CN111291964A - Risk monitoring method for practitioner of easily-made chemicals - Google Patents

Abstract

The invention discloses a risk monitoring method for practitioners of chemicals with easy poison control, which comprises S1, submitting information of the practitioners to a public security organ regularly by enterprises of the chemicals with easy poison control; s2, the public security organization examines and approves the filed application according to the background information of the practitioner, if the examination and approval is passed, the step S3 is carried out, if the examination and approval is not passed, a short message is sent to an application enterprise, and the easy-to-prepare chemical enterprise is reminded to revise and submit the information of the practitioner again; s3, establishing images of workers of the easy-to-prepare chemical enterprises one by one, and entering the step S4 after the images are completed; s4, periodically analyzing and evaluating the practitioners in the easy-to-prepare chemical practitioner library through the practitioner risk monitoring model, grading the risks of the practitioners one by one, entering the step S5 if the grade of a certain practitioner exceeds a threshold value, and otherwise, ending the operation; and S5, sending out the pushed early warning information to the administration place or the household place of the staff of the virus-preparing chemical enterprise.

Description

Risk monitoring method for practitioner of easily-made chemicals

Technical Field

The invention belongs to the field of risk monitoring, and particularly relates to a risk monitoring method for practitioners of easily-made chemicals.

Background

The easy-to-prepare chemical refers to substances such as precursors, raw materials and chemical additives for preparing drugs, and the easy-to-prepare chemical is a product which can not be processed by plant natural drugs such as hemp, cocaine and the like or synthetic chemical drugs such as methamphetamine, dancing outreach and the like.

The risk monitoring for the practitioner of the drug-prone chemical enterprise at present mainly comprises the following four types: personnel information registration, namely, the personnel information is registered through an informatization system, so that the public security policemen can conveniently check the personnel information at any time. And secondly, synchronizing daily working logs of personnel, namely, realizing the query of the daily working logs of the personnel by synchronizing the records of the self system of the easy-to-prepare chemical enterprise. And thirdly, checking personnel background, namely checking identity background information of the workers through the existing system of the public security system, and checking whether the workers have pre-criminal subjects involved in the virus, other criminal records and the like. And fourthly, manual checking, namely a public security organization can check the toxic chemical enterprises at irregular time and find related employees to talk.

However, the risk monitoring method has the following disadvantages:

1) inaccuracy of personal information

At present, the information of the employees is reported to a public security organization by an enterprise, the public security organization carries out manual examination and verification, and generally does not carry out updating processing in the valid period, so that the problems of untimely updating, even information error and the like of the information of the employees are caused;

2) the information of the daily working condition of the staff is less

Part of the enterprises which are easy to prepare the virus do not have self-built systems, and the daily working conditions of the employees cannot be known;

3) the inability of people to continuously track background review

The personnel background examination is generally carried out manually by a public security organization when an enterprise submits practitioner information, the operation is generally carried out only once, and continuous tracking of subsequent personnel background information is difficult to realize;

4) incomplete information coverage and easy evasion of crime

The existing technical means is incomplete in information coverage, and whether all practitioners have crimes or not can not be predicted basically, so that evasion is easy to happen.

Disclosure of Invention

The purpose of the invention is as follows: the invention aims at solving the problems existing in the prior art, namely the invention discloses a risk monitoring method for practitioners of easily-made chemicals.

According to the invention, a risk evaluation model is constructed through historical virus-related crime case information, personnel information, clue information and the like, the personnel are monitored through the risk evaluation model, the actual risk, the potential risk, the risk trend and the like are found, and the public security organization can timely prevent the risk of the personnel through risk prediction.

The technical scheme is as follows: the risk monitoring method for the practitioner of the easily toxic chemicals comprises the following steps:

s1, submitting the information of the practitioner to the public security organization regularly by the chemical enterprises which can easily prepare the drugs, sending an application for filing and registering the practitioner to the public security organization, and entering the step S2 after the application is finished;

s2, after receiving the corresponding application, the public security organization searches the background information of the practitioners of the toxic-susceptible chemical enterprise submitted in the step S1 one by one through a case database and a clue database of an intranet system of the public security organization, and returns the background information to the public security organization, the public security organization examines and approves the filed application according to the background information of the practitioners, if the examination and approval is passed, the step S3 is carried out, and if the examination and approval is not passed, a short message is sent to the application enterprise to remind the toxic-susceptible chemical enterprise to revise and submit the information of the practitioners again;

s3, establishing images of workers of the easy-to-prepare chemical enterprises one by one, automatically roaming the national standard library, automatically updating the image information, recording the information of the workers into the easy-to-prepare chemical worker library, and entering the step S4 after the information is completed;

s4, periodically analyzing and evaluating the practitioners in the easy-to-prepare chemical practitioner library through the practitioner risk monitoring model, grading the risks of the practitioners one by one, entering the step S5 if the grade of a certain practitioner exceeds a threshold value, and otherwise, ending the operation;

and S5, sending out the pushed early warning information to the administration place or the household place of the staff of the virus-preparing chemical enterprise.

Further, the method further includes step S6, after receiving the warning information, sending further verification information to the place under jurisdiction or the place of residence of the staff of the pharmaceutical chemical enterprise, and feeding back according to the verification information.

Further, the information of the practitioner in step S1 includes the name, identification number, position and time of the practitioner.

Further, the background information of the staff of the pharmaceutical chemical enterprise in step S2 includes case information and clue information.

Further, the public security organization also updates the background information of workers for the enterprises of the chemicals easy to prepare the drugs in real time and updates the related background information in the library of the workers for the chemicals easy to prepare the drugs in time.

Further, the worker risk monitoring model in step S4 is constructed from historical virus-related crime case information, staff information, clue information, and the like.

Further, the step S4 of analyzing and evaluating the practitioners of the library of practitioners for manufacturing chemicals includes the following steps:

s41, analyzing the occurred risk events by combining the existing information and clue information of the drug-related crime cases, and sorting and analyzing the risk points of various practitioners to form a risk monitoring model of the practitioners of the easily-made chemicals;

and S42, analyzing data sources and data matching conditions according to the practitioner data in the practitioner library, and grading the practitioners of the easy-to-prepare chemical enterprises one by one.

Has the advantages that: the risk monitoring method for the easy-to-prepare chemical workers disclosed by the invention has the following beneficial effects:

1) the problem that information of workers who are easy to prepare toxic chemicals is not updated timely is solved, namely the latest personnel information is acquired from a personnel frequent library (used for establishing worker figures), a case and event library, a social track database (used for establishing worker figures) and the like of the ministry of public security every day;

2) continuous review of the background of the person

The method comprises the steps of monitoring crime conditions of practitioners of the easily-made chemicals in real time by data roaming and butting a clue library and a case library;

3) solve the problem that the accurate personnel risk monitoring can not be carried out

Monitoring the toxic chemical workers through the risk assessment model, finding out the actual risk, the potential risk and the risk trend, timely early warning the risk of the workers, and pushing the risk to corresponding units or policemen.

Drawings

FIG. 1 is a schematic flow chart of a risk monitoring method for a practitioner of a toxic chemical in accordance with the present disclosure.

The specific implementation mode is as follows:

the following describes in detail specific embodiments of the present invention.

As shown in fig. 1, the risk monitoring method for the practitioner of the toxic chemicals comprises the following steps:

s1 the enterprise of the chemicals easy to prepare the poison submits the information of the practitioner to the public security organization regularly, and sends the application for filing and registering the practitioner to the public security organization, and then enters S2;

s2, after receiving the corresponding application, the public security organization searches the background information of the practitioners of the toxic-susceptible chemical enterprise submitted in the step S1 one by one through a case database and a clue database of an intranet system of the public security organization, and returns the background information to the public security organization, the public security organization examines and approves the filed application according to the background information of the practitioners, if the examination and approval is passed, the step S3 is carried out, and if the examination and approval is not passed, a short message is sent to the application enterprise to remind the toxic-susceptible chemical enterprise to revise and submit the information of the practitioners again;

s3, establishing images of workers of the easy-to-prepare chemical enterprises one by one, automatically roaming the national standard library, automatically updating the image information, recording the information of the workers into the easy-to-prepare chemical worker library, and entering the step S4 after the information is completed;

s4, periodically analyzing and evaluating the practitioners in the easy-to-prepare chemical practitioner library through the practitioner risk monitoring model, grading the risks of the practitioners one by one, entering the step S5 if the grade of a certain practitioner exceeds a threshold value, and otherwise, ending the operation;

s5 sends the pushed warning information to the jurisdiction of the staff of the toxic chemical manufacturing enterprise or the domicile.

Further, the method further includes step S6, after receiving the warning information, sending further verification information to the place under jurisdiction or the place of residence of the staff of the pharmaceutical chemical enterprise, and feeding back according to the verification information.

Further, the information of the practitioner in step S1 includes the name, identification number, position and time of the practitioner.

Further, the background information of the staff of the pharmaceutical chemical enterprise in step S2 includes case information and clue information.

Further, the public security organization also updates the background information of workers for the enterprises of the chemicals easy to prepare the drugs in real time and updates the related background information in the library of the workers for the chemicals easy to prepare the drugs in time.

Further, the worker risk monitoring model in step S4 is constructed from historical virus-related crime case information, staff information, clue information, and the like.

Further, the step S4 of analyzing and evaluating the practitioners of the library of practitioners for manufacturing chemicals includes the following steps:

s41, analyzing the occurred risk events by combining the existing information and clue information of the drug-related crime cases, and sorting and analyzing the risk points of various practitioners to form a risk monitoring model of the practitioners of the easily-made chemicals;

and S42, analyzing data sources and data matching conditions according to the practitioner data in the practitioner library, and grading the practitioners of the easily toxic chemicals one by one.

The invention discloses a risk monitoring method for practitioners of easily-made chemicals, which comprises the following working procedures:

1. practitioner information registration

1) The enterprise fills in the information of the practitioner by using the information registration function of the practitioner, clicks and submits the information and sends the information to the public security organization to which the enterprise belongs;

2) the public security organization opens registration information of the employees, and the background of the employees is examined by the system background automatic association case library, the clue library and the like;

3) the public security organization determines whether the examination and approval pass the registration of the information of the practitioner according to the examination result.

2. Practitioner risk monitoring

1) After the approval is passed, the practitioner is used as a monitoring object to be added into risk monitoring of the practitioner;

2) and (4) starting each monitoring model at regular time of the system to evaluate risks of the practitioner.

3) And when the models are compared, early warning is generated, and the models are pushed to the public security institutions where the enterprises to which the practitioners belong.

After the public security organ receives the early warning, corresponding measures are taken for the practitioner, and the early warning result is fed back in the system.

The embodiments of the present invention have been described in detail. However, the present invention is not limited to the above-described embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present invention.

Claims (7)

1. The risk monitoring method for practitioners of easily-made chemicals is characterized by comprising the following steps of:

s1, submitting the information of the practitioner to the public security organization regularly by the chemical enterprises which can easily prepare the drugs, sending an application for filing and registering the practitioner to the public security organization, and entering the step S2 after the application is finished;

s2, after receiving the corresponding application, the public security organization searches the background information of the practitioners of the toxic-susceptible chemical enterprise submitted in the step S1 one by one through a case database and a clue database of an intranet system of the public security organization, and returns the background information to the public security organization, the public security organization examines and approves the filed application according to the background information of the practitioners, if the examination and approval is passed, the step S3 is carried out, and if the examination and approval is not passed, a short message is sent to the application enterprise to remind the toxic-susceptible chemical enterprise to revise and submit the information of the practitioners again;

s3, establishing images of workers of the easy-to-prepare chemical enterprises one by one, automatically roaming the national standard library, automatically updating the image information, recording the information of the workers into the easy-to-prepare chemical worker library, and entering the step S4 after the information is completed;

s4, periodically analyzing and evaluating the practitioners in the easy-to-prepare chemical practitioner library through the practitioner risk monitoring model, grading the risks of the practitioners one by one, entering the step S5 if the grade of a certain practitioner exceeds a threshold value, and otherwise, ending the operation;

and S5, sending out the pushed early warning information to the administration place or the household place of the staff of the virus-preparing chemical enterprise.

2. The method for monitoring risks of practitioners in the field of toxic chemicals as claimed in claim 1, further comprising step S6, after receiving the warning message, sending further verification information to the place under jurisdiction or the place of residence of the practitioner in the field of the toxic chemicals enterprise, and feeding back the verification information according to the verification information.

3. The method for monitoring risks of practitioners in the field of toxic chemicals as claimed in claim 1 or 2, wherein the information of the practitioner in step S1 includes the name and identification number of the practitioner, and the position and time of the practitioner.

4. The method for monitoring risks of practitioners in pharmaceutical chemistry industry as claimed in claim 1 or 2, wherein the background information of practitioners in pharmaceutical chemistry industry in step S2 includes case information and clue information.

5. The method for risk monitoring of health risks of pharmaceutical chemicals workers of claim 1 or 2, wherein the public security organization further updates the background information of the workers of the pharmaceutical chemicals enterprise in real time and updates the related background information in the library of pharmaceutical chemicals workers in real time.

6. The method for monitoring the risk of practitioners in the manufacturing of chemicals according to claim 1 or 2, wherein the models for monitoring the risk of the practitioners in step S4 are constructed by using information on historical cases of criminal related to drugs, information on persons, information on clues, and the like.

7. The method for risk monitoring of practitioners with chemical formulations of claim 1 or 2, wherein the step of analyzing and evaluating the practitioners of the library of practitioners with chemical formulations of chemicals in step S4 comprises the steps of:

s41, analyzing the occurred risk events by combining the existing information and clue information of the drug-related crime cases, and sorting and analyzing the risk points of various practitioners to form a risk monitoring model of the practitioners of the easily-made chemicals;

and S42, analyzing data sources and data matching conditions according to the practitioner data in the practitioner library, and grading the practitioners of the easy-to-prepare chemical enterprises one by one.

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