilling evaluation standard respectively to obtain a first evaluation result of the emergency drilling and a second evaluation result of the emergency drilling, fusing the first evaluation result of the emergency drilling and the second evaluation result of the emergency drilling to obtain an evaluation result of the emergency drilling, and generating a drilling evaluation report according to a drilling evaluation template and the evaluation result; the emergency drilling evaluation standard is obtained based on a drilling evaluation rule calling a disposal task.

Referring to FIG. 7, example II

An emergency drilling process intelligent control system for emergencies comprises:

the basic data establishing module is used for establishing an emergency drilling standard database, a voice instruction library and emergency drilling situation coping rules; in this embodiment, the implementation is specifically a standard data component, a voice instruction component, and a scenario construction component;

the component library establishing module is used for establishing an emergency drilling component library based on the emergency drilling standard database, the voice instruction library and the emergency drilling situation corresponding rule;

the control module is used for implementing drilling based on the emergency drilling component library and recording the execution condition of the emergency handling task in the drilling implementation process, and the control module is specifically implemented as a flow control component and a drilling component in the embodiment; and

and the evaluation module is used for performing emergency drilling evaluation based on the execution condition, and is specifically implemented as an intelligent evaluation component in the embodiment.

The present invention also provides a memory storing a plurality of instructions for implementing the method according to embodiment one.

As shown in fig. 8, the present invention further provides an electronic device, which includes a processor 301 and a memory 302 connected to the processor 301, where the memory 302 stores a plurality of instructions, and the instructions can be loaded and executed by the processor, so that the processor can execute the method according to the second embodiment.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the invention. It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. An emergency drilling process intelligent control method is characterized by comprising the following steps:

s1, establishing an emergency drilling standard database, a voice instruction library and emergency drilling situation coping rules;

s2, establishing an emergency drilling component library based on the emergency drilling standard database, the voice instruction library and emergency drilling situation corresponding rules;

s3, performing drilling based on the emergency drilling component library and recording the execution condition of the emergency handling task in the drilling process; and

and S4, performing emergency drilling evaluation based on the execution condition.

2. The intelligent control method for emergency drilling process according to claim 1, wherein the establishing of the emergency drilling standard database in S1 includes:

acquiring an emergency plan and a related supporting file;

analyzing an emergency plan and related files based on a pre-established knowledge graph, and extracting target data meeting preset association conditions, wherein the target data comprises emergency situations, organizations, emergency response and field rescue schemes;

establishing a standard data structure based on the target data, and establishing a data import template of the standard data structure;

defining standard data through a manual input or import mode, wherein the standard data comprises: disaster level, disaster damage, emergency response level, organization, drill staging, disposal task, evaluation index;

and establishing an emergency drilling standard database based on the data import template and the standard data.

3. The intelligent control method for emergency drilling process according to claim 2, wherein the step of establishing the voice command library in the step S1 comprises:

acquiring an emergency drilling script and emergency case data;

performing semantic recognition on the corresponding emergency drilling script and the emergency case data to obtain instruction text data, and establishing a text instruction base based on the instruction text data, wherein the text instruction base comprises a plurality of text instructions;

converting the text instruction in the text instruction library into a voice instruction in a recording mode; and

and respectively setting labels for the voice commands to form the voice command library.

4. The intelligent control method for the emergency drilling process of the claim 3, wherein the step of establishing the emergency drilling situation correspondence rule in the step S1 comprises:

constructing an output scenario response rule engine based on the emergency evolution return route and the emergency drilling plan;

establishing an emergency drilling scenario correspondence rule based on the output scenario correspondence rule engine, wherein the emergency drilling scenario correspondence rule comprises:

(1) Defining rule input conditions;

(2) Defining a rule type of the disaster scenario rule, wherein the definition of the rule type is realized in system configuration, and default to: rule input standard data-rule output standard data;

(3) Defining a rule output result of the disaster scenario rule;

and generating an emergency drilling situation coping model based on the emergency drilling situation coping rule.

5. The intelligent control method for emergency drilling process of claim 4, wherein the step S2 of establishing the emergency drilling component library based on the emergency drilling standard database, the voice instruction library and the emergency drilling situation corresponding rule comprises:

s21, selecting a drilling stage from the standard data, wherein the drilling stage is selected from the following group: monitoring early warning, pre-action and emergency outburst;

s22, based on the drilling stage, packaging an emergency drilling component according to the emergency situation;

and S23, constructing an emergency drilling component library of each drilling stage according to emergency plans, emergency cases or experiences based on the emergency drilling components.

6. The intelligent control method for emergency drilling process of claim 5, wherein the step S3 of implementing drilling based on the emergency drilling component library and recording the execution situation of emergency treatment task in the drilling process comprises:

s31, selecting a processing instruction for the emergency event in a mode of inputting the voice instruction or manually selecting;

s32, sending an instruction, and matching the processing instruction with the emergency drilling component of the emergency drilling component library; in this embodiment, the matching method is to calculate the matching degree between each processing instruction and the corresponding drilling component through historical data of the emergency drilling component that is matched and implemented by case statistics, default the emergency drilling component that is most likely to be adopted as the one with the highest matching degree, and thus match the instruction corresponding to the disposal task with the emergency drilling component;

s33, forming a matching degree list according to the matching degrees in the S32 from high to low, and performing intelligent recommendation of the treatment task based on the matching degree list;

s34, selecting disposal tasks, selecting one or more disposal tasks according to the intelligent recommendation result, and issuing the disposal tasks to the participation unit of the emergency drilling;

s34, executing the one or more treatment tasks and recording the execution condition of the emergency treatment tasks in the drilling process;

and S35, after the disposal task is finished, the system executes S31-S32 again and updates the intelligent recommendation result, so that the real-time intelligent recommendation of the emergency drilling process can be realized according to the implementation situation of the emergency drilling.

7. The intelligent control method for emergency drilling process of claim 6, wherein the step S4 of performing emergency drilling evaluation based on the execution situation comprises:

s41, automatically filing the recorded execution situation of the emergency handling task in the drilling process to obtain a handling task file;

s42, inputting the task execution condition of the participation unit in a manual input mode;

s43, comparing the disposition task file in S41 and the task execution situation of the participation unit in S42 with an emergency drilling evaluation standard respectively to obtain a first evaluation result of the emergency drilling and a second evaluation result of the emergency drilling, fusing the first evaluation result of the emergency drilling and the second evaluation result of the emergency drilling to obtain an evaluation result of the emergency drilling, and generating a drilling evaluation report according to a drilling evaluation template and the evaluation result; wherein the emergency drilling evaluation criterion is obtained based on invoking a disposal task-drilling evaluation rule.

8. An intelligent control system for emergency drilling process, which is used for implementing the intelligent control method for emergency drilling process according to any one of claims 1-7, and comprises:

the basic data establishing module is used for establishing an emergency drilling standard database, a voice instruction library and emergency drilling situation coping rules;

the component library establishing module is used for establishing an emergency drilling component library based on the emergency drilling standard database, the voice instruction library and the emergency drilling situation corresponding rule;

the control module is used for implementing drilling based on the emergency drilling component library and recording the execution situation of the emergency handling task in the drilling implementation process; and

and the evaluation module is used for performing emergency drilling evaluation based on the execution condition, and is specifically implemented as an intelligent evaluation component in the embodiment.

9. An electronic device comprising a processor and a memory, the memory storing a plurality of instructions, the processor configured to read the instructions and perform the method of any of claims 1-7.

10. A computer-readable storage medium having stored thereon a plurality of instructions readable by a processor and performing the method of any one of claims 1-7.

Images