CN117592665A

CN117592665A - Intelligent gun cabinet abnormality early warning method and system

Info

Publication number: CN117592665A
Application number: CN202410073220.0A
Authority: CN
Inventors: 周龙彬; 杨树; 冀清烈
Original assignee: Zhongan Chuangke Shenzhen Technology Co ltd
Current assignee: Zhongan Chuangke Shenzhen Technology Co ltd
Priority date: 2024-01-18
Filing date: 2024-01-18
Publication date: 2024-02-23
Anticipated expiration: 2044-01-18
Also published as: CN117592665B

Abstract

The application relates to an intelligent gun cabinet abnormality early warning method and system, and relates to the technical field of intelligent gun cabinets, wherein the method comprises the following steps: acquiring bullet real-time placement condition information and bullet use requirement information; retrieving bullet historical placement information based on bullet real-time placement information; analyzing and processing bullet use requirement information and bullet historical placement information according to a preset bullet pre-estimated placement analysis method to form bullet pre-estimated placement information; analyzing and acquiring deviation information between the real-time bullet placement condition information and the bullet estimated placement condition information, and taking the deviation information as bullet placement deviation information; and analyzing and acquiring bullet placement deviation pre-warning information corresponding to the bullet placement deviation information according to the corresponding relation between the bullet placement deviation information and the pre-set bullet placement deviation pre-warning information, and outputting the bullet placement deviation pre-warning information. The application has the effect of timely early warning on the use, placement and other conditions of the gun ammunition.

Description

Intelligent gun cabinet abnormality early warning method and system

Technical Field

The application relates to the technical field of intelligent gun cabinets, in particular to an intelligent gun cabinet abnormality early warning method and system.

Background

The intelligent gun cabinet is a cabinet for storing gun ammunition, and after the intelligent gun cabinet is generated from the safe, the intelligent gun cabinet is a special gun safe which is mainly generated for reasonable management of the gun ammunition, and the intelligent gun cabinet is an important component for unified management by a judicial department as a tool for the management of the gun ammunition.

In the related art, the main components of the intelligent gun cabinet comprise a cabinet body for storing the gun ammunition, a lock for controlling the opening of the cabinet body, an intelligent control module for intelligently controlling the use of the cabinet body, a power module for providing power, a networking management module for connecting with a network and performing remote management, and the like. In the use of intelligent rifle cabinet, intelligent control module can monitor the internal gun ammunition of cabinet, when the gun ammunition does not return for a long time appears, intelligent control module can carry out the early warning and send to networking management module to manage the gun ammunition of depositing in intelligent rifle cabinet.

With respect to the related art as described above, the applicant found the following drawbacks: when the intelligent gun cabinet is used, the intelligent control module only carries out early warning on the condition that the gun ammunition is not returned for a long time, when the condition that a user needs to take the gun ammunition and places the gun ammunition after the use is finished, the condition that the gun ammunition is abnormal is not easy to timely early warn on the conditions such as the use and the placement of the gun ammunition, and the improvement space exists.

Disclosure of Invention

In order to timely early warn the use, placement and other conditions of the gun ammunition, the application provides an intelligent gun cabinet abnormality early warning method and system.

In a first aspect, the present application provides an intelligent gun cabinet anomaly early warning method, which adopts the following technical scheme:

an intelligent gun cabinet abnormality early warning method comprises the following steps:

acquiring bullet real-time placement condition information and bullet use requirement information;

retrieving bullet historical placement information based on bullet real-time placement information;

analyzing and processing bullet use requirement information and bullet historical placement information according to a preset bullet pre-estimated placement analysis method to form bullet pre-estimated placement information;

analyzing and acquiring deviation information between the real-time bullet placement condition information and the bullet estimated placement condition information, and taking the deviation information as bullet placement deviation information;

and analyzing and acquiring bullet placement deviation pre-warning information corresponding to the bullet placement deviation information according to the corresponding relation between the bullet placement deviation information and the pre-set bullet placement deviation pre-warning information, and outputting the bullet placement deviation pre-warning information.

Optionally, the analyzing the bullet use requirement information and the bullet historical placement information according to the preset bullet estimated placement analysis method to form bullet estimated placement information includes:

The method comprises the steps of calling current bullet use requirement information and historical bullet use requirement information based on bullet use requirement information;

the method comprises the steps of calling a historical demand time point and a historical demand bullet use time length value based on bullet historical use demand information;

analyzing and calculating a time period between a historical demand time point and a current time point and taking the time period as an actual time length value of the historical demand;

judging whether the actual duration value of the historical demand is smaller than the using duration value of the bullet of the historical demand;

if so, analyzing and processing the current use requirement information of the bullet and the historical bullet placement information according to a preset current requirement storage estimated placement information analysis method to form current requirement storage estimated placement information, and taking the current requirement storage estimated placement information as bullet estimated placement information;

if not, analyzing the bullet historical use demand information and the bullet historical placement information according to a preset historical demand storage estimated placement analysis method to form historical demand storage estimated placement information, and taking the historical demand storage estimated placement information as bullet estimated placement information.

Optionally, the analyzing method for analyzing the current usage requirement information and the historical placement condition information of the bullet according to the preset current requirement storage estimated placement condition includes:

Retrieving the current bullet use demand type information and the current bullet use demand value based on the bullet use demand information;

retrieving the information of the types of the historically placed bullets and the number of the types of the historically placed bullets based on the information of the historical placement conditions of the bullets;

analyzing and calculating the difference value between the current used bullet type demand value and the historical placed bullet type quantity value which correspond to the current used bullet type demand value and the historical placed bullet type information respectively when the current used bullet type demand information is consistent with the historical placed bullet type information, and taking the difference value as the historical placed bullet type quantity remaining value;

combining the remaining values of the number of the historically placed bullet types corresponding to all the current bullet demand type information to serve as the remaining values of the current bullet demand type;

according to the corresponding relation between the current bullet demand type residual value and the preset current bullet demand adjustment placement information, analyzing and obtaining current bullet demand adjustment placement information corresponding to the current bullet demand type residual value, and taking the current bullet demand adjustment placement information as current demand storage estimated placement information.

Optionally, the analyzing method for storing estimated placement condition according to preset historical demand to analyze and process the bullet historical usage demand information and bullet historical placement condition information to form the historical demand storing estimated placement condition information includes:

Retrieving historical usage bullet demand category information and historical usage bullet category demand values based on the bullet historical usage demand information;

analyzing and acquiring deviation information between bullet historical placement condition information and preset cabinet placement reference information, and taking the deviation information as cabinet historical vacant placement information;

the method comprises the steps of calling cabinet body vacant placement type information and cabinet body vacant placement type quantity values based on cabinet body historical vacant placement information;

the difference value between the number value of the vacant cabinet placement types corresponding to the information of the vacant cabinet placement types and the information of the historic bullet demand types is analyzed and calculated, and the difference value is used as the vacant cabinet placement value of the historic bullet demand types;

combining the historical use requirement vacant type placement values corresponding to all the historical use bullet requirement type information to serve as cabinet vacant placement type remaining values;

according to the corresponding relation between the cabinet vacant placement type residual value and the preset cabinet vacant placement change information, analyzing and obtaining cabinet vacant placement change information corresponding to the cabinet vacant placement type residual value;

according to the corresponding relation between the cabinet body vacant placement change information and preset vacant adjustment estimated placement condition information, the vacant adjustment estimated placement condition information corresponding to the cabinet body vacant placement change information is analyzed and obtained, and the vacant adjustment estimated placement condition information is used as historical demand storage estimated placement condition information.

Optionally, the method further comprises the step of storing the estimated placement information by taking the estimated placement information of the idle adjustment as the historical demand, and specifically comprises the following steps:

judging whether the vacant type placement values of the historical use demands are larger than preset vacant type placement reference values or not;

if yes, jumping and executing to store the estimated placement information by taking the idle adjustment estimated placement information as the historical demand;

if not, the vacant type placement value of the historical use requirement is not more than the vacant type placement reference value and is used as the vacant type adjustment placement value;

calling the vacant category adjustment placement category information based on the vacant category adjustment placement value;

according to the corresponding relation between the spare type adjustment placement type information and the preset adjustment placement type substitution type information, analyzing and obtaining adjustment placement type substitution type information corresponding to the spare type adjustment placement type information;

according to a preset replacement type estimated placement condition adjustment analysis method, the replacement type information of the adjustment placement type and the vacant type adjustment placement value are analyzed to form replacement type estimated placement condition adjustment information;

combining the replacement type estimated placement condition adjustment information with the spare adjustment estimated placement condition information to serve as comprehensive estimated placement condition information, and storing the estimated placement condition information by taking the comprehensive estimated placement condition information as a historical demand.

Optionally, the method for adjusting and analyzing the placement condition according to the preset replacement type forecast includes:

retrieving an adjustment placement category substitution category placement value based on the adjustment placement category substitution category information;

analyzing and calculating the sum of all the alternative category placement values of the adjustment placement category and taking the sum as the total alternative category placement value;

judging whether the total placement value of the alternative types is larger than the adjustment placement value of the spare types;

if yes, invoking the substitute category priority value based on the information of the substitute category of the adjustment placement category;

sorting from large to small based on the substitute category priority values, and taking the adjusted placement category substitute category information corresponding to the substitute category priority values sorted from large to small as final substitute category information;

according to the corresponding relation between the final substitution type information and the preset final substitution type placement adjustment information, analyzing and obtaining final substitution type placement adjustment information corresponding to the final substitution type information, and taking the final substitution type placement adjustment information as substitution type pre-estimated placement condition adjustment information;

If not, taking information except the replacement type information of the adjustment placement type and the type information of the history use bullet requirements in the vacant placement type information of the cabinet body as vacant placement remaining type information;

according to a preset method for analyzing the rest type of the rest, analyzing the rest type of the rest information to form rest type of the rest adjustment information, and taking the rest type of the rest adjustment information as alternative type pre-estimated rest condition adjustment information.

Optionally, the analyzing the remaining type information of the vacant placement according to the preset remaining type placement adjustment analysis method to form remaining type placement adjustment information of the vacant placement includes:

analyzing and calculating a difference value between the total placement value of the alternative types and the adjustment placement value of the vacant types and taking the difference value as the adjustment placement deviation value of the vacant types;

retrieving a value of the number of vacant placed residual categories based on the vacant placed residual category information;

analyzing and calculating the difference value between the quantity value of the vacant placed residual variety and the adjustment placed deviation value of the vacant variety and taking the difference value as the quantity deviation value of the vacant placed residual variety;

sorting from small to large based on the number deviation value of the left-over remaining types, and taking the left-over remaining types information corresponding to the number deviation value of the left-over remaining types in the first sorting from small to large as the remaining type replacement type information;

According to the corresponding relation between the residual category replacement category information and the preset residual category replacement category adjustment information, analyzing and acquiring residual category replacement category adjustment information corresponding to the residual category replacement category information, and taking the residual category replacement category adjustment information as vacant residual category placement adjustment information.

In a second aspect, the application provides an intelligent gun cabinet abnormality early warning system, which adopts the following technical scheme:

an intelligent gun cabinet anomaly early warning system, comprising:

the acquisition module is used for acquiring the real-time bullet placing condition information and bullet use requirement information;

a memory for storing a program of the intelligent cabinet abnormality warning method according to any one of the first aspects;

the processor, the program in the memory can be loaded and executed by the processor and implement the intelligent gun cabinet abnormality pre-warning method according to any one of the first aspect.

In summary, the present application includes at least one of the following beneficial technical effects:

1. acquiring bullet real-time placement condition information and bullet use requirement information, calling bullet historical placement condition information, analyzing and processing the bullet use requirement information and the bullet historical placement condition information to form bullet estimated placement condition information, analyzing and acquiring bullet placement deviation early warning information through bullet placement deviation information, and outputting bullet placement deviation early warning information, so that abnormal conditions exist when a user takes the bullet in need of use and places the bullet after use, and early warning is timely carried out on the conditions of use, placement and the like of the bullet;

2. The method comprises the steps of calling current bullet use demand information and bullet historical use demand information through bullet use demand information, calling historical demand time points and historical demand bullet use time length values through bullet historical use demand information, analyzing and calculating historical demand actual time length values, judging whether the historical demand actual time length values are smaller than the historical demand bullet use time length values or not, analyzing and processing the current bullet use demand information and bullet historical placement condition information through a current demand storage estimated placement condition analysis method when the historical demand time length values are smaller than the historical demand bullet use time length values, so that current demand storage estimated placement condition information and bullet placement condition information are formed, and analyzing and processing the bullet historical use demand information and bullet historical placement condition information through a historical demand storage estimated placement condition analysis method when the historical demand time length values and the historical demand time length values are not smaller than the historical demand bullet use time length values, so that the historical demand storage estimated placement condition information and the bullet placement condition information are formed, and accuracy of the obtained bullet estimated placement condition information is improved;

3. the method comprises the steps of calling current use bullet demand type information and current use bullet type demand values through bullet current use demand information, calling historical placement bullet type information and historical placement bullet type quantity values through bullet historical placement condition information, analyzing and calculating historical placement bullet type quantity remaining values to obtain current use bullet demand type remaining values, analyzing and obtaining current use bullet demand adjustment placement condition information through current use bullet demand type remaining values, and storing estimated placement condition information as current demands, so that accuracy of obtained current demand storage estimated placement condition information is improved.

Drawings

Fig. 1 is a flowchart of a method for early warning of an abnormality of an intelligent gun cabinet according to an embodiment of the present application.

Fig. 2 is a flowchart of a method for analyzing and processing bullet usage requirement information and bullet historical placement information according to a preset bullet estimated placement analysis method in an embodiment of the present application to form bullet estimated placement information.

Fig. 3 is a flowchart of a method for analyzing current usage requirement information and historical bullet placement information according to a preset current requirement storage estimated placement information analysis method in an embodiment of the present application to form current requirement storage estimated placement information.

Fig. 4 is a flowchart of a method for analyzing the historical usage requirement information and the bullet historical placement information according to the preset historical requirement storage estimated placement information according to the embodiment of the present application to form the historical requirement storage estimated placement information.

FIG. 5 is a flowchart of a method for storing estimated placement information using the adjusted slack as historical demand in accordance with an embodiment of the present application.

Fig. 6 is a flowchart of a method for analyzing the alternate category information and the rest category adjustment placement values according to the preset alternate category estimated placement condition adjustment analysis method to form the alternate category estimated placement condition adjustment information according to the embodiment of the present application.

Fig. 7 is a flowchart of a method for analyzing and processing the remaining type information of the vacant placement according to the preset remaining type placement adjustment analysis method to form remaining type placement adjustment information of the vacant placement according to the embodiment of the present application.

Fig. 8 is a system flowchart of intelligent gun cabinet abnormality pre-warning according to an embodiment of the present application.

Reference numerals illustrate: 1. an acquisition module; 2. a memory; 3. a processor.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application will be further described in detail with reference to fig. 1 to 8 and the embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

The embodiment of the application discloses an intelligent gun cabinet abnormality early warning method.

Referring to fig. 1, an intelligent gun cabinet abnormality pre-warning method includes:

step S100: and acquiring the information of the real-time placing condition of the bullet and the information of the use requirement of the bullet.

The bullet real-time placement condition information is real-time condition information for indicating the placement condition of the guns and ammunitions placed in the cabinet body, and can be obtained through analysis after detection by a pressure sensor, an infrared sensor or an image detection device which are preset in the cabinet body. The bullet use requirement information is requirement information for indicating that the gun and the ammunition need to be used, and the bullet use requirement information is acquired after being input through the networking management module.

Step S200: and calling the bullet historical placement information based on the bullet real-time placement information.

The bullet history placement information is information indicating the placement of the ammunition in the cabinet body in historical time, and is obtained by inquiring from a database storing the bullet history placement information.

And the bullet history placement condition information is called through the bullet real-time placement condition information, so that the subsequent use is convenient.

Step S300: according to a preset bullet estimated placement analysis method, bullet use requirement information and bullet historical placement information are analyzed and processed to form bullet estimated placement information.

The bullet estimated placement information is placement information for indicating that the bullet placement in the cabinet is estimated after a user opens the cabinet, and the bullet estimated placement analysis method is an analysis method for analyzing the bullet estimated placement information, and the bullet estimated placement analysis method is obtained by inquiring a database storing bullet estimated placement analysis methods.

And analyzing and processing the bullet use demand information and the bullet historical placement information through a bullet estimated placement analysis method, so that bullet estimated placement information is formed, and the subsequent use is convenient.

Step S400: and analyzing and acquiring deviation information between the real-time bullet placement information and the bullet estimated placement information, and taking the deviation information as bullet placement deviation information.

The bullet placing deviation information is deviation information for indicating that the bullet placing condition of the gun and the ammunition in the cabinet body is deviated after the user opens the cabinet body, and the bullet placing deviation information is obtained by analyzing the bullet real-time placing condition information and the bullet pre-estimated placing condition information and is used as bullet placing deviation information, so that the follow-up use is convenient.

Step S500: and analyzing and acquiring bullet placement deviation pre-warning information corresponding to the bullet placement deviation information according to the corresponding relation between the bullet placement deviation information and the pre-set bullet placement deviation pre-warning information, and outputting the bullet placement deviation pre-warning information.

The bullet placement deviation early warning information is information for indicating early warning when the bullet placement condition in the cabinet body deviates after the user opens the cabinet body, and the bullet placement deviation early warning information is inquired and obtained from a database storing bullet placement deviation early warning information.

And the early warning information of different degrees is obtained through analysis of different degrees of deviation values corresponding to the bullet placement deviation information, and then the bullet placement deviation early warning information is output, so that abnormal conditions exist when a user needs to take and place the bullet, and the use and placement of the bullet are timely early warned.

In step S300 shown in fig. 1, in order to further ensure the rationality of the estimated placement information of the bullet, further separate analysis and calculation of the estimated placement information of the bullet is required, specifically, the detailed description will be given through the steps shown in fig. 2.

Referring to fig. 2, according to a preset bullet estimated placement analysis method, to analyze and process bullet usage requirement information and bullet historical placement information to form bullet estimated placement information includes the following steps:

step S310: and calling the current use requirement information and the historical use requirement information of the bullet based on the bullet use requirement information.

The current use requirement information of the bullet refers to requirement information for indicating that the use requirement of the bullet is proposed at the current time, and the current use requirement information of the bullet is inquired and obtained from a database storing the current use requirement information of the bullet. The bullet history use requirement information is requirement information for indicating that the use requirement of the bullet is set up in the history time, and the bullet history use requirement information is obtained by inquiring from a database storing the bullet history use requirement information.

The current use requirement information and the historical use requirement information of the bullet are fetched through the bullet use requirement information, so that the subsequent use is convenient.

Step S320: and calling a historical demand time point and a historical demand bullet use time length value based on bullet historical use demand information.

The historical demand time point is a time point corresponding to the user demand of the bullet at the historical time, and is obtained by inquiring a database storing the historical demand time point. The history demand bullet use time length value is used for indicating the use time length value corresponding to the use demand of the bullet proposed in the history time, and the history demand bullet use time length value is obtained by inquiring from a database storing the history demand bullet use time length value.

The history demand time point and the history demand bullet use time length value are called through bullet history use demand information, so that follow-up use is convenient.

Step S330: and analyzing and calculating the time period between the time point of the historical demand and the current time point and taking the time period as the actual time length value of the historical demand.

The actual duration value of the historical demand is used for indicating the duration value actually passing after the use demand of the bullet is put forward in the historical time, and the actual duration value of the historical demand is used as the actual duration value of the historical demand by analyzing and calculating the time period between the time point of the historical demand and the current time point, so that the subsequent use is facilitated.

Step S340: and judging whether the actual time length value of the historical demand is smaller than the time length value of the bullet of the historical demand in use. If yes, go to step S350; if not, step S360 is performed.

And judging whether the actual time length value of the historical demand is smaller than the time length value of the bullet in the historical demand, so as to judge whether returning is needed after the bullet is required to be used in the historical time.

Step S350: analyzing and processing the current use demand information of the bullet and the historical bullet placement information according to a preset current demand storage estimated placement information analysis method to form current demand storage estimated placement information, and taking the current demand storage estimated placement information as bullet estimated placement information.

The method comprises the steps of storing estimated placement information of current demand, namely the placement information of the gun ammunition in a cabinet body estimated when the use demand of the ammunition is put forward at the current time, storing the estimated placement information of the current demand by using a method for analyzing the estimated placement information of the current demand, and inquiring and acquiring the estimated placement information of the current demand from a database storing the estimated placement information of the current demand by using the method.

When the actual time length value of the historical demand is smaller than the time length value of the bullet using the historical demand, the fact that the bullet does not need to be returned after the use demand is put forward in the historical time is explained, so that the current use demand information and the bullet historical placement condition information of the bullet are analyzed and processed through the current demand storage estimated placement condition analysis method, the current demand storage estimated placement condition information is formed, the current demand storage estimated placement condition information is used as bullet estimated placement condition information, and the accuracy of the obtained bullet estimated placement condition information is improved.

Step S360: according to a preset historical demand storage estimated placement situation analysis method, the bullet historical use demand information and bullet historical placement situation information are analyzed and processed to form historical demand storage estimated placement situation information, and the historical demand storage estimated placement situation information is used as bullet estimated placement situation information.

The historical demand storage estimated placement information refers to placement information of the gun ammunition in the cabinet estimated when the use demand of the ammunition is returned after the use demand of the ammunition is set forth in historical time, the historical demand storage estimated placement analysis method refers to an analysis method for analyzing the historical demand storage estimated placement information, and the historical demand storage estimated placement analysis method is obtained by inquiring a database storing the historical demand storage estimated placement analysis method.

When the actual time length value of the historical demand is smaller than the time length value of the bullet using the historical demand, the fact that the bullet does not need to be returned after the use demand is put forward in the historical time is explained, so that the historical use demand information of the bullet and the historical placement condition information of the bullet are analyzed and processed through the analysis method of the estimated placement condition of the historical demand storage, the estimated placement condition information of the historical demand storage is formed, the estimated placement condition information of the historical demand storage is used as the estimated placement condition information of the bullet, and the accuracy of the obtained estimated placement condition information of the bullet is improved.

In step S350 shown in fig. 2, in order to further ensure the rationality of the current demand storage estimated placement information, further separate analysis and calculation of the current demand storage estimated placement information is required, specifically, the detailed description will be given by the steps shown in fig. 3.

Referring to fig. 3, according to a preset method for analyzing a predicted placement situation of a current demand deposit, the method for analyzing current usage demand information of a bullet and historical placement situation information of the bullet to form the predicted placement situation information of the current demand deposit includes the following steps:

step S351: and calling the current-use bullet demand type information and the current-use bullet demand value based on the current-use bullet demand information.

The current usage bullet demand type information is type information indicating that usage bullets are required to be used at the current time, and is obtained by inquiring a database storing the current usage bullet demand type information. The currently used bullet type demand value refers to a demand quantity value for indicating the type to which the used bullet belongs that is demanded at the current time, and is obtained by querying from a database storing the currently used bullet type demand value.

And the information of the type of the current bullet requirement and the value of the type of the current bullet requirement are called through the information of the current bullet requirement, so that the subsequent use is convenient.

Step S352: and retrieving the information of the types of the historically placed bullets and the number of the types of the historically placed bullets based on the information of the historically placed bullets.

The historical bullet type information is information indicating the type of the bullet placed in the cabinet body in historical time, and is obtained by inquiring a database storing the historical bullet type information. The number of the types of the historically placed bullets refers to a number value indicating the type to which the bullets placed in the cabinet belong at a historical time, and the number of the types of the historically placed bullets is obtained by inquiring from a database storing the number of the types of the historically placed bullets.

The information of the type of the bullets placed in the history and the number value of the type of the bullets placed in the history are called through the information of the type of the bullets placed in the history, so that the subsequent use is convenient.

Step S353: and analyzing and calculating the difference value between the current used bullet type demand value and the historical placed bullet type quantity value which are respectively corresponding to the current used bullet type demand value and the historical placed bullet type information when the current used bullet type demand information is consistent with the historical placed bullet type information, and taking the difference value as the historical placed bullet type quantity remaining value.

The historical placed bullet type quantity remaining value is a single type of placed remaining value used for indicating that the bullet placed in the cabinet body in the historical time is subjected to the current time requirement, and the difference value between the current used bullet type requirement value and the historical placed bullet type quantity value, which correspond to the current used bullet type requirement information and the historical placed bullet type information respectively when the current used bullet requirement information is consistent with the historical placed bullet type information, is analyzed and calculated and is used as the historical placed bullet type quantity remaining value, so that the subsequent use is convenient.

Step S354: and combining the remaining values of the number of the historically placed bullet types corresponding to all the current used bullet requirement type information to serve as the remaining values of the current used bullet requirement type.

The current bullet demand type remaining value is a remaining number value for indicating all types of the current time demand, and the remaining number value of the historical remaining bullet types corresponding to all current bullet demand type information is combined and used as the current bullet demand type remaining value, so that the subsequent use is convenient.

Step S355: according to the corresponding relation between the current bullet demand type residual value and the preset current bullet demand adjustment placement information, analyzing and obtaining current bullet demand adjustment placement information corresponding to the current bullet demand type residual value, and taking the current bullet demand adjustment placement information as current demand storage estimated placement information.

The current bullet demand adjustment placement information is used for indicating all kinds of placement information after adjustment through the current time demand, and is obtained by inquiring a database storing the current bullet demand adjustment placement information.

And analyzing and acquiring the current bullet demand adjustment placement information through the current bullet demand type residual value, so that the accuracy of the acquired current demand storage estimated placement information is improved.

In step S360 shown in fig. 2, in order to further ensure the rationality of the estimated placement information stored in the historical demand, further individual analysis and calculation of the estimated placement information stored in the historical demand is required, specifically, the detailed description will be given by the steps shown in fig. 4.

Referring to fig. 4, according to a preset method for analyzing the estimated placement of the stored historical demand, the method for analyzing the historical usage demand information of the bullet and the historical placement information of the bullet to form the estimated placement information of the stored historical demand includes the following steps:

step S361: and retrieving historical usage bullet demand type information and historical usage bullet type demand values based on the bullet historical usage demand information.

The history use bullet demand type information is type information indicating that the history use bullet is required to be used in the history time, and the history use bullet demand type information is obtained by inquiring from a database storing the history use bullet demand type information. The history use bullet type demand value refers to a demand quantity value indicating a type to which the use bullet belongs in a history time, and is obtained by querying a database storing history use bullet type demand values.

And the history use bullet demand type information and the history use bullet type demand value are called through bullet history use demand information, so that the follow-up use is convenient.

Step S362: and analyzing and acquiring deviation information between bullet historical placement condition information and preset cabinet body placement reference information, and taking the deviation information as cabinet body historical vacant placement information.

The cabinet body placement reference information is reference information for indicating that the cabinet body can bear the placement of the bullets, and the cabinet body placement reference information is obtained by inquiring a database storing the cabinet body placement reference information. The historical vacant placement information of the cabinet body is information for indicating that the cabinet body is vacant to place in the historical time.

The method has the advantages that deviation information between bullet historical placement condition information and preset cabinet body placement reference information is analyzed, and the obtained deviation information is used as cabinet body historical vacant placement information, so that follow-up use is facilitated.

Step S363: and calling the information of the vacant cabinet placement type and the number of the vacant cabinet placement type based on the historical vacant cabinet placement information.

The cabinet body vacant placement type information is type information corresponding to the cabinet body when vacant placement exists in the historical time, and the cabinet body vacant placement type information is obtained by inquiring a database storing the cabinet body vacant placement type information. The number of the cabinet vacant placement types is a number which is used for indicating that the corresponding type of the cabinet can be placed when the cabinet is vacant in the history time, and the number of the cabinet vacant placement types is obtained by inquiring a database storing the number of the cabinet vacant placement types.

The historical vacant placing information of the cabinet body is used for retrieving the vacant placing type information of the cabinet body and the vacant placing type quantity value of the cabinet body, so that the subsequent use is convenient.

Step S364: and analyzing and calculating the difference value between the number value of the vacant cabinet placement types corresponding to the information of the vacant cabinet placement types consistent with the information of the type of the bullet required by the history use and the type of the bullet required by the history use, and taking the difference value as the vacant cabinet placement value of the type of the bullet required by the history use.

The historical use demand vacant variety placement value is a quantity value used for indicating that the cabinet body is placed in a vacant manner after the historical time demand is stored, and the difference value between the cabinet body vacant placement variety quantity value corresponding to the cabinet body vacant placement variety information consistent with the historical use bullet demand variety information and the historical use bullet demand value is analyzed and calculated and used as the historical use demand vacant variety placement value, so that follow-up use is convenient.

Step S365: and combining the historical use requirement vacant type placement values corresponding to all the historical use bullet requirement type information to serve as cabinet vacant placement type remaining values.

The cabinet body vacant type remaining value is a comprehensive quantity value for indicating all vacant types of the cabinet body after the cabinet body is stored for the historical time requirement, and the historical use requirement vacant type remaining value corresponding to all the historical use bullet requirement type information is combined and used as the cabinet body vacant type remaining value, so that follow-up use is facilitated.

Step S366: and analyzing and acquiring the cabinet body vacant placement change information corresponding to the cabinet body vacant placement type residual value according to the corresponding relation between the cabinet body vacant placement type residual value and the preset cabinet body vacant placement change information.

The cabinet body vacant placement change information is used for indicating vacant placement condition information after the vacant placement in the cabinet body is changed, and the cabinet body vacant placement change information is obtained by inquiring a database storing the cabinet body vacant placement change information.

The cabinet vacant placement change information is obtained through cabinet vacant placement type remaining value analysis, so that follow-up use is facilitated.

Step S367: according to the corresponding relation between the cabinet body vacant placement change information and preset vacant adjustment estimated placement condition information, the vacant adjustment estimated placement condition information corresponding to the cabinet body vacant placement change information is analyzed and obtained, and the vacant adjustment estimated placement condition information is used as historical demand storage estimated placement condition information.

The idle adjustment estimated placement information refers to adjustment information for changing the placement after the idle placement in the cabinet body is changed, and the idle adjustment estimated placement information is obtained by inquiring a database storing idle adjustment estimated placement information.

The method comprises the steps of analyzing and obtaining the estimated placement information of the vacant adjustment through the vacant placement change information of the cabinet body, and storing the estimated placement information of the vacant adjustment as the historical demand, so that the accuracy of the obtained estimated placement information of the historical demand is improved.

In step S368 shown in fig. 4, in order to further ensure the rationality of the estimated placement information stored in the historical demand, further individual analysis and calculation of the estimated placement information stored in the historical demand is required, specifically, the detailed description will be given by the steps shown in fig. 5.

Referring to fig. 5, the steps before storing the estimated placement information with the spare adjustment estimated placement information as the history requirement include the steps of:

step S3681: judging whether the placement values of the vacant types of the historical use demands are all larger than a preset vacant type placement reference value. If yes, go to step S3682; if not, step S3683 is performed.

The vacant type placing reference value is a reference data value for indicating the vacant type in the cabinet body, and the vacant type placing reference value is inquired and obtained from a database storing the vacant type placing reference value.

Whether the value is placed to the vacant variety of historical use demand is greater than a preset vacant variety placement reference value is judged, so that whether the vacant placement in the cabinet body can meet placement after the historical time use demand is judged.

Step S3682: and the jump execution takes the spare adjustment estimated placement information as the historical demand to store the estimated placement information.

When the historical use requirement free type placement values are larger than the preset free type placement reference value, the fact that the placement after the historical time use requirement can be met by the free placement in the cabinet body at the moment is explained, and therefore skip execution is carried out, and the free adjustment estimated placement condition information is used as historical requirement storage estimated placement condition information.

Step S3683: and adjusting the placement value as the vacant type when the vacant type placement value of the historical use requirement is not more than the vacant type placement reference value.

The spare type adjustment placement value is a quantity value for indicating that the spare type needs to be adjusted and placed. When the value is placed to the vacant variety of history use demand is not all greater than the reference value is placed to the vacant variety of predetermineeing, indicate that the internal vacant placement of cabinet this moment can not satisfy the placement after the demand is used to the history time, so place the value and be not greater than the vacant variety of history use demand vacant variety and place the value as vacant variety adjustment of reference value to the convenience is used subsequently.

Step S3684: and calling the vacant category adjustment placement category information based on the vacant category adjustment placement value.

The spare type adjustment placement type information is placement type information corresponding to a spare type adjustment placement value, and the spare type adjustment placement type information is obtained by inquiring a database storing the spare type adjustment placement type information.

The information of the empty type adjustment and placement type is retrieved through the empty type adjustment and placement value, so that the subsequent use is convenient.

Step S3685: according to the corresponding relation between the spare type adjustment placement type information and the preset adjustment placement type substitution type information, analyzing and obtaining the adjustment placement type substitution type information corresponding to the spare type adjustment placement type information.

The adjustment placement type substitute type information is type information for indicating replacement of a type corresponding to the empty type adjustment placement type information, and the adjustment placement type substitute type information is obtained by querying from a database storing the adjustment placement type substitute type information.

The replacement type information of the adjustment placement type is obtained through the analysis of the information of the vacant type adjustment placement type, so that the subsequent use is convenient.

Step S3686: according to the preset replacement type estimated placement condition adjustment analysis method, the replacement type information of the adjustment placement type and the vacant type adjustment placement value are analyzed to form replacement type estimated placement condition adjustment information.

The method comprises the steps of estimating the placement condition adjustment information of the substitute category, determining the estimated placement condition adjustment information of the substitute category, and obtaining the estimated placement condition adjustment information of the substitute category from a database storing the estimated placement condition adjustment analysis method of the substitute category.

The replacement type estimated placement condition adjustment analysis method is used for analyzing and processing the replacement type information of the adjustment placement type and the adjustment placement value of the vacant type, so that the replacement type estimated placement condition adjustment information is formed, and the subsequent use is convenient.

Step S3687: combining the replacement type estimated placement condition adjustment information with the spare adjustment estimated placement condition information to serve as comprehensive estimated placement condition information, and storing the estimated placement condition information by taking the comprehensive estimated placement condition information as a historical demand.

The comprehensive estimated placement information is placement information for comprehensively estimating placement, and the accuracy of the obtained historical demand storage estimated placement information is improved by combining the alternative type estimated placement adjustment information with the spare adjustment estimated placement information to serve as comprehensive estimated placement information and storing the comprehensive estimated placement information as historical demand storage estimated placement information.

In step S3686 shown in fig. 5, in order to further ensure the rationality of the estimated placement information of the alternative category, further separate analysis and calculation of the estimated placement information of the alternative category is required, specifically, the detailed description will be given by the steps shown in fig. 6.

Referring to fig. 6, according to a preset method for adjusting and analyzing the estimated placement condition of the replacement type, the method for analyzing and processing the replacement type information and the rest type adjustment placement value to form the estimated placement condition adjustment information of the replacement type includes the following steps:

step S36861: and retrieving the placement adjustment type substitute type placement value based on the placement adjustment type substitute type information.

The adjustment placement type alternative type placement value is a placement quantity value corresponding to an alternative type for indicating that adjustment placement is required, and is obtained by querying a database storing the adjustment placement type alternative type placement value.

The placement value of the placement type replacement type is adjusted through the placement type replacement information, so that the subsequent use is convenient.

Step S36862: the analysis calculates the sum of all the adjusted placement category alternative category placement values and takes the sum as the alternative category placement total value.

The total placement value of the alternative types is a total placement value of the number of all alternative types corresponding to the indication of the need of adjustment placement, and the sum of the placement values of all the alternative types of the adjustment placement types is analyzed and calculated to serve as the total placement value of the alternative types, so that the subsequent use is convenient.

Step S36863: judging whether the total placement value of the alternative types is larger than the adjustment placement value of the spare types. If yes, go to step S36864; if not, step S36867 is performed.

And judging whether the total placement value of the alternative types is larger than the adjustment placement value of the spare types, so as to judge whether the alternative types can be directly used for placement.

Step S36864: the alternative category preference value is invoked based on the adjusted placement category alternative category information.

The substitute category priority value is a priority value for indicating the adjustment and placement of the substitute category, and is obtained by querying a database storing the substitute category priority value.

When the total value of the alternative type placement is larger than the adjustment placement value of the vacant type, the alternative type can be directly used for placement at the moment, so that the priority value of the alternative type is called through adjustment of the information of the alternative type of placement, and the subsequent use is convenient.

Step S36865: and sorting from large to small based on the substitute category priority values, and taking the adjusted placement category substitute category information corresponding to the substitute category priority values sorted from large to small as final substitute category information.

The final substitute category information is substitute category information used for indicating the final adjustment placement, and the substitute category information corresponding to the substitute category priority value which is ordered from large to small is used as the final substitute category information by ordering the substitute category priority value from large to small, so that the subsequent use is convenient.

Step S36866: according to the corresponding relation between the final substitution type information and the preset final substitution type placement adjustment information, analyzing and obtaining final substitution type placement adjustment information corresponding to the final substitution type information, and taking the final substitution type placement adjustment information as substitution type pre-estimated placement condition adjustment information.

The final replacement category placement adjustment information refers to placement condition information for indicating placement adjustment according to the final replacement category information, and the final replacement category placement adjustment information is obtained by querying from a database storing the final replacement category placement adjustment information.

The final replacement type placement adjustment information is obtained through analysis of the final replacement type information, and the final replacement type placement adjustment information is used as replacement type estimated placement condition adjustment information, so that accuracy of the obtained replacement type estimated placement condition adjustment information is improved.

Step S36867: and taking information except the adjustment placement type substitution type information and the history use bullet demand type information in the cabinet body vacant placement type information as vacant placement remaining type information.

The spare type information is type information indicating types of spare types except for alternative types and types of requirements of the used bullets.

When the total value is not larger than the adjustment placement value of the vacant variety, the description that the replacement variety cannot be directly used for placement at the moment, so that the information except the adjustment placement variety replacement variety information and the history bullet demand variety information in the information of the vacant placement variety of the cabinet body is used as the information of the vacant placement remaining variety, and the follow-up use is convenient.

Step S36868: according to a preset method for analyzing the rest type of the rest, analyzing the rest type of the rest information to form rest type of the rest adjustment information, and taking the rest type of the rest adjustment information as alternative type pre-estimated rest condition adjustment information.

Wherein the vacant placement surplus type placement adjustment information refers to placement condition adjustment information for instructing placement adjustment of the surplus types, the vacant placement surplus type placement adjustment analysis method refers to an analysis method for analyzing the vacant placement surplus type placement adjustment information, the method for analyzing the rest type of the placement is obtained by inquiring a database storing the method for analyzing the rest type of the placement.

The method comprises the steps of analyzing and processing the vacant residual type information through a vacant residual type placement adjustment analysis method, so that vacant residual type placement adjustment information is formed, the vacant residual type placement adjustment information is used as alternative type estimated placement condition adjustment information, and the accuracy of the obtained alternative type estimated placement condition adjustment information is improved.

In step S36868 shown in fig. 6, in order to further secure the rationality of the remaining-category-placement adjustment information, further individual analysis calculation of the remaining-category-placement adjustment information is required, specifically, the steps shown in fig. 7 are described in detail.

Referring to fig. 7, according to a preset rest-remaining-category-placement adjustment analysis method to analyze and process rest-remaining-category information to form rest-remaining-category-placement adjustment information, the method includes the steps of:

step S368681: and analyzing and calculating the difference between the total placement value of the alternative types and the placement value of the vacant type adjustment and taking the difference as the placement deviation value of the vacant type adjustment.

The deviation value is used for indicating the quantity of the vacant types except the substitute types when the vacant types are adjusted and placed, and the deviation value is analyzed and calculated through the difference between the total value placed by the substitute types and the value placed by the vacant types and is used as the deviation value placed by the vacant types, so that the subsequent use is convenient.

Step S368682: and calling the quantity value of the vacant placed residual category based on the vacant placed residual category information.

The number value of the vacant placed residual variety is a placed number value corresponding to the vacant placed residual variety, and the number value of the vacant placed residual variety is called through the information of the vacant placed residual variety, so that the subsequent use is convenient.

Step S368683: and analyzing and calculating the difference value between the number of the vacant placed residual categories and the deviation value of the vacant category adjustment placement, and taking the difference value as the deviation value of the number of the vacant placed residual categories.

The deviation value of the number of the vacant placed residual types is used for indicating deviation of the placed number corresponding to the vacant placed residual types, and the deviation value of the number of the vacant placed residual types is analyzed and calculated by the difference value between the number of the vacant placed residual types and the deviation value of the vacant type adjustment placed deviation value, so that the vacant placed residual types are convenient to use subsequently.

Step S368684: and sorting from small to large based on the number deviation value of the vacant placed remaining types, and taking vacant placed remaining type information corresponding to the number deviation value of the vacant placed remaining types in the first sorting from small to large as the remaining type replacement type information.

The remaining type replacing type information is type information used for replacing in the remaining types, the number deviation values of the remaining types are sorted from small to large, and the remaining type information corresponding to the number deviation values of the remaining types which are left to be placed in the first sorting from small to large is used as the remaining type replacing type information, so that the subsequent use is convenient.

Step S368685: according to the corresponding relation between the residual category replacement category information and the preset residual category replacement category adjustment information, analyzing and acquiring residual category replacement category adjustment information corresponding to the residual category replacement category information, and taking the residual category replacement category adjustment information as vacant residual category placement adjustment information.

The remaining type replacement type adjustment information refers to placement adjustment information for performing placement adjustment according to the remaining type replacement type information, and the remaining type replacement type adjustment information is obtained by searching a database storing the remaining type replacement type adjustment information.

The residual type replacement type adjustment information is obtained through the residual type replacement type information analysis, and the residual type replacement type adjustment information is used as the vacant placement residual type placement adjustment information, so that the accuracy of the obtained vacant placement residual type placement adjustment information is improved.

Referring to fig. 8, based on the same inventive concept, an embodiment of the present invention provides an intelligent gun cabinet abnormality pre-warning system, including:

the acquisition module 1 is used for acquiring the real-time placing condition information of the bullets and the using requirement information of the bullets;

a memory 2 for storing a program of the intelligent gun cabinet abnormality warning method as described in any one of fig. 1 to 7;

The processor 3, the program in the memory can be loaded and executed by the processor and implement the intelligent gun cabinet abnormality warning method as described in any one of fig. 1 to 7.

The foregoing description of the preferred embodiments of the present application is not intended to limit the scope of the application, in which any feature disclosed in this specification (including abstract and drawings) may be replaced by alternative features serving the same, equivalent or similar purpose, unless expressly stated otherwise. That is, each feature is one example only of a generic series of equivalent or similar features, unless expressly stated otherwise.

Claims

1. An intelligent gun cabinet abnormality early warning method is characterized by comprising the following steps:

2. The intelligent gun cabinet anomaly pre-warning method according to claim 1, wherein the analyzing the bullet usage requirement information and the bullet historical placement information according to the pre-set bullet placement analysis method to form bullet placement pre-estimated information comprises:

3. The intelligent gun cabinet abnormality pre-warning method according to claim 2, wherein the analyzing method for storing estimated placement according to the preset current demand to analyze and process the current usage demand information of the gun and the historical placement information of the gun to form the current demand storing estimated placement information comprises:

4. The intelligent gun cabinet anomaly pre-warning method according to claim 2, wherein the analyzing method for storing estimated placement according to the preset historical demand to analyze and process the bullet historical usage demand information and the bullet historical placement information to form the historical demand storage estimated placement information comprises:

5. The intelligent gun cabinet abnormality pre-warning method according to claim 4, further comprising the step of storing the estimated placement information by taking the empty adjustment estimated placement information as a history requirement, wherein the method comprises the steps of:

6. The method for warning of abnormality in an intelligent gun cabinet according to claim 5, wherein adjusting the analysis method according to the preset estimated placement condition of the replacement type to analyze the replacement type information of the replacement type and the remaining type adjustment placement value to form the estimated placement condition adjustment information of the replacement type comprises:

7. The intelligent gun cabinet anomaly pre-warning method of claim 6, wherein the analyzing the remaining type of the vacant placement information according to the preset remaining type of the vacant placement adjustment analysis method to form the remaining type of the vacant placement adjustment information comprises:

8. An intelligent gun cabinet abnormality pre-warning system, comprising:

the acquisition module (1) is used for acquiring the information of the real-time placing condition of the bullet and the information of the using requirement of the bullet;

a memory (2) for storing a program of the intelligent gun cabinet abnormality warning method according to any one of claims 1 to 7;

a processor (3), a program in the memory being capable of being loaded by the processor for execution and implementing the intelligent gun cabinet abnormality warning method according to any one of claims 1 to 7.