CN115171267B

CN115171267B - Certificate management control method, device and system and storage medium

Info

Publication number: CN115171267B
Application number: CN202211088333.5A
Authority: CN
Inventors: 王榜金; 唐文奇; 朱许荣
Original assignee: IST International Security Technology Shenzhen Ltd
Current assignee: IST International Security Technology Shenzhen Ltd
Priority date: 2022-09-07
Filing date: 2022-09-07
Publication date: 2022-12-16
Anticipated expiration: 2042-09-07
Also published as: CN115171267A

Abstract

The embodiment of the invention discloses a control method, a device, a system and a storage medium for certificate management, wherein the method comprises the following steps: acquiring a evidence obtaining request, and obtaining equipment for storing the certificate to be obtained and target evidence obtaining equipment corresponding to the certificate to be obtained; when the equipment for storing the certificate to be taken and the target certificate issuing equipment are the same equipment, generating first prompt information for prompting the certificate in the current equipment; when the device for storing the certificate to be acquired and the target evidence equipment are different devices and the distance difference between the positions of the device for storing the certificate to be acquired and the target evidence equipment is smaller than or equal to the preset range, generating second prompt information for prompting whether the target evidence equipment is changed; when the device for storing the certificate to be acquired and the target evidence-proving device are different devices, and the distance difference between the positions of the device for storing the certificate to be acquired and the target evidence-proving device is larger than the preset range, the certificate scheduling instruction for scheduling the certificate to be acquired to the target evidence-proving device is generated.

Description

Certificate management control method, device and system and storage medium

Technical Field

The present invention relates to the field of data processing technologies, and in particular, to a method, an apparatus, a system, and a storage medium for controlling certificate management.

Background

The resident often meets the condition that needs handle all kinds of certificates in daily life now, and common certificate type is ID card, resident card, driver's license, travel card, license plate, passport, the pass of hong Kong and Macau, taiwan pass of land resident exchange etc..

At present, the card and certificate receiving mode is not flexible enough. Usually, a user arrives at a certificate issuing institution to obtain a certificate; or, reserving an addressee during certificate handling, and receiving through a logistics express way. When a user goes to a certificate issuing organization to obtain certificates, the user usually walks through a plurality of windows to obtain the corresponding types of the certificates, and the certificate obtaining efficiency is low, so that a means for efficiently obtaining the certificates is still lacked at present.

Disclosure of Invention

The invention mainly aims to provide a control method, a device, a system and a storage medium for certificate management, which can solve the problem that an effective means for certificate management is lacked in the prior art.

To achieve the above object, a first aspect of the present invention provides a method for controlling certificate management, the method including:

obtaining a forensics request input by a user;

obtaining equipment for storing the certificate to be obtained and target evidence obtaining equipment corresponding to the certificate to be obtained according to the evidence obtaining request;

when the equipment for storing the certificate to be obtained and the target certificate-issuing equipment are the same equipment, generating first prompt information, wherein the first prompt information is used for prompting that the certificate is in the current equipment;

when the device for storing the certificate to be obtained and the target evidence obtaining device are different devices, and the distance difference between the position of the device for storing the certificate to be obtained and the position of the target evidence obtaining device is smaller than or equal to a preset range, generating second prompt information, wherein the second prompt information is used for prompting whether the target evidence obtaining device is changed;

when the storage treat the equipment of collecting evidence with when the equipment of target evidence is different equipment, just the storage treat the position of the equipment of collecting evidence with distance difference between the position of the equipment of target evidence is greater than the preset range, then according to the equipment of target evidence generates certificate scheduling instruction, certificate scheduling instruction be used for with treat that the evidence is dispatched the equipment of target evidence.

In one possible implementation, the method further includes

Obtaining a first time difference value according to the forensics request and the current moment;

when the first time difference value is larger than a preset time length range, recording the evidence obtaining request to a certificate scheduling table;

when the number of the evidence obtaining requests of the certificate scheduling table meets a preset number, generating a batch scheduling instruction according to the certificate scheduling table;

or when a second time difference value between the generation time of any one forensics request of the certificate scheduling table and the current time reaches a preset time threshold, generating a batch scheduling instruction according to the certificate scheduling table.

In one possible implementation, the method further includes:

obtaining storage information and cache information of the certificate according to the certificate obtaining request;

if the time difference between the forensics request and the cached forensics information is smaller than a preset time threshold value, and the difference between the reserved taking-out time in the forensics request and the current moment is smaller than or equal to preset balanced scheduling time, determining target forensics equipment and forming a certificate output instruction;

and if the time difference value between the evidence obtaining request and the cached evidence obtaining information is smaller than a preset time threshold value, and the difference value between the reserved taking time in the evidence obtaining request and the current moment is larger than preset balanced scheduling time, carrying out balanced storage processing on the certificate according to the storage information until the storage information is in balanced storage, executing the step of determining target evidence obtaining equipment, and forming a certificate output instruction.

In a feasible implementation manner, the control system for certificate management includes a plurality of central storage bins and a plurality of certificate management terminals, both the central storage bins and the certificate management terminals can be used as devices for storing certificates, any one certificate management terminal is used as a target certificate issuing device, and the balanced storage processing is performed on the certificates according to the storage information, including:

determining the certificate storage conditions, certificate storage data and residual storage capacity of each certificate management terminal and the central storage bin;

counting the certificate storage data of each certificate management terminal and the central storage bin under the same certificate storage condition to obtain a certificate storage data set corresponding to the certificate storage condition;

and carrying out balanced storage processing on each certificate according to the certificate storage data set of each certificate storage condition until the storage information is in balanced storage.

In a feasible implementation manner, the control system for certificate management includes a plurality of central storage bins and a plurality of certificate management terminals, both the central storage bins and the certificate management terminals can be used as devices for storing certificates, any one certificate management terminal is used as a target certificate issuing device, the determining of the target certificate issuing device further includes:

acquiring first equipment information of equipment storing the certificate to be acquired, wherein the equipment storing the certificate to be acquired;

acquiring second equipment information of at least one central storage bin adjacent to the target certification equipment according to the target certification equipment;

and generating certificate scheduling information according to the first equipment information and the second equipment information, wherein the certificate scheduling information is used for scheduling the to-be-forensics to a central storage bin adjacent to the target evidence-showing equipment.

In a possible implementation manner, the generating credential scheduling information according to the first device information and the second device information includes:

determining a storage state of each central storage bin according to a plurality of pieces of second equipment information, wherein the storage state comprises space occupancy rate;

and when third equipment information with the space occupancy rate smaller than a preset space occupancy rate threshold exists, generating certificate scheduling information based on the first equipment information and a central storage bin corresponding to the third equipment information.

In a feasible implementation manner, the generating credential scheduling information according to the first device information and the second device information further includes:

obtaining a first distance value according to the first device information and the device position of the target certification device, and obtaining a plurality of second distance values respectively according to the plurality of second device information and the device position of the target certification device;

when the first distance value is larger than at least one second distance value, generating certificate scheduling information according to second equipment information corresponding to the minimum second distance value in the second distance values and the first equipment information;

and when the first distance value is smaller than or equal to each second distance value, generating certificate scheduling information according to the first equipment information.

In one possible implementation, the method further includes:

and if the time difference between the generation time of the evidence obtaining request and the reserved taking-out time is less than or equal to the preset time length, determining that the evidence to be obtained does not need to be dispatched to a central storage bin adjacent to the target evidence obtaining equipment.

In one possible implementation, the forming credential output instructions includes:

generating a forensics path for a carrier based on a first location of a central storage bin storing the evidence to be obtained and a current location of the carrier before the evidence to be obtained reaches the target evidencing device;

and generating a certificate sending path of the carrying equipment based on the second position and the first position of the target certification equipment, wherein the certificate output instruction comprises the certificate receiving path and the certificate sending path.

To achieve the above object, a second aspect of the present invention provides a control device for credential management, the control device for credential management being configured to perform the steps of the method according to the first aspect and any possible implementation manner, the device comprising:

a request acquisition module: the system comprises a data processing module, a data processing module and a data processing module, wherein the data processing module is used for acquiring a forensics request input by a user;

a device determination module: the device is used for obtaining the device for storing the certificate to be collected and the target evidence-collecting device corresponding to the certificate to be collected according to the evidence-collecting request;

the first prompting module: the device is used for generating first prompt information when the device for storing the to-be-collected evidence and the target evidence-collecting device are the same device, wherein the first prompt information is used for prompting the certificate to be in the current device;

the second prompting module: when the device for storing the evidence to be obtained and the target evidence obtaining device are different devices and the distance difference between the position of the device for storing the evidence to be obtained and the position of the target evidence obtaining device is smaller than or equal to a preset range, generating second prompt information, wherein the second prompt information is used for prompting whether the target evidence obtaining device is changed;

an instruction generation module: the certificate scheduling method comprises the steps of storing equipment to be subjected to evidence obtaining and target evidence obtaining equipment, wherein the equipment to be subjected to evidence obtaining and the target evidence obtaining equipment are different equipment, storing the position of the equipment to be subjected to evidence obtaining and the distance difference between the positions of the target evidence obtaining equipment are larger than a preset range, and then generating a certificate scheduling instruction according to the target evidence obtaining equipment, wherein the certificate scheduling instruction is used for scheduling the equipment to be subjected to evidence obtaining to the target evidence obtaining equipment.

To achieve the above object, a third aspect of the present invention provides a control system for certificate management, configured to perform the steps of the method according to the first aspect and any possible implementation manner, the control system for certificate management including: the system comprises carrying equipment, a central storage bin, a certificate management terminal and a manipulator;

the carrying equipment is used for dispatching the certificate to be acquired between the central storage bin and the certificate management terminal;

the central storage bin is used for responding to a certificate scheduling instruction and storing the to-be-certified piece;

the manipulator is used for collecting the pieces to be proved from the central storage bin and placing the collected pieces to be proved in the carrying equipment;

the certificate management terminal is used as a evidence obtaining medium so that a user can obtain the to-be-obtained certificate at a target evidence obtaining device.

To achieve the above object, a fourth aspect of the present invention provides a computer-readable storage medium storing a computer program, which, when executed by a processor, causes the processor to perform the steps of the method according to the first aspect and any possible implementation manner.

The embodiment of the invention has the following beneficial effects:

the invention provides a control method for certificate management, which comprises the following steps: obtaining a forensics request input by a user; obtaining equipment for storing certificates to be obtained and target certificate-issuing equipment corresponding to the certificates to be obtained according to the certificate-obtaining request; when the equipment for storing the certificate to be taken and the target certificate issuing equipment are the same equipment, generating first prompt information, wherein the first prompt information is used for prompting that the certificate is in the current equipment; when the device for storing the certificate to be acquired and the target evidence equipment are different devices and the distance difference between the position of the device for storing the certificate to be acquired and the position of the target evidence equipment is smaller than or equal to a preset range, generating second prompt information, wherein the second prompt information is used for prompting whether the target evidence equipment is changed; when the device for storing the certificate to be acquired and the target evidence-obtaining device are different devices, and the distance difference between the position of the device for storing the certificate to be acquired and the position of the target evidence-obtaining device is larger than a preset range, a certificate scheduling instruction is generated according to the target evidence-obtaining device, and the certificate scheduling instruction is used for scheduling the certificate to be acquired to the target evidence-obtaining device. Through the mode, the certificate can be received based on the evidence obtaining request of the user, and the certificate receiving and dispatching are effectively managed by judging whether the evidence storage (storing the evidence to be obtained) and the evidence obtaining are the same equipment or not and the position distance relation between the evidence storage and the evidence obtaining, so that the evidence obtaining efficiency is improved, and the flexibility and the convenience of the user in evidence obtaining are improved.

Drawings

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

Wherein:

fig. 1 is a diagram of an application environment of a control system for credential management in an embodiment of the present invention;

FIG. 2 is a diagram of a layout architecture of a control system for credential management in an embodiment of the present invention;

fig. 3 is a flowchart of a control method for certificate management according to an embodiment of the present invention;

FIG. 4 is another flowchart of a certificate management control method according to an embodiment of the present invention;

FIG. 5 is a block diagram of a control device for certificate management according to an embodiment of the present invention;

fig. 6 is a block diagram of a computer device according to an embodiment of the present invention.

Detailed Description

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

Referring to fig. 1, fig. 1 is an application environment diagram of a control system for credential management in an embodiment of the present invention, and as shown in fig. 1, the control system 10 for credential management is used to execute a control method for credential management in the present application, specifically, the control system 10 for credential management executes the control method for credential management in the present application through a background server 104, it can be understood that the control method for credential management in the present embodiment may be executed by a server or by electronic devices such as a central storage, a credential management terminal, and the like, which is not limited herein, that is, software corresponding to the control method for credential management in the present embodiment may be loaded in one or more electronic devices such as a server, a central storage, a credential management terminal, and the present embodiment takes application to a background server as an example for description. Further, the control system 10 for certificate management includes: a central storage bin 101, a carrier device 102, a credential management terminal 103, and a robot (not shown);

the central storage bin 101 is used for storing certificates in batches; the carrying device 102 is used for responding to the certificate output instruction, and the carrying device 102 loads the certificate and transmits the certificate to the central storage bin 101 or the certificate management terminal 103; the certificate management terminal 103 is used as a device for obtaining the certificate, that is, a user operates on any certificate management terminal 103, obtains a device for storing the certificate to be obtained and a target certificate-issuing device corresponding to the piece to be obtained by inputting a certificate-obtaining request, and determines whether the reserved certificate-issuing device of the certificate-obtaining request is used as the target certificate-issuing device by judging whether the device for storing the certificate to be obtained and the target certificate-issuing device are the same device and the distance between the two devices; the robot is used to collect the pieces to be forensic from the central storage bin 101 and place the collected pieces to be forensic in the carrier device 102.

Based on the embodiment of fig. 1, there are also other embodiments, for example: in the first embodiment, the management system 10 may be provided on one floor. In the second embodiment, the management system 10 can be provided in a whole building, that is, different floors can be provided with different numbers of central storage bins 101, carrying devices 102 and certificate management terminals 103, and certificates between different floors can be mutually dispatched.

Based on the above, the management system 10 may be provided in a whole building, and may include: A. a plurality of central storage bins 101 are arranged on one floor, a plurality of certificate management terminals 103 are arranged on the other floor, and a plurality of carrying devices 102 can shuttle between the same floor and different floors to dispatch certificates. B. Multiple central storage bins 101 and multiple credential management terminals 103 can be provided on the same floor, and multiple carriers 102 can shuttle between the same floor and different floors to dispatch credentials. Among different central storage bins 101, the certificate can be dispatched according to the target evidence-collecting device corresponding to the evidence-collecting request, and the certificate is dispatched to the central storage bin 101 corresponding to the target evidence-collecting device adjacent to the evidence-collecting request, so that the certificate taking efficiency is improved. Referring to fig. 2, fig. 2 is a layout architecture diagram of a control system for certificate management according to an embodiment of the present invention, and fig. 2 includes a central storage 101 group, a carrying device 102 group, and a certificate management terminal 103 group.

Furthermore, the central storage bin 101 in the control system for certificate management is multiple, and may include a central storage bin A1 … … AN; the carrying devices 102 in the control system for certificate management are multiple and can include a carrying device B1 … … BN; the certificate management terminals 103 in the certificate management control system are plural, and may include a certificate management terminal C1 … … CN, where N represents the total number of each device, and the total number of each device may be the same or different, and the central repository A1 … … AN is understood that A1 to AN may exist as the number of the central repositories 101, and similarly, the number count of the carrying devices 102 and the certificate management terminals 103 is also the same, and is not limited by way of example only.

Illustratively, with continued reference to fig. 1, a central storage bin 101, a carrying device 102, and a credential management terminal 103 are provided on each floor (e.g., 1 or 2 or n floors) in fig. 1. The central storage bin 101, the carrying device 102, and the certificate management terminal 103 in each floor may be distributed in the same manner or in different manners, and the central storage bin 101, the carrying device 102, and the certificate management terminal 103 together with the backend server 104 form a certificate output management system. In the actual evidence obtaining operation, the user can access the certificate through the certificate management terminal 103 when entering any floor. The arrangement positions of the central storage bin 101, the carrying device 102, and the certificate management terminal 103 shown in fig. 1 are only examples and are not particularly limited.

In the above, the user can perform the certificate pickup operation when entering any floor, specifically, for example, the user enters floor 1, and makes a reservation on the certificate management terminal 103 of floor 1 to perform certificate pickup on any certificate management terminal 103 of floor n. Alternatively, the user enters floor 1, makes a reservation on the credential management terminal 103 of floor 1 to retrieve the credential from any credential management terminal 103 of floor 1, and so on, which is not specifically limited in this example.

The user access certificate is used as an actual case to explain:

first, the user enters a floor, operates on any one of the credential management terminals 103 in a queue or in an idle state, and inputs a request for obtaining a credential. After receiving the request for obtaining the evidence from the user, the backend server 104 may obtain the device storing the certificate to be obtained and the target equipment for obtaining the evidence according to the to-be-obtained evidence of the request for obtaining the evidence, and generate a prompt according to whether the device storing the certificate to be obtained and the target equipment for obtaining the evidence are the same device.

Secondly, whether the device storing the certificate to be taken and the target certificate issuing device are the same device or not is judged, and the certificate is dispatched according to the distance difference between the two devices, so that too many system resources are not occupied, and the target certificate issuing device is allowed to be modified.

Finally, according to the certificate scheduling instruction, the carrying equipment 102 is called to implement certificate scheduling at a preset time under the setting of the certificate scheduling instruction, and the certificate is scheduled to the target certification equipment.

In summary, the target authentication device refers to a device that the user wishes to obtain the authentication, that is, the target authentication device may be any certificate management terminal 103. The target certification device refers to the certificate management terminal 103 confirmed by the system, that is, the target certification device actually outputs the certificate by confirming the certification device corresponding to the forensic request with the modification authority. The device storing the to-be-taken certificate and the target certification device may be a central storage bin or a certificate management terminal.

Based on the above, the target certification device can be set through the certification request, and the time requirement for certificate extraction can be increased according to the actual application environment. For example: the reservation evidence-providing device is set as a certain certificate management terminal 103 of the floor 1, and evidence can be obtained at any time away from the current time.

The invention provides a control system for certificate management, which is used for executing the steps of a control method for certificate management and comprises the following steps: the system comprises carrying equipment, a central storage bin, a certificate management terminal and a manipulator; the carrying equipment is used for dispatching the certificate to be acquired between the equipment for storing the certificate and the target certification equipment, and dispatching the certificate between two equipment for storing the certificate (between two central storage bins); the central storage bin is used for storing the evidence to be obtained; the manipulator is used for collecting the pieces to be proved from the central storage bin and placing the collected pieces to be proved in the carrying equipment; the certificate management terminal is used as a evidence obtaining medium so that a user can obtain the to-be-obtained evidence at a target evidence obtaining device. By the mode, the certificate can be effectively managed in getting and scheduling, the evidence obtaining efficiency is improved, and the flexibility and convenience of user evidence obtaining are improved.

Referring to fig. 3, fig. 3 is a flowchart of a certificate management control method according to an embodiment of the present invention, where the method shown in fig. 3 includes the following steps:

301. obtaining a forensics request input by a user;

it should be noted that, the method is applied to the control system for certificate management as shown in fig. 1, and specifically, the control of certificate management can be implemented by using a background server as an execution main body. In this embodiment, a user can make an appointment for obtaining evidence, and then the background server can receive an evidence obtaining request of the user, where the evidence obtaining request at least includes certificate information of a certificate to be obtained and an appointed evidence obtaining device, and the certificate information is used for reflecting characteristic information of the certificate to be obtained, including but not limited to certificate numbers, certificate identifications, regions to which the certificates belong, certificate types, and other certificate characteristics. The forensics request can be initiated by a user operating on any certificate management terminal, or by a user side on an intelligent terminal of the user or by corresponding operation on other equipment capable of inputting the forensics request, the background server establishes communication connection with the feasible equipment, and receives data initiated by the equipment in real time to obtain the forensics request, which is not limited herein.

Taking fig. 1 as an example, a user sends a forensics request at the credential management terminal 103 on any floor, and the backend server can receive the forensics request of the user to obtain credential information of a credential to be collected (for example, a device storing the credential to be collected and a target credential collecting device).

302. Obtaining equipment for storing the certificate to be collected and target evidence collection equipment corresponding to the certificate to be collected according to the evidence collection request;

further, the device for storing the to-be-forensics and the target forensics device can be obtained according to the forensics request, wherein the forensics device is used for temporarily storing the to-be-forensics in the device. The target forensic device is a user selected forensic device, such as a subscription forensic device. And the forensics request is issued by the target forensics device at this time.

303. When the equipment for storing the certificate to be obtained and the target certificate-issuing equipment are the same equipment, generating first prompt information, wherein the first prompt information is used for prompting that the certificate is in the current equipment;

further, if the device for storing the certificate to be taken and the target certification device are the same device, the user can be prompted that the certificate is in the current device, that is, the user can take the certificate.

304. When the device for storing the certificate to be obtained and the target evidence obtaining device are different devices, and the distance difference between the position of the device for storing the certificate to be obtained and the position of the target evidence obtaining device is smaller than or equal to a preset range, generating second prompt information, wherein the second prompt information is used for prompting whether the target evidence obtaining device is changed;

if the device for storing the certificate to be taken and the target certification device are different devices, the subsequent certificate to be taken can be taken according to the distance difference between the position of the device for storing the certificate to be taken and the position of the target certification device. Specifically, by setting a preset range, when the device storing the documents to be acquired and the target evidence equipment are different devices, and the distance difference between the position of the device storing the documents to be acquired and the position of the target evidence equipment is smaller than or equal to the preset range, second prompt information is generated and used for prompting whether to change the target evidence equipment, namely the device storing the documents to be acquired is close to the target evidence equipment (current equipment), the user can be recommended to change the target evidence equipment, the scheduling time is shortened, for example, the target evidence equipment is changed into the device storing the documents to be acquired, and the user moves to the device storing the documents to be acquired for obtaining.

305. The storage treat the equipment of evidence with when the equipment of target evidence is different equipment, just the storage treat the position of the equipment of evidence with distance difference between the position of the equipment of target evidence is greater than the predetermined scope, then according to the equipment of target evidence generates certificate scheduling instruction, certificate scheduling instruction be used for with treat that the evidence dispatches the equipment of target evidence.

In another case, the device for storing the certificate to be acquired and the target evidence equipment are different devices, and the distance difference between the position of the device for storing the certificate to be acquired and the position of the target evidence equipment is larger than the preset range, a certificate scheduling instruction is generated according to the target evidence equipment, and the certificate scheduling instruction is used for scheduling the certificate to be acquired to the target evidence equipment so as to schedule the certificate to be acquired to the target evidence equipment. That is, the device storing the certificate to be taken is far from the target certification device (current device), and therefore, the certificate to be taken needs to be dispatched from the device storing the certificate to be taken to the target certification device for easy retrieval by the user.

Referring to fig. 4, fig. 4 is another flowchart of a certificate management control method according to an embodiment of the present invention, where the method shown in fig. 4 includes:

401. obtaining a forensics request input by a user;

402. obtaining equipment for storing the certificate to be collected and target evidence collection equipment corresponding to the certificate to be collected according to the evidence collection request;

403. when the equipment for storing the certificate to be obtained and the target certificate-issuing equipment are the same equipment, generating first prompt information, wherein the first prompt information is used for prompting that the certificate is in the current equipment;

404. when the device for storing the certificate to be obtained and the target evidence obtaining device are different devices and the distance difference between the position of the device for storing the certificate to be obtained and the position of the target evidence obtaining device is smaller than or equal to a preset range, generating second prompt information, wherein the second prompt information is used for prompting whether the target evidence obtaining device is changed;

405. when the equipment for storing the evidence to be obtained and the target evidence obtaining equipment are different equipment, and the distance difference between the position of the equipment for storing the evidence to be obtained and the position of the target evidence obtaining equipment is larger than a preset range, generating a certificate scheduling instruction according to the target evidence obtaining equipment, wherein the certificate scheduling instruction is used for scheduling the evidence to be obtained to the target evidence obtaining equipment;

it should be noted that steps 401 to 405 are similar to steps 301 to 305 shown in fig. 3, and for avoiding repetition, details are not described here, and specifically, refer to steps 301 to 305 shown in fig. 3.

For example, transferring the to-be-taken certificate from one of the central storage bins 101 (abbreviated as point a) to one of the certificate management terminals 103 (abbreviated as point C) may include the following steps 1 to 8:

step 1: the user or administrator collects the credentials at point C and the credentials to be collected are within the device at point a.

Step 2: the device software at point C provides the certificate number to be verified to a background server (background API for short), and the background API sends a certificate output instruction to the carrying device.

And step 3: and the software of the A point equipment controls the mechanical arm to perform pre-certification and operate to a position above the carrying equipment.

And 4, step 4: and the carrying equipment moves to the point A after receiving the instruction, and informs the background API of the state information of the reached point A.

And 5: the background API informs the point A device software to place the certificate on the mechanical arm into the carrying device and informs the background API that the certificate is placed completely.

Step 6: and the background API informs the carrying device to move to the point C, and the background API informs the point C that the device software performs pre-evidence obtaining.

And 7: the carrying device notifies the background API after reaching the A point.

And 8: and the background API informs the point C device software to control the mechanical arm to take the certificate out of the certificate transfer device and place the certificate in a device certificate outlet to wait for the user to take the certificate away. And confirming the pickup by combining the mobile phone terminal and the personnel verification. The verification method comprises face image verification, fingerprint verification, iris verification and the like.

In a possible implementation manner, the target certification device may be obtained in another manner, and the method further includes Q01 to Q03:

q01, obtaining storage information and cache certificate information of the certificate according to the certificate obtaining request;

it should be noted that, after receiving the forensics request, the server obtains the storage information and the cache information of the certificate to be obtained according to the forensics request, where the storage information is used to indicate the state information of the certificate to be obtained, such as the state information of the certificate to be obtained in a to-be-obtained state, in storage, in scheduling, in logistics, and the like. The cached forensics information includes, but is not limited to, relevant features related to forensics, for example, the relevant features may include one or more of the number, type, belonging area, and the like of the to-be-forensics, and the cached forensics information may further include historical forensics requirements selected by the user (that is, previous forensics requests of the corresponding to-be-forensics documents). Therefore, the storage information and the access certificate information of the certificate can be obtained according to the evidence obtaining request.

Q02, if the time difference between the forensics request and the cached forensics information is smaller than a preset time threshold value, and the difference between the reserved taking-out time in the forensics request and the current moment is smaller than or equal to preset balanced scheduling time, determining target forensics equipment and forming a certificate output instruction;

based on Q02, the practical cases were combined as follows:

the pickup request is issued when the user wants to change the pickup mode, such as changing the time or changing the place, and the like.

If the cached evidence obtaining information exists, it is indicated that the previous reservation information already exists, and therefore, it is required to judge whether the previous reservation information can be continuously valid or whether the evidence obtaining request can invalidate the cached evidence obtaining information, so that the certificate is obtained based on the evidence obtaining request.

That is, a time threshold may be preset as the preset equilibrium scheduling time, and within this time threshold, the operation of the user has the right to change the cache forensics information to change the target forensics device, so if the time difference between the forensics request and the cache forensics information is smaller than the preset time threshold.

Alternatively, the preset equalization scheduling time may be set to any time between 10 and 120min as the time threshold, for example, 15min. That is, when the time difference is within the preset equilibrium scheduling time (15 min), the user has the right to replace the cached forensics information with the forensics request, so as to improve the forensics flexibility.

And Q03, if the time difference between the evidence obtaining request and the cached evidence obtaining information is smaller than a preset time threshold value, and the difference between the reserved taking time in the evidence obtaining request and the current moment is larger than preset balanced scheduling time, carrying out balanced storage processing on the certificate according to the storage information until the storage information is in balanced storage, and executing the step of determining target evidence obtaining equipment and forming a certificate output instruction.

Further, the embodiment further performs balanced storage processing on each device, and after the storage information and the cache evidence information are obtained, what processing is performed on the certificate can be determined according to a time difference value between the storage information and the cache evidence information, wherein if the time difference value between the evidence obtaining request and the cache evidence obtaining information is smaller than a preset time threshold value, and a difference value between the reserved obtaining time in the evidence obtaining request and the current time is smaller than or equal to a preset balanced scheduling time, the target evidence obtaining device is determined according to the step Q02, and a certificate output instruction is formed, that is, the evidence is directly obtained; that is, if the time for generating the forensic request is shorter than the time for caching the forensic information (the forensic request generated last time), and the reserved withdrawal time for obtaining the certificate is shorter than the current time, it means that the cached forensic information can be replaced by the forensic request, and the certificate can be directly output.

If the time difference between the evidence obtaining request and the accessed evidence information is smaller than the preset time threshold value, and the difference between the reserved taking time and the current time in the evidence obtaining request is larger than the preset balanced scheduling time, it can be understood that the time for generating the evidence obtaining request is close to the time for caching the evidence obtaining information (the last generated evidence obtaining request), the user has the authority for modifying the target evidence obtaining equipment, and the user is not anxious to obtain the evidence (the difference between the reserved taking time and the current time in the evidence obtaining request is larger than the preset balanced scheduling time), the certificate is scheduled firstly, so that the certificate is stored in the central storage bin of the target evidence obtaining equipment or the adjacent target evidence obtaining equipment in advance. And step Q03 is utilized, the certificate is subjected to balanced storage processing according to the storage information until the storage information is balanced storage, the step of determining the target certificate-outputting device is executed, and a certificate-outputting instruction is formed, at the moment, the current moment is far less than the reserved taking-out time, the time difference between the reserved taking-out time and the reserved taking-out time is far greater than the balanced scheduling time, and sufficient time is provided for balanced storage operation, so that the certificate can be subjected to balanced storage processing based on the storage information until the storage information is balanced storage, and then the step of determining the target certificate-outputting device is continued, and the certificate-outputting instruction is formed. In conclusion, if the time is enough, the equalization processing is carried out, and if the time is not enough, the certificate is directly output, so that a user can conveniently take the certificate.

In one possible implementation, forming the credential output instruction includes steps W01 to W02:

w01, before the evidence to be obtained reaches the target evidence obtaining device, generating an evidence obtaining path of a carrying device based on a first position of a central storage bin for storing the evidence to be obtained and a current position of the carrying device;

w02, based on the second position of the target certification device and the first position, generating a certificate sending path of the carrying device, wherein the certificate output instruction comprises the certificate receiving path and the certificate sending path.

One of the functions of the certificate output instruction is to determine a moving path of the carrying device for transporting the to-be-certified piece, and before the to-be-certified piece reaches the target certification device, a certification path of the carrying device can be generated based on a first position of a central storage bin for storing the to-be-certified piece and the current position of the carrying device, so that the carrying device moves to the central storage bin for the to-be-certified piece to collect the certificate; after the carrying device receives the certificate, the certificate sending path of the carrying device can be generated based on the second position and the first position of the target certification device, that is, the carrying device is enabled to move continuously to the target certification device from the central storage bin, so that the user can obtain the certificate at the target certification device, and thus, the certificate output instruction at least comprising the certificate receiving path and the certificate sending path is obtained. Furthermore, the certificate output instruction can also be used for controlling the central storage bin to output the to-be-certified parts.

In a feasible implementation manner, the control system for certificate management includes a plurality of central storage bins and a plurality of certificate management terminals, both the central storage bins and the certificate management terminals can be used as devices for storing certificates, any one certificate management terminal is used as a target certificate issuing device, and the step Q03 performs balanced storage processing on the certificates according to the storage information, which may include steps E01 to E03:

e01, determining the certificate storage conditions, the certificate storage data and the residual storage capacity of each certificate management terminal and the central storage bin;

it should be noted that the balanced storage processing refers to maintaining the balance of data in each device to be maximized. Furthermore, the storage capacity of each device can be conveniently known by determining the storage conditions, the storage data and the residual storage capacity of each certificate management terminal and the central storage bin, wherein the storage conditions comprise but are not limited to the type, the upper limit of the number, the region and the like of the certificates which can be stored by each device. The certificate storing data is also the statistical data of the certificate storing of each device. The remaining storage capacity is also how many certificates can be stored in the future.

E02, counting the certificate storage data of each certificate management terminal and the central storage bin with the same certificate storage condition to obtain a certificate storage data set corresponding to the certificate storage condition;

after obtaining the certificate storage conditions, the certificate storage data and the residual storage capacity, firstly, counting the certificate storage data of each certificate management terminal and the central storage bin with the same certificate storage conditions to obtain a certificate storage data set corresponding to the certificate storage conditions, namely, determining the data set of the stored certificates of the equipment corresponding to each certificate storage condition.

And E03, performing balanced storage processing on each certificate according to the certificate storage data set of each certificate storage condition until the storage information is in balanced storage.

And further, carrying out the balanced storage processing of each certificate according to the certificate storage data set of each certificate storage condition until the storage information is in balanced storage. Illustratively, obtaining a storage number sequence of the same storage condition according to the existence data set, wherein the storage number sequence is obtained by arranging the storage number from top to bottom, balancing the number of the certificates arranged in the first equipment with the number of the certificates arranged in the last equipment, and returning to execute the step of obtaining the storage number sequence of the same storage condition according to the existence data set according to the balanced number until the final number of the certificates of each equipment reaches the maximum average. For example 10 devices with an average number of certificates for the same condition of storage of more than 8 devices.

In a possible implementation manner, the management system includes a plurality of central storage bins and a plurality of certificate management terminals, both the central storage bins and the certificate management terminals can be used as devices for storing certificates, and any one certificate management terminal is used as a target certification device, then in Q03, the target certification device is determined, and then R01 to R04 are further included:

r01, acquiring first device information of a device storing the certificate to be acquired, wherein the device stores the certificate to be acquired;

it should be noted that, in order to implement the scheduling operation of scheduling the device to be certified to a device closer to the target certified device, device information of the device to be certified, including but not limited to device-related information such as location, type, capacity, occupancy rate, etc. of the device, needs to be stored first. The first, second, third and so on are used only for distinction, and do not specifically limit technical features unless otherwise specified. Specifically, first device information of a device storing the to-be-certified item, which stores the to-be-certified item, is acquired through the step R01.

R02, acquiring second equipment information of at least one central storage bin adjacent to the target certification equipment according to the target certification equipment;

further, it is also necessary to determine an adjacent central storage bin of the target certification device, and specifically, according to the target certification device, obtain second device information of at least one central storage bin adjacent to the target certification device.

And R03, generating certificate scheduling information according to the first equipment information and the second equipment information, wherein the certificate scheduling information is used for scheduling the to-be-certified piece to a central storage bin adjacent to the target certification equipment.

As can be appreciated from the above, storing the documents to a central storage bin adjacent the target prover device may have the following: 1. the storage state of the target certification equipment is basically full; 2. the target certificate issuing equipment is in certificate storage and taking, and temporarily stores the certificates to be taken out through the central storage bin without outputting the current certificate taking request temporarily; 3. the dispatching tends to be in the framework level, the central storage bin is higher than the equipment for storing the certificates in the upper level of the certificate management terminal, and the efficiency of mutual dispatching among the central storage bins is higher.

Based on the above, if needed, the certificate can be directly dispatched to the target certification device.

After the first device information of the device (central storage bin or other certificate management terminal) storing the certificates to be fetched and the second device information of at least one central storage bin adjacent to the target certification device are obtained, certificate scheduling information can be generated according to the first device information and the at least one second device information, so that the certificates to be fetched are scheduled to the central storage bin adjacent to the target certification device, wherein the certificate scheduling information is used for scheduling the certificates to be fetched to the central storage bin adjacent to the target certification device.

It should be noted that it takes a certain time to schedule the certificate, and the method further includes: and if the time difference between the generation time of the evidence obtaining request and the reserved taking-out time is less than or equal to the preset time length, determining that the to-be-obtained evidence does not need to be dispatched to a central storage bin adjacent to the target evidence obtaining equipment.

It can be understood that although certificate scheduling is beneficial for a user to get certificates more quickly, if the interval between the generation time and the reserved taking-out time is shorter, time conflict or time waste is possibly caused and is not beneficial to getting, so that in order to avoid time conflict or time waste, whether the scheduling operation of the to-be-certified component is needed or not is determined by comparing the time difference between the generation time and the reserved taking-out time of the forensic request with the preset time length. If the time difference between the generation time of the evidence obtaining request and the reserved taking-out time is smaller than or equal to the preset time length, the fact that the certificate to be obtained does not need to be dispatched to a central storage bin of the adjacent target evidence obtaining equipment is determined, namely the certificate dispatching operation is not carried out, and the benefit of certificate obtaining is guaranteed. The preset time includes, but is not limited to, time lengths of 5s, 10s, 1min, 3min, 5min, and the like.

In one possible implementation, step R03 may include steps T01 to T02:

t01, determining the storage state of each central storage bin according to the second equipment information, wherein the storage state comprises space occupancy rate;

and T02, when third equipment information with the space occupancy rate smaller than a preset space occupancy rate threshold exists, generating certificate scheduling information based on the first equipment information and a central storage bin corresponding to the third equipment information.

The storage state of each central storage bin is determined through the second device information, the storage state is used for reflecting the storage capacity and the response capacity of each central storage bin, the storage state can comprise space occupancy rate, if the space occupancy rate is high, the storage capacity and the response capacity are poor, if the space occupancy rate is low, the storage capacity and the response capacity are poor, and if the space occupancy rate is low, the storage capacity and the response capacity are good. And comparing the space occupancy rate of each central storage bin with a preset space occupancy rate threshold value to measure the storage capacity and the response capacity of the central storage bin, wherein the preset space occupancy rate threshold value is set based on the storage upper limit value of the central storage bin, and when third equipment information with the space occupancy rate smaller than the preset space occupancy rate threshold value exists, the third equipment information does not reach the storage upper limit value, the storage capacity and the response capacity of the third equipment information are good, and then the certificate scheduling information can be generated based on the central storage bins corresponding to the first equipment information and the third equipment information. Based on the central storage bin corresponding to the first device information and the third device information, the generating of the certificate scheduling information may be: and if the central storage bin corresponding to the third equipment information is one, directly dispatching the pieces to be subjected to evidence obtaining to the central storage bin corresponding to the third equipment information, if the central storage bin corresponding to the third equipment information is multiple, screening out corresponding candidate central storage bins from the central storage bins corresponding to the multiple third equipment information according to the certificate information, selecting out the central storage bin with the minimum space occupancy rate from the candidate central storage bins, and dispatching the pieces to be subjected to evidence obtaining to the central storage bin with the minimum space occupancy rate in the candidate central storage bins. The candidate central storage bins can be screened based on the types, regions and the like of the certificates, and the central storage bins which are the same as the pieces to be verified are obtained.

In a possible implementation, step R03, may further include steps Y01 to Y03:

y01, obtaining a first distance value according to the first device information and the device position of the target certification device, and obtaining a plurality of second distance values respectively according to the plurality of second device information and the device position of the target certification device;

it should be noted that the to-be-forensics pieces can be scheduled according to the distance between the devices, and then the first distance value can be obtained according to the first device information and the device position of the target forensics device, and the plurality of second distance values are obtained respectively according to the plurality of second device information and the device position of the target forensics device.

Y02, when the first distance value is larger than at least one second distance value, generating certificate scheduling information according to second equipment information corresponding to the smallest second distance value in the second distance values and the first equipment information;

and Y03, when the first distance value is smaller than or equal to each second distance value, generating certificate scheduling information according to the first equipment information.

Further, when a first distance value and a plurality of second distance values are obtained, the first distance value and the plurality of second distance values can be compared pairwise, and when the first distance value is larger than at least one second distance value, certificate scheduling information is generated according to second equipment information corresponding to the smallest second distance value in the plurality of second distance values and the first equipment information, wherein the condition shown in Q02 indicates that the first distance value is larger than each second distance value, namely the distance between the current central storage bin and the target certificate-issuing equipment is longer, so that the to-be-certified part can be transferred to the central storage bin of the second equipment information corresponding to the smallest second distance value in the plurality of second distance values. When the first distance value is smaller than or equal to each second distance value, certificate scheduling information is generated according to the first device information, and the situation shown in Q03 indicates that the first distance value is smaller than each second distance value, that is, the distance between the current central storage bin and the target certification device is the closest, so that the to-be-certified device does not need to be scheduled.

Illustratively, the distance may be derived from the distance between components within the device, such as a local portion of the central storage bin, card exit, robotic arm, etc., and the target prover device. If the logistics delivery is set, the corresponding information is synchronized to the terminal equipment of the user, secondary authorization verification is achieved, and address information stored in other applications can be read through the terminal equipment, so that automatic matching is achieved, and filling operation is reduced. Or acquiring the ID card address of the user and obtaining the prompt of whether to modify. Assuming that the carrying equipment can store the certificates, storing a certain number of certificates below the certificate management terminal to wait within a preset time range; further, assuming that each transfer device can store only 1 to 3 certificates, a plurality of transfer devices may wait under the certificate management terminal C.

Further, generating credential scheduling instructions in accordance with the target prover device can include steps 406 to 408.

406. Obtaining a first time difference value according to the forensics request and the current moment;

407. when the first time difference value is larger than a preset time length range, recording the evidence obtaining request to a certificate scheduling table;

in this embodiment, the first time difference value may be obtained according to the forensics request and the current time, for example, a time difference value between the forensics request generation time and the current time is calculated to obtain the first time difference value. And when the first time difference value is larger than a preset time range, recording the evidence obtaining request to a certificate scheduling table.

408. And when the number of the evidence obtaining requests of the certificate scheduling table meets a preset number, generating a batch scheduling instruction according to the certificate scheduling table.

Alternatively, the preset number may be set to 5 to 10. That is, after 5 to 10 forensic requests are recorded, batch forensic operations are performed to transfer certificates to corresponding target forensic devices.

When the number of the evidence obtaining requests of the certificate scheduling table meets a preset number, generating a batch scheduling instruction according to the certificate scheduling table; or when a second time difference value between the generation time of any one forensics request of the certificate scheduling table and the current time reaches a preset time threshold, generating a batch scheduling instruction according to the certificate scheduling table. That is, when the number of certificates to be scheduled is large, the batch scheduling is performed according to the certificate scheduling table, or when the time reaches the preset time requirement, the batch scheduling is performed according to the certificate scheduling table.

Based on the above, a certain number of forensics requests can be recorded to the certificate scheduling table before the latest time when certificate scheduling is required. For example: take the example that three users have performed the first forensics request, the second forensics request and the third forensics request at the same time. Wherein, the reservation evidence-taking time of the first evidence-taking request is 10 am, the reservation evidence-taking time of the second evidence-taking request is 10 am, and the reservation evidence-taking time of the third evidence-taking request is 11 am. On the other hand, the predetermined preset time period range may be set to any one of values of 3 to 10 minutes as the preset time period, for example, 5 minutes.

On the other hand, whether the first forensics request for forever 10-point forensics and the first time difference value of the current moment are greater than 5 minutes is judged; taking the current time for generating the three forensics requests as 9 points for example, the first time difference value is 1 hour and more than 5 minutes, the first forensics request is allowed to be recorded, and by analogy, the second forensics request and the third forensics request are allowed to be recorded; taking the case that the current time at which three forensics requests are generated is 9 o' clock 58, the first time difference is 1 hour and less than 5 minutes, at which time the first forensics request needs to be scheduled, but the first time differences between the second forensics request and the current time and the third forensics request are greater than 5 minutes, and the second forensics request and the third forensics request are allowed to be recorded. That is, the operation of continuously receiving the forensics request is performed, and when the difference between the forensics request and the current time is within the preset time length range, all recorded time differences are scheduled in a unified manner.

Based on the above, if the user operates the forensics request at the current moment, the reservation forensics time of the forensics request is earlier than the current moment, an error prompt is necessarily generated to remind the user to redefine the reservation forensics time; alternatively, the option of presenting the reserved forensics time earlier than the current time is not allowed.

The invention provides a control method for certificate management, which comprises the following steps: obtaining a forensics request input by a user; obtaining equipment for storing certificates to be obtained and target certificate-issuing equipment corresponding to the certificates to be obtained according to the certificate-obtaining request; when the equipment for storing the certificate to be taken and the target certificate issuing equipment are the same equipment, generating first prompt information, wherein the first prompt information is used for prompting that the certificate is in the current equipment; when the device for storing the certificate to be acquired and the target evidence equipment are different devices and the distance difference between the position of the device for storing the certificate to be acquired and the position of the target evidence equipment is smaller than or equal to a preset range, generating second prompt information, wherein the second prompt information is used for prompting whether the target evidence equipment is changed; when the equipment for storing the certificate to be acquired and the target evidence equipment are different equipment, and the distance difference between the position of the equipment for storing the certificate to be acquired and the position of the target evidence equipment is larger than a preset range, generating a certificate scheduling instruction according to the target evidence equipment, wherein the certificate scheduling instruction is used for scheduling the certificate to be acquired to the target evidence equipment; obtaining a first time difference value according to the forensics request and the current moment; when the first time difference value is larger than the preset time range, recording a evidence obtaining request to a certificate scheduling table; when the number of the evidence obtaining requests of the certificate scheduling table meets a preset number, generating a batch scheduling instruction according to the certificate scheduling table; or when the second time difference value between the generation time of any one forensics request of the certificate scheduling table and the current time reaches a preset time length threshold value, generating a batch scheduling instruction according to the certificate scheduling table. By the mode, the certificate can be collected based on the evidence collection request of the user, and effective management is carried out on the certificate collection and scheduling by judging whether the evidence collection (storage of the evidence to be collected) and the evidence collection are the same equipment or not and the position distance relation between the evidence collection and the evidence collection, so that the evidence collection efficiency is improved, and the flexibility and convenience of user evidence collection are improved.

Referring to fig. 5, fig. 5 is a block diagram of a control device for certificate management according to an embodiment of the present invention, where the control device shown in fig. 5 includes:

the request acquisition module 501: the system comprises a forensics acquisition unit, a forensics acquisition unit and a forensics acquisition unit, wherein the forensics acquisition unit is used for acquiring a forensics request input by a user;

device determination module 502: the device is used for obtaining the device for storing the certificate to be collected and the target evidence-collecting device corresponding to the certificate to be collected according to the evidence-collecting request;

the first prompt module 503: the device is used for generating first prompt information when the device for storing the to-be-collected evidence and the target evidence-collecting device are the same device, wherein the first prompt information is used for prompting the certificate to be in the current device;

the second prompt module 504: when the device for storing the certificate to be obtained and the target certification device are different devices and the distance difference between the position of the device for storing the certificate to be obtained and the position of the target certification device is smaller than or equal to a preset range, generating second prompt information, wherein the second prompt information is used for prompting whether the target certification device is changed or not;

the instruction generation module 505: the certificate scheduling method comprises the steps of storing equipment to be subjected to evidence obtaining and target evidence obtaining equipment, wherein the equipment to be subjected to evidence obtaining and the target evidence obtaining equipment are different equipment, storing the position of the equipment to be subjected to evidence obtaining and the distance difference between the positions of the target evidence obtaining equipment are larger than a preset range, and then generating a certificate scheduling instruction according to the target evidence obtaining equipment, wherein the certificate scheduling instruction is used for scheduling the equipment to be subjected to evidence obtaining to the target evidence obtaining equipment.

It should be noted that functions of each module in the apparatus shown in fig. 5 are similar to contents of each step in the method described in fig. 3, and for avoiding repetition of this description, details of each step in the method described in fig. 3 may be specifically referred to.

The invention provides a control device for certificate management, comprising: a request acquisition module: the system comprises a data processing module, a data processing module and a data processing module, wherein the data processing module is used for acquiring a forensics request input by a user; a device determination module: the device is used for obtaining the device for storing the certificate to be collected and the target evidence-collecting device corresponding to the certificate to be collected according to the evidence-collecting request; the first prompting module: the device is used for generating first prompt information when the device for storing the certificate to be taken and the target certificate issuing device are the same device, wherein the first prompt information is used for prompting that the certificate is in the current device; the second prompting module: when the device for storing the certificate to be acquired and the target evidence-proving device are different devices and the distance difference between the position of the device for storing the certificate to be acquired and the position of the target evidence-proving device is smaller than or equal to a preset range, generating second prompt information, wherein the second prompt information is used for prompting whether the target evidence-proving device is changed; an instruction generation module: and when the equipment for storing the certificate to be acquired and the target evidence-obtaining equipment are different equipment, and the distance difference between the position of the equipment for storing the certificate to be acquired and the position of the target evidence-obtaining equipment is larger than a preset range, generating a certificate scheduling instruction according to the target evidence-obtaining equipment, wherein the certificate scheduling instruction is used for scheduling the certificate to be acquired to the target evidence-obtaining equipment. By the mode, the certificate can be collected based on the evidence collection request of the user, effective management is carried out on collection and scheduling of the certificate by judging whether evidence collection and evidence collection are the same equipment or not and the position distance relation between the evidence collection and the evidence collection, evidence collection efficiency is improved, and flexibility and convenience of user evidence collection are improved.

FIG. 6 is a diagram illustrating an internal structure of a computer device in one embodiment. The computer device may specifically be a terminal, and may also be a server. As shown in fig. 6, the computer device includes a processor, a memory, and a network interface connected by a system bus. The memory comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium of the computer device stores an operating system and may also store a computer program which, when executed by the processor, causes the processor to carry out the above method. The internal memory may also have stored therein a computer program which, when executed by the processor, causes the processor to perform the method described above. Those skilled in the art will appreciate that the architecture shown in fig. 6 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

In an embodiment, a computer device is proposed, comprising a memory and a processor, the memory storing a computer program which, when executed by the processor, causes the processor to perform the steps of the method as shown in fig. 3 or fig. 4.

In an embodiment, a computer-readable storage medium is proposed, in which a computer program is stored which, when being executed by a processor, causes the processor to carry out the steps of the method as shown in fig. 3 or fig. 4.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a non-volatile computer-readable storage medium, and can include the processes of the embodiments of the methods described above when the program is executed. Any reference to memory, storage, database, or other medium used in the embodiments provided herein may include non-volatile and/or volatile memory, among others. Non-volatile memory can include read-only memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double Data Rate SDRAM (DDRSDRAM), enhanced SDRAM (ESDRAM), synchronous Link DRAM (SLDRAM), rambus (Rambus) direct RAM (RDRAM), direct Rambus Dynamic RAM (DRDRAM), and Rambus Dynamic RAM (RDRAM), among others.

All possible combinations of the technical features in the above embodiments may not be described for the sake of brevity, but should be considered as being within the scope of the present disclosure as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present application. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A control method for certificate management is applied to a control system for certificate management, and comprises the following steps:

obtaining a forensics request input by a user;

obtaining equipment for storing the certificate to be collected and target evidence collection equipment corresponding to the certificate to be collected according to the evidence collection request;

when the equipment for storing the certificate to be obtained and the target certificate-issuing equipment are the same equipment, generating first prompt information, wherein the first prompt information is used for prompting that the certificate is in the current equipment, and the current equipment is the equipment for storing the certificate to be obtained;

when the device for storing the certificate to be obtained and the target evidence obtaining device are different devices and the distance difference between the position of the device for storing the certificate to be obtained and the position of the target evidence obtaining device is smaller than or equal to a preset range, generating second prompt information, wherein the second prompt information is used for prompting whether the target evidence obtaining device is changed;

2. The method of controlling credential management according to claim 1, further comprising:

obtaining a first time difference value according to the forensics request and the current moment, wherein the obtaining of the first time difference value according to the forensics request and the current moment comprises: calculating a time difference value between the generation time of the forensics request and the current moment to obtain a first time difference value;

when the first time difference value is larger than a preset time range, recording the evidence obtaining request to a certificate scheduling table;

or when the second time difference value between the generation time of any one forensics request of the certificate scheduling table and the current time reaches a preset time length threshold value, generating a batch scheduling instruction according to the certificate scheduling table.

3. The method of controlling credential management according to claim 1, further comprising:

obtaining storage information and cache evidence obtaining information of the certificate according to the evidence obtaining request, wherein the cache evidence obtaining information is the evidence obtaining request generated last time;

if the time difference between the forensics request and the cached forensics information is smaller than a preset time threshold value, and the difference between the reserved taking-out time in the forensics request and the current moment is smaller than or equal to preset balanced scheduling time, determining target forensics equipment and forming a certificate output instruction, wherein the time of the forensics request is the generation time of the forensics request;

4. The control method for certificate management as claimed in claim 3, wherein the control system for certificate management comprises a plurality of central storage bins and a plurality of certificate management terminals, both the central storage bins and the certificate management terminals can be used as devices for storing certificates, any one certificate management terminal is used as a target certification device, and the balanced storage processing of the certificates according to the storage information comprises:

5. The control method for certificate management as claimed in claim 3, wherein the control system for certificate management comprises a plurality of central storage bins and a plurality of certificate management terminals, both the central storage bins and the certificate management terminals can be used as devices for storing certificates, any one certificate management terminal is used as a target certification device, and the determining of the target certification device further comprises:

acquiring first equipment information of equipment storing the piece to be forensics;

6. The method for controlling certificate management as claimed in claim 5, wherein the generating certificate scheduling information based on the first device information and the second device information comprises:

7. The method for controlling certificate management as claimed in claim 5, wherein the generating certificate scheduling information based on the first device information and the second device information further comprises:

8. The control method for certificate management as claimed in claim 5, further comprising:

9. The method for controlling certificate management according to any of claims 3 to 8, wherein the forming of the certificate output instruction includes:

generating a forensic path for a carrier based on a first location of a central storage bin storing the evidence to be obtained and a current location of the carrier before the evidence to be obtained reaches the target provenance device;

10. A control apparatus for certificate management for executing a control method for certificate management as claimed in any one of claims 1 to 9, the apparatus comprising:

the first prompting module: the device is used for generating first prompt information when the device for storing the certificate to be taken and the target certificate-issuing device are the same device, wherein the first prompt information is used for prompting that the certificate is in the current device, and the current device is used for storing the certificate to be taken;

the second prompting module: when the device for storing the certificate to be obtained and the target certification device are different devices and the distance difference between the position of the device for storing the certificate to be obtained and the position of the target certification device is smaller than or equal to a preset range, generating second prompt information, wherein the second prompt information is used for prompting whether the target certification device is changed or not;

an instruction generation module: be used for working as the storage treat the equipment of evidence piece with when the equipment of target provenance is different equipment, just the storage treat the position of the equipment of certificate with distance difference between the position of the equipment of target provenance is greater than the preset range, then according to the equipment of target provenance generates certificate scheduling instruction, certificate scheduling instruction be used for with treat that the evidence piece is dispatched the equipment of target provenance.

11. A control system for credential management, characterized in that the control system for credential management is configured to perform the steps of the control method for credential management according to any one of claims 1 to 9, the control system for credential management comprising: the system comprises carrying equipment, a central storage bin, a certificate management terminal and a manipulator;

the carrying equipment is used for responding to the certificate scheduling instruction and scheduling the to-be-acquired certificate between the central storage bin and the certificate management terminal;

the central storage bin is used for storing the pieces to be subjected to evidence obtaining;

the certificate management terminal is used as a evidence obtaining medium so that a user can obtain the to-be-obtained evidence at a target evidence obtaining device.

12. A computer-readable storage medium, in which a computer program is stored which, when being executed by a processor, causes the processor to carry out the steps of the control method according to any one of claims 1 to 9.