Barrier gate control method, apparatus, and system, and server

The method enhances barrier gate control by configuring authorization information based on device capabilities, addressing inefficiencies in existing systems and improving verification efficiency.

GB2622168BActive Publication Date: 2026-06-22HANGZHOU HIKVISION DIGITAL TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
GB · GB
Patent Type
Patents
Current Assignee / Owner
HANGZHOU HIKVISION DIGITAL TECHNOLOGY CO LTD
Filing Date
2022-05-18
Publication Date
2026-06-22

AI Technical Summary

Technical Problem

Existing systems for controlling barrier gates using face and ticket identification are inefficient in issuing authorization information, leading to potential ticket evasion and unauthorized access.

Method used

A method and system that configures authorization information for barrier gate devices and identification devices based on their capabilities, enhancing efficiency by determining and managing relationships between these devices, and performing multiple verification methods such as face, iris, fingerprint, and password verification.

Benefits of technology

Improves the issuing efficiency of authorization information, preventing ticket evasion and unauthorized access by ensuring consistent and efficient verification across various identification methods.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

A barrier gate control method, apparatus and system, and a server, relating to the technical field of computers. The method comprises: determining a configuration relationship between a barrier gate d
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Description

The present disclosure relates to the technical field of computers, in particular to a barrier gate control method, apparatus and system, and a server. BACKGROUND Currently, when taking the subway or train, face identification and ticket identification can be combined to control the passage of a person. This method mainly relies on a barrier gate device and a face identification device to be implemented, wherein, the face identification device is mainly to perform face identification on the person, and the barrier gate device is mainly to perform ticket identification for the person. When both of face identification and ticket identification are passed, the barrier gate will be opened to allow the person to pass through. SUMMARY The present disclosure provides a barrier gate control method, apparatus and system, and a server, which can improve the issuing efficiency of authorization information. The technical solutions are as follows: In an aspect, a barrier gate control method is provided according to claim 1. In another aspect, a barrier gate control apparatus is provided according to claim 7. 18 02 26 In another aspect, a barrier gate control system is provided according to claim 13. In another aspect, a server is provided, the server includes a processor and a memory, wherein the memory stores at least one program code loaded and executed by the processor, to carry out the operations of the barrier gate control method according to the examples of the present disclosure. In another aspect, a non-transitory computer-readable storage medium is provided, which stores at least one program code loaded and executed by the processor, to carry out the operations of the barrier gate control method according to the examples of the present disclosure. In another aspect, a computer program product is provided, which stores at least one program code loaded and executed by the processor, to carry out the operations of the barrier gate control method according to the examples of the present disclosure. The technical solutions provided by the examples of the present disclosure may include the following beneficial effects: The example of the present disclosure provides a barrier gate control method, in which a configuration relationship between a barrier gate device and a first identification device is firstly determined, and first authorization information of the barrier gate device allowing a person to pass through is then acquired, second authorization information and third authorization information are determined from the first authorization information according to the configuration relationship between the barrier gate device and the first identification device, the second authorization information is then configured in the first identification device, and the third authorization information is configured in the barrier gate device respectively. Since the second authorization information corresponds to an identification manner supported by the first identification device, and the third authorization information corresponds to an identification manner supported by the barrier gate device, the method can configure the authorization information for the 18 02 26 barrier gate device and the first identification device as required according to the identification capabilities of the barrier gate device and the first identification, thereby improving the issuing efficiency of authorization information. It should be understood that the above general description and the following detailed description are only exemplary and do not limit the present disclosure. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings herein are incorporated into the specification and form a part of this specification, showing examples in accordance with the present invention, and are used together with the specification to explain the principles of the present invention. Figure 1 is a schematic diagram of an implementation environment of a barrier gate control method provided by an example of the present disclosure; Figure 2 is a flow chart of a barrier gate control method provided by an example of the present disclosure; Figure 3 is a flow chart of a barrier gate control method provided by an example of the present disclosure; Figure 4 is a schematic diagram of a structure of a barrier gate control apparatus provided by an example of the present disclosure; Figure 5 is a schematic diagram of a structure of a barrier gate control system provided by an example of the present disclosure; Figure 6 is a block diagram of a structure of a terminal provided by an example of the present disclosure; Figure 7 is a block diagram of a structure of a server provided by an example of the present disclosure. 18 02 26 DETAILED DESCRIPTION Reference will now be made in detail to exemplary examples, examples of which are illustrated in the accompanying drawings. When the following description refers to the drawings, the same numbers in different drawings refer to the same or similar elements unless otherwise indicated. The examples described in the following exemplary examples do not represent all examples consistent with the disclosure. Rather, they are merely examples of apparatus and methods consistent with aspects of the invention as detailed in the appended claims. It should be noted that information (including but not limited to user device information, user personal information, etc.), data (including but not limited to data used for analysis, stored data, displayed data, etc.) and signals involved in the present disclosure are all authorized by the user or fully authorized by all parties, and the collection, use and processing of relevant data need to comply with relevant laws, regulations and standards of relevant countries and regions. For example, authorization information involved in the present disclosure was acquired with full authorization. Figure 1 is a diagram of an implementation environment of a barrier gate control method provided by an example of the present disclosure. Referring to Figure 1, the implementation environment includes: a terminal 101, a server 102, a barrier gate device 103, and a first identification device 104, wherein the terminal 101 and the server 102 are connected through a wireless or wired network, the server 102 and the barrier gate device 103 are connected through a wireless or wired network, and the barrier gate device 103 and the first identification device 104 are connected through a wired network. A barrier gate control application program is installed on the terminal 101, and the server 102 is a server corresponding to the barrier gate control application program. The server is mainly to configure second authorization information of the first identification device 104 and third authorization information of the barrier gate 18 02 26 device 103, in order to configure authorization information for the devices as required, thereby saving issuing resources and improving the issuing efficiency of authorization information. The first identification device 104 is configured for face verification or iris verification on a person who is going to pass through, and the barrier gate device 103 is configured for fingerprint verification and / or certificate verification on said person who is going to pass through. When each of the verification method is passed, the barrier gate device 103 allows said person to pass through. In examples of the present disclosure, the method can be applied in a variety of scenarios, such as taking a subway, a train, a bus, an airplane and other transportation, entering and exiting an office building, entering and exiting a residential community, entering and exiting a hospital, entering and exiting a parking lot and entering and exiting a target place, etc.. The target place can be a fixed place to restrict the entry and exit of some persons, or to store valuable items therein in order to avoid their loss, or be a place with confidentiality requirements. For example, when the method is applied to the scenario of taking a subway, a train or other transportation, only taking a train will be used as an example for explanation. A barrier gate device 103 and a first identification device 104 are provided at the entry or exit of a station. When a person enters or exits the station, the first identification device 104 performs face verification or iris verification on the person who is going to enter or exit the station on the basis of second authorization information configured for the first identification device 104, and the barrier gate device 103 performs verification on ticket or identity card of the person who is going to enter the station, or, performs verification on ticket or identity card of the person who is going to exit the station, on the basis of third authorization information configured for the barrier gate device 103. Only if the person is consistent with the identity card or the person is consistent with the ticket, the barrier gate device 103 will open the barrier gate, allowing said person who is going to enter or exit the station to enter or exit the station, thereby avoiding ticket evasion. For another example, when the method is applied to the scenario of entering 18 02 26 and exiting an office building, a barrier gate device 103 and a first identification device 104 are provided in the lobby of the office building. When a person enters and exits the office building, the first identification device 104 performs face verification or iris verification on the person who is going to enter or exit the office building on the basis of second authorization information configured for the first identification device 104, and the barrier gate device 103 performs verification on the work card of said person who is going to enter or exit the office building on the basis of third authorization information configured for the barrier gate device 103. Only if the person is consistent with the card, the barrier gate device 103 will open the barrier gate, allowing said person who is going to enter or exit the office building to enter or exit, preventing sales personnel or non-office personnel from entering and exiting at will which will affect the office environment of office personnel in the office building, thereby improving the office efficiency of office personnel. For another example, when the method is applied to the scenario of entering and exiting a residential community, a barrier gate device 103 and a first identification device 104 are provided at the gate of the community. When a person enters and exits the community, the first identification device 104 performs face verification or iris verification on the person who is going to enter or exit the community on the basis of second authorization information configured for the first identification device 104, and the barrier gate device 103 performs verification on the residence card of said person who is going to enter or exit the community on the basis of third authorization information configured for the barrier gate device 103. Only if the person is consistent with the card, the barrier gate device 103 will open the barrier gate, allowing said person who is going to enter or exit the community to enter or exit the community, preventing non-residents from entering and exiting the community at will which will affect the living environment of the community residents, thereby providing community residents with a comfortable, safe and convenient living environment. In examples of the present disclosure, password verification can also be performed on a person who is going to pass through by inputting a password. 18 02 26 Correspondingly, the implementation environment may also include: a second identification device, which is configured to perform password verification on said person who is going to pass through. The second identification device is connected to the barrier gate device 103 through a wired network, and the second identification device is configured as a component of the barrier gate device 103. The terminal 101 is at least one of devices such as a mobile phone, a tablet computer, and a PC (Personal Computer) device. The server 102 may be at least one of a server, a server cluster composed of multiple servers, a cloud server, a cloud computing platform, and a virtualization center. The barrier gate device 103 may be a wing gate, a swing gate, a tripod gate or a straight gate. The first identification device 104 may be a face identification device or an iris identification device, and the second identification device may be a password identification device. Figure 2 is a flow chart of a barrier gate control method provided by an example of the present disclosure. As shown in Figure 2, the method includes: Step 201: determining a configuration relationship between a barrier gate device and a first identification device. Step 202: acquiring first authorization information of the barrier gate device allowing a person to pass through. Step 203: determining second authorization information and third authorization information from the first authorization information according to the configuration relationship, wherein the second authorization information is authorization information corresponding to the first identification device, and the second authorization information corresponds to an identification manner supported by the first identification device, the third authorization information is authorization information corresponding to the barrier gate device, and the third authorization information corresponds to an identification manner supported by the barrier gate device. Step 204: configuring the second authorization information in the first identification device, and configuring the third authorization information in the 18 02 26 barrier gate device, so that the first identification device and the barrier gate device control a person who is going to pass through on the basis of the second authorization information and the third authorization information respectively. The example of the present disclosure provides a barrier gate control method, in which a configuration relationship between a barrier gate device and a first identification device is firstly determined, first authorization information of the barrier gate device allowing a person to pass through is then acquired, second authorization information and third authorization information are determined from the first authorization information according to the configuration relationship between the barrier gate device and the first identification device, and then the second authorization information is configured in the first identification device and the third authorization information is configured in the barrier gate device respectively. Since the second authorization information corresponds to an identification manner supported by the first identification device, and the third authorization information corresponds to an identification manner supported by the barrier gate device, the method can configure the authorization information for the barrier gate device and the first identification device as required according to the identification capabilities of the barrier gate device and the first identification device, thereby improving the issuing efficiency of authorization information. Figure 3 is a flow chart of a barrier gate control method provided by an example of the present disclosure, which is performed by a barrier gate control system which includes a terminal, a server, a barrier gate device and a first identification device, wherein the method includes: Step 301: determining, by the server, a configuration relationship between a barrier gate device and a first identification device. In an example of the present disclosure, there may be multiple barrier gate devices and first identification devices, each of the barrier gate devices and each of the first identification devices can perform authorization verifications on a person who is going to pass through on the basis of their respective authorization 18 02 26 information. If the authorization verifications are all passed, said person who is going to pass through is allowed to pass through. For each of the barrier gate devices, the first identification device that performs authorization verification on a same person who is going to pass through as the barrier gate device is determined by the server, to obtain a configuration relationship between the barrier gate device and the first identification device, and then the first identification device is installed on the barrier gate device. It needs to be controlled by the barrier gate device during the entry and exit process of person. Therefore, each of the barrier gate devices can be configured with two first identification devices, that is, two first identification devices are installed on each of the barrier gate devices, which performs authorization verification respectively when a person enters and exits. For example, there are two barrier gate devices, namely A and B, and there are four first identification devices which are face identification devices, namely C, D, E and F. Then the server can configure C and D to the barrier gate device A, that is, C and D are installed on the barrier gate device A, and configure E and F to the barrier gate device B, thereby obtaining the configuration relationships between the barrier gate devices and the first identification devices. In an example of the present disclosure, the first identification device is taken as a part of the barrier gate device, that is, the first identification device is taken as a component of the barrier gate device, which expands the ability of the barrier gate device without face identification. For a user, the management object involves only one barrier gate device, which can greatly increase the convenience and manageability of user’s management, and reduce understanding cost and management cost of the user. In a possible example, the barrier gate control system may further include a second identification device. If the barrier gate control system further includes the second identification device, a configuration relationship between the barrier gate device and the second identification device is further determined by the server. Wherein, the manner by which the configuration relationship between the barrier 18 02 26 gate device and the second identification device is determined by the server is similar to the manner by which the configuration relationship between the barrier gate device and the first identification device is determined, which will not repeated here. Wherein the first identification device may be a face identification device or an iris identification device, and the second identification device may be a password identification device. Step 302: acquiring, by the terminal, first authorization information of the barrier gate device allowing a person to pass through, sending the first authorization information to the server, i.e., acquiring, by the server, the first authorization information. In this step, the first authorization information includes one or more of verification information such as face information, identity information, fingerprint information, card number information, and password information for a person allowed to pass through, and may further include a user identifier of the person allowed to pass through. If the first authorization information includes the user identifier of the person allowed to pass through, the user identifier is generated by the terminal based on the verification information or directly acquired by the terminal. If the first authorization information does not include the user identifier, the first authorization information is sent by the terminal to the server, and then the first authorization information is received by the server and a user identifier is allocated to the first authorization information. In the example of the present disclosure, there is no specific limitation on this. Wherein, the user identifier can be a string for uniquely identifying each person allowed to pass through. A barrier gate control application is installed on the terminal. The user logs in the barrier gate control application, and the terminal displays the main interface of the barrier gate control application. The main interface includes a authorization information management option. When the authorization information management option is triggered, the terminal displays a authorization information acquiring interface. In the authorization information acquiring interface, the terminal acquires the entered first authorization information of the person allowed to pass through. 18 02 26 The terminal stores the first authorization information and sends the first authorization information to the server. Wherein, the terminal can generate the user identifier when entering the face information, identity information and other information of the person allowed to pass through. In the example of the present disclosure, the server may firstly determine a configuration relationship between a barrier gate device and a first identification device, and then the terminal acquires first authorization information and sends the first authorization information to the server. Alternatively, the terminal firstly acquires first authorization information, then the server determines a configuration relationship between the barrier gate device and the first identification device, and finally the terminal sends the first authorization information to the server. Alternatively, the terminal firstly acquires first authorization information, and then sends the first authorization information to the server, and the server then determines a configuration relationship between the barrier gate device and the first identification device. In the example of the present disclosure, there is no specific limitation on this. Step 303: determining, by the server, second authorization information and third authorization information from the first authorization information according to the configuration relationship. In this step, the second authorization information is authorization information corresponding to the first identification device, and the second authorization information includes verification information corresponding to an identification manner supported by the first identification device, and a user identifier. The third authorization information is authorization information corresponding to the barrier gate device, and the third authorization information includes verification information corresponding to an identification manner supported by the barrier gate device, and a user identifier. When the first identification device is a face identification device, the identification manner supported by the face identification device is face identification. When the first identification device is an iris identification device, the identification manner supported by the iris identification 18 02 26 device is iris identification. The identification manners supported by the barrier gate device can be fingerprint identification and / or certificate identification, wherein the certificate can be an identity card, a ticket or an employee card, etc. Since there are usually multiple barrier gate devices, there are usually multiple first identification devices and multiple first authorization information. In this case, for each of the barrier gate devices, the server needs to firstly determine the first authorization information of the barrier gate device allowing the person to pass through from multiple first authorization information. Moreover, since the barrier gate device is a management object of the user, the first identification device is managed as a component of the barrier gate device, for each of the first authorization information, the first authorization information not only includes the third authorization information of the barrier gate device, but also includes second authorization information of the first identification device. Based on this, before configuring authorization information for the barrier gate device and the first identification device respectively, the server needs to determine the first identification device that has a configuration relationship with the barrier gate device to be configured according to the configuration relationship between the barrier gate device and the first identification device, and then determine the second authorization information of the first identification device and the third authorization information of the barrier gate device from the first authorization information respectively. In the example of the present disclosure, for each of the first authorization information, if the first authorization information includes a user identifier and verification information corresponding to each of the devices, and the third authorization information includes a user identifier and verification information corresponding to the barrier gate device, the server can determine authorization information corresponding to each of the devices through the following manners: a first manner: when an identification manner supported by a first identification device is face identification and an identification manner supported by the barrier gate device is fingerprint identification, the server determines face information in 18 02 26 the first authorization information and takes the face information and the user identifier as second authorization information of the first identification device. The server further determines fingerprint information in the first authorization information, and takes the fingerprint information and the user identifier as third authorization information of the barrier gate device; a second manner: when an identification manner supported by a first identification device is face identification and an identification manner supported by the barrier gate device is certificate identification, the server determines face information in the first authorization information and takes the face information and the user identifier as second authorization information of the first identification device. The server further determines certificate information in the first authorization information, and takes the certificate information and the user identifier as third authorization information of the barrier gate device; a third manner: when an identification manner supported by a first identification device is face identification and an identification manner supported by the barrier gate device is certificate identification and fingerprint identification, the server determines face information in the first authorization information and takes the face information and the user identifier as second authorization information of the first identification device. The server further determines certificate information and fingerprint information in the first authorization information, and takes the certificate information, the fingerprint information and the user identifier as third authorization information of the barrier gate device. If the first authorization information includes the user identifier and the verification information corresponding to the first identification device and the third authorization information only includes the user identifier, the server determines the user identifier from the first authorization information, takes the user identifier as the third authorization information, and the server directly takes the first authorization information as the second authorization information. If the first authorization information does not include the user identifier, the server can generate a user identifier after receiving the first authorization 18 02 26 information. The server determines the verification information corresponding to the first identification device from the first authorization information according to the identification manner supported by the first identification device, and combines the verification information corresponding to the first identification device and the user identifier to form the second authorization information. The server determines the verification information corresponding to the barrier gate device from the first authorization information according to the identification manner supported by the barrier gate device, and combines the verification information corresponding to the barrier gate device and the user identifier to form the third authorization information. It should be noted that if the barrier gate control system further includes a second identification device, which can be a password identification device, and an identification manner supported by the password identification device is password identification, this step may correspondingly be: determining, by the server, second authorization information, third authorization information and fifth authorization information from first authorization information according to a configuration relationship between the barrier gate device, and the first identification device and the second identification device. Wherein the fifth authorization information is authorization information corresponding to the second identification device, and the fifth authorization information corresponds to an identification manner supported by the second identification device. In the case that the barrier gate control system further includes a second identification device, the server can determine authorization information corresponding to each of the devices through the following manner: when an identification manner supported by the first identification device is face identification, the identification manner supported by the second identification device is password identification, and an identification manner supported by the barrier gate device is certificate identification, the server determines face information in the first authorization information, and takes the face information and a user identifier as second authorization information of the first identification device. The server further determines certificate information in the first authorization 18 02 26 information, and takes the certificate information and an user identifier as third authorization information of the barrier gate device. The server further determines password information in the first authorization information, and takes the password information and an user identifier as fifth authorization information of the second identification device. Step 304: configuring, by the server, the second authorization information in the first identification device, and configuring, by the server, the third authorization information in the barrier gate device. In this step, the server sends the second authorization information to the first identification device, and sends the third authorization information to the barrier gate device, respectively. If both the first identification device and the barrier gate device successfully receive their corresponding authorization information, they can respectively send a notification message indicating that the configuration is successful to the server. The server receives the notification messages indicating that the configuration is successful sent by the first identification device and the barrier gate device, indicating that the authorization information is configured successfully. In a possible example, the server can generate a buffering relationship management module. After receiving the first authorization information sent by the terminal, the server can store the first authorization information in the buffering relationship management module. If the configuration of both the second authorization information of the first identification device and the third authorization information of the barrier gate device are completed, the first authorization information in the buffering relationship management module is deleted. In this way, the server can determine that the configuration of the authorization information of which one device is completed and the configuration of the authorization information of which one device is not completed, on the basis of the first authorization information stored in the buffering relationship management module, which is beneficial to the process of configuring the authorization information. If the system further includes a second identification device, the server will delete the first authorization information only when the configurations of 18 02 26 authorization information of the first identification device, the second identification device and the barrier gate device are all completed. That is, when the system includes multiple devices, the server will delete the first authorization information only when the configuration of authorization information in each of the devices is completed. In this example, only when the configuration of the authorization information in each of the devices is completed, the server will delete the first authorization information from the buffering relationship management module. This method improves the robustness of the system. In a possible example, after the second authorization information of the first identification device and the third authorization information of the barrier gate device from the first authorization information are determined, the server can store the second authorization information of the first identification device and the third authorization information of the barrier gate device in a corresponding way, or after sending the second authorization information and the third authorization information to the first identification device and the barrier gate device respectively, the server can store the second authorization information of the first identification device and the third authorization information of the barrier gate device in a corresponding way. In the example of the present disclosure, this is not specifically limited. In this example, the server can store the second authorization information and the third authorization information in a corresponding way in any manner, which is not specifically limited in the example of the present disclosure. For example, the server establishes a correspondence relationship between the second authorization information and the third authorization information based on the configuration relationship and stores the correspondence relationship. For another example, the server allocates a authorization information list, and stores the second authorization information and the third authorization information in a corresponding way in the authorization information list. In the example of the present disclosure, if any one of the first identification device and the barrier gate device fails to receive the authorization information corresponding to itself, the server can re-configure authorization information for 18 02 26 either device through the following steps (1) to (2)., including: (1) if there is an abnormal device in the first identification device and the barrier gate device which is abnormal during a stage of configuring the authorization information, determining, by the server, the abnormal device. In this step, the first identification device and the barrier gate device can send heartbeat information to the server according to their respective heartbeat cycles. If the heartbeat information of any one of the first identification device and the barrier gate device is not received by the server, the server determines that the device is abnormal during a stage of configuring the authorization information, and determines the device to be an abnormal device. In this step, if the abnormal device is the first identification device, the server can output prompt information to remind the user that the first identification device that has the configuration relationship with the barrier gate device is abnormal. Accordingly, this process can be achieved through the following steps (1-1) to (1-2), including: (1-1) determining, by the server, the barrier gate device that has the configuration relationship with the first identification device according to the configuration relationship between the barrier gate device and the first identification device. For example, there are two barrier gate devices, namely A and B, and there are four first identification devices, namely C, D, E and F. Wherein, C and D are configured for A, and E and F are configured for B. If C is abnormal, the server determines that the barrier gate device that has the configuration relationship with C is A according to the configuration relationship between C and A. (1-2) outputting, by the server, first prompt information, which is configured to prompt that the first identification device that has the configuration relationship with the barrier gate device is abnormal. In this step, the server can output the first prompt information on its own, and the first prompt information is configured to prompt that the first identification device that has the configuration relationship with the barrier gate device is 18 02 26 abnormal. Alternatively, the server may send the first prompt information to the terminal, and the terminal receives the first prompt information and displays the first prompt information in the current display interface. For example, the terminal displays on the current display interface that "a component C of the barrier gate device Ais abnormal" or "the first identification device C that has the configuration relationship with the barrier gate device A is abnormal". In the example of the present disclosure, when the first identification device is abnormal, a component of the barrier gate device is prompted to be abnormal, or the first identification device that has the configuration relationship with the barrier gate device is prompted to be abnormal, so as to facilitate a user to control and understand. (2) if the abnormal device returns to be normal, acquiring, by the server, authorization information of the abnormal device from the second authorization information and third authorization information stored in the corresponding way, and configuring, by the server, the authorization information of the abnormal device in the abnormal device. For example, if the first identification device is abnormal during a stage of configuring the authorization information, the server, when the first identification device returns to be normal, acquires the second authorization information of the first identification device from the second authorization information and third authorization information stored in the corresponding way, re-configures the second authorization information in the first identification device, that is, re-sends the second authorization information to the first identification device. In another possible example, the server can also allocate a authorization information list, which is configured to store an abnormal device. If any one of the first identification device and the barrier gate device is abnormal during a stage of configuring the authorization information, the authorization information of the device is stored in the authorization information list. If the device returns to be normal, the authorization information of the device is acquired from the authorization information list, and then the authorization information is reconfigured 18 02 26 for the device. In this step, the server can determine whether the abnormal device has returned to be normal through the following two manners: a first manner: detecting, by the server, heartbeat information of the abnormal device based on a communication connection between the server and the abnormal device; if the heartbeat information of the abnormal device is detected, determining that the abnormal device returns to be normal. In this manner, if the server receives the heartbeat information of the abnormal device again, the server determines that the abnormal device returns to be normal. In this example of the present disclosure, the server can automatically determine whether the abnormal device returns to be normal based on the heartbeat information, and when the device returns to be normal, automatically reconfigures the authorization information of the device, which improves the issuing efficiency of authorization information. a second manner: if a configuration request triggered by the terminal is received by the server, determining, by the server, that the abnormal device returns to be normal, wherein the configuration request is sent by the terminal after receiving a configuration instruction triggered for the abnormal device to the server. In this manner, when the terminal receives a configuration instruction triggered by the user for the abnormal device, the terminal sends a configuration request to the server. When the server receives the configuration request, the server determines that the abnormal device returns to be normal. In this example of the present disclosure, the server can reconfigure authorization information based on manual triggering by the user, which increases convenience for the user. In the example of the present disclosure, when there is a newly added person allowed to pass through, the terminal can perform the above step 302, and the server can configure authorization information for the newly added person allowed to pass through by performing steps 303-304. When any person allowed to pass through is prevented from passing through, 18 02 26 if the first authorization information is stored in the buffering relationship management module, the terminal can acquire personnel information of the person prevented from passing through, search for the personnel information of the person prevented from passing through from the personnel information list of the person allowed to pass through, determine the corresponding first authorization information based on the personnel information, and then send a first deleting instruction to the server, wherein the first deleting instruction carries the first authorization information of the person prevented from passing through. The server receives the first deleting instruction and deletes the first authorization information of the person prevented from passing through from the buffering relationship management module. When any person allowed to pass through is prevented from passing through, if the server stores the second authorization information and the third authorization information in a corresponding way, the terminal acquires the personnel information of the person prevented from passing through, searches for the personnel information of the person prevented from passing through from the personnel information list of the person allowed to pass through, determines the corresponding second authorization information and third authorization information based on the personnel information, and then send a second deleting instruction to the server, wherein the second deleting instruction carries the second authorization information and the third authorization information of the person prevented from passing through. The server receives the second deleting instruction and deletes the second authorization information and the third authorization information of the person prevented from passing through correspondingly. Step 305: performing, by the first identification device, a second authorization verification on a person who is going to pass through on the basis of the second authorization information,, and if the second authorization verification is passed, determining a first user identifier of the person who is going to pass through, and sending the first user identifier of the person who is going to pass through to the barrier gate device. 18 02 26 If the first identification device is a face identification device, the first identification device captures a face image of the person who is going to pass through, extracts face feature information in the face image, matches the face feature information with face feature information in the second authorization information, and if a degree of the matching exceeds a first preset threshold, determines the first user identifier corresponding to the face feature information, and sends the first user identifier to the barrier gate device. If the degree of the matching does not exceed the first preset threshold, the barrier gate device performs step 309. If the first identification device is an iris identification device, the first identification device captures an eyes image of the person who is going to pass through, extracts iris feature information in the eyes image, matches the iris feature information with iris feature information in the second authorization information, and if a degree of the matching exceeds a second preset threshold, determines the first user identifier corresponding to the iris feature information, and sends the first user identifier to the barrier gate device. If the degree of the matching does not exceed the second preset threshold, the barrier gate device performs step 309. Regarding when any person allowed to pass through is prevented from passing through in step 304, if the first authorization information is stored in the buffering management module, the server will not delete the first authorization information from the buffering relationship management module until the configuration of authorization information in each of the devices is completed. Therefore, when any person allowed to pass through is prevented from passing through, after the server deletes the first authorization information of the person prevented from passing through from the buffering relationship management module, it will not perform a configuration of authorization information in the first identification device and the barrier gate device based on the first authorization information. When the person prevented from passing through passes, the first identification device captures verification information of the person prevented from passing through, matches the verification information with verification information in the second authorization information, and determines a degree of the matching. Since the second 18 02 26 authorization information does not include the verification information of the person prevented from passing through, the degree of the matching will not exceed a preset threshold, and then the second authorization verification fails, and the barrier gate device executes step 309. Regarding when any person allowed to pass through is prevented from passing through in step 304, if the server stores the second authorization information and the third authorization information in a corresponding way, since the server deletes the second authorization information and the third authorization information, the first identification device and the barrier gate device do not include the verification information of the person prevented from passing through, so that when the person prevented from passing through passes, the second authorization verification performed by the first identification device on the person prevented from passing through fails, and the barrier gate device executes step 309. Step 306: performing, by the barrier gate device, a third authorization verification on the person who is going to pass through on the basis of the third authorization information, and if the third authorization verification is passed, determining a second user identifier of the person who is going to pass through. In the example of the present disclosure, the barrier gate device can perform certificate verification and / or fingerprint verification on the person who is going to pass through. When the barrier gate device only supports certificate verification, the third authorization information stored in the barrier gate device is the certificate information and its corresponding user identifier. When the barrier gate device only supports fingerprint verification, the third authorization information stored in the barrier gate device is the fingerprint information and its corresponding user identifier. When the barrier gate device supports both certificate verification and fingerprint verification, the third authorization information stored in the barrier gate device can be the verification information, the fingerprint information and the user identifier. In a possible example, if the barrier gate device only supports certificate verification, the barrier gate device captures the certificate information of the person 18 02 26 who is going to pass through, and matches the captured certificate information with the certificate information in the third authorization information. If a degree of the matching exceeds a third preset threshold, the barrier gate device determines a second user identifier corresponding to the certificate information. If the degree of the matching does not exceed the third preset threshold, the barrier gate device performs step 309. In another possible example, if the barrier gate device only supports fingerprint verification, the barrier gate device captures the fingerprint information of the person who is going to pass through, and matches the captured fingerprint information with the fingerprint information in the third authorization information, if a degree of the matching exceeds a fourth preset threshold, determines a second user identifier corresponding to the fingerprint information. And if the degree of the matching does not exceed the fourth preset threshold, the barrier gate device performs step 309. In another possible example, if the barrier gate device supports both certificate verification and fingerprint verification, the barrier gate device can firstly capture the certificate information of the person who is going to pass through, and matches the captured certificate information with the certificate information in the third authorization information. If the degree of the matching exceeds a fifth preset threshold, the server captures the fingerprint information of the person who is going to pass through, and matches the captured fingerprint information with the fingerprint information in the third authorization information, if the degree of the matching exceeds a sixth preset threshold, determines a second user identifier corresponding to the fingerprint information. Alternatively, the barrier gate device captures the certificate information and fingerprint information of the person who is going to pass through simultaneously, and matches the captured certificate information and fingerprint information with the certificate information and the fingerprint information in the third authorization information respectively, if the degree of the matching of the two exceeds the fifth preset threshold and the sixth preset threshold respectively, determines a second user identifier corresponding to the certificate information and the fingerprint information. If the degree of the 18 02 26 matching does not exceed the fifth preset threshold or the sixth preset threshold, the barrier gate device performs step 309. In the example of the present disclosure, step 305 may be performed firstly, and then step 306 may be performed, or step 306 may be performed firstly, and then step 305 may be performed, or steps 305 and 306 may be performed simultaneously, and there is no specific limitation on this. If step 306 is performed firstly and then step 305 is performed, regarding when any person allowed to pass through is prevented from passing through in step 304, if the server deletes the first authorization information from the buffering relationship management module, when the person prevented from passing through passes through, the barrier gate device captures the verification information of the person prevented from passing through, and matches the verification information with the verification information in the third authorization information. Since the server does not configure the verification information of the person prevented from passing through in the barrier gate device, the third authorization information does not include the verification information of the person prevented from passing through, therefore, the degree of the matching will not exceed the preset threshold, the third authorization verification fails, and the barrier gate device performs step 309. If step 306 is performed firstly and then step 305 is performed, regarding when any person allowed to pass through is prevented from passing through in step 304, if the server deletes the second authorization information and the third authorization information in a corresponding way, when the person prevented from passing through passes through, the barrier gate device captures the verification information of the person prevented from passing through, and matches the verification information with the verification information in the third authorization information. Since the third authorization information does not include the verification information of the person prevented from passing through, the degree of the matching will not exceed the preset threshold, the third authorization verification fails, and the barrier gate device performs step 309. 18 02 26 In this example of the present disclosure, it is explained by taking performing step 305 firstly and then performing step 306 only as an example. Step 307: performing, by the barrier gate device, fourth authorization verification on the person who is going to pass through on the basis of the first user identifier and the second user identifier of the person who is going to pass through. In this step, if both the second authorization verification and the third authorization verification are passed, the barrier gate device compares the first user identifier and the second user identifier, if they are consistent, step 308 is performed, if not, step 309 is performed. Step 308: if the fourth authorization verification is passed, setting the barrier gate device in an open state to allow the person who is going to pass through to pass through. If the fourth authorization verification is passed, which means that the first user identifier and the second user identifier are consistent, the person who is going to pass through are a person allowed to pass through, the barrier gate device is set in an open state, thereby allowing the person who is going to pass through to pass through. In the example of the present disclosure, if the barrier gate device is set in a closed state by default, then in a case that the fourth authorization verification is passed, the barrier gate device controls the barrier gate to open, thereby allowing the person who is going to pass through to pass through. If the barrier gate device is set in an open state by default, then in a case that the fourth authorization verification is passed, the barrier gate device will continue to remain in the open state, thereby allowing the person who is going to pass through to pass through. Step 309: if any of the second authorization verification, the third authorization verification, and the fourth authorization verification fails, setting the barrier gate device in a closed state to prevent the person who is going to pass through from passing through. If any of the authorization verifications fails, which means that the person who is going to pass through is a person prevented from passing through, the barrier gate 18 02 26 device is set in a closed state, thereby preventing the person who is going to pass through from passing through. In the example of the present disclosure, if the barrier gate device is set in a closed state by default, in a case that any of authorization verifications fails, the barrier gate device continues to remain in a closed state, thereby preventing said the person who is going to pass through from passing through. If the barrier gate device is set in an open state by default, in a case that any of authorization verifications fails, the barrier gate device controls the barrier gate to close, thereby preventing the person who is going to pass through from passing through. It should be noted that that if the second authorization information includes an user identifier and face information, and the third authorization information only includes an user identifier, the barrier gate device only needs to perform the third authorization verification based on the third authorization information, and does not need to perform the fourth authorization verification. Then, when the second authorization verification performed by the first identification device on the person who is going to pass through based on the second authorization information is passed, the user identifier is sent to the barrier gate device. After the user identifier is received, the barrier gate device performs the third authorization verification based on the received user identifier and the pre-stored user identifier, if the received user identifier is consistent with the pre-stored user identifier, allows the person who is going to pass through to pass through, otherwise prevents the person who is going to pass through from passing through. In the example of the present disclosure, when the first identification device and the barrier gate device perform authorization verification on the person who is going to pass through based on their respective authorization information, they can respectively send a notification message to the server based on their respective authorization verification results. The server outputs corresponding prompt information based on the notification messages sent by the first identification device and the barrier gate device. In the example of the present disclosure, there are the following implementation manners: 18 02 26 In a first implementation manner, if the second authorization verification performed by the first identification device on the person who is going to pass through based on the second authorization information fails, the first identification device sends a first notification message to the server, and the server receives the first notification message and outputs a second prompt information which is configured to prompt that the authorization verification performed by the first identification device is abnormal, wherein the first identification device is an identification device that has a configuration relationship with the barrier gate device. The first notification message may carry an device identifier of the first identification device, and the server determines the first identification device corresponding to the device identifier based on the device identifier. Then, on the basis of the configuration relationship between the barrier gate device and the first identification device, the barrier gate device that has the configuration relationship with the first identification device is determined, and the prompt information that the authorization verification performed by the first identification device having the configuration relationship with the barrier gate device is abnormal is then output. For example, there are two barrier gate devices, namely A and B, and there are four first identification devices, namely C, D, E and F. Wherein, C and D are configured for A, and E and F are configured for B. The server determines, based on the device identifier in the first notification message, that the first identification device C corresponding to the device identifier is abnormal, and determines that C and A have a configuration relationship based on the configuration relationships between the barrier gate devices and the first identification, and outputs a second prompt information that C having a configuration relationship with A is abnormal. The server may further send the second prompt information to the terminal, and the second prompt information is displayed in the form of a pop-up window on the current display interface. The content of the second prompt information may be "Authorization verification of the first identification device C that has a configuration relationship with barrier gate device A is abnormal", "Authorization verification of component C of barrier gate device A is abnormal" or "Barrier gate 18 02 26 device A is abnormal". If the second prompt information is "Barrier gate device A is abnormal", the pop-up window may further include a viewing portal, when the terminal detects the viewing operation by triggering the viewing portal, "Component C of barrier gate device A is abnormal", or "Authorization verification of the first identification device C that has a configuration relationship with barrier gate device A is abnormal" is displayed. If the second authorization verification fails, the first identification device will not send the first user identifier to the barrier gate device, and the barrier gate device will not perform the third authorization verification based on the third authorization information, therefore, the barrier gate device will not send any notification messages to the barrier gate device. In the second implementation manner, if the second authorization verification is passed, the first identification device sends a third notification message to the server, and the server receives the third notification message. Moreover, the barrier gate device performs the third authorization verification on the person who is going to pass through based on the third authorization information. If the third authorization verification fails, the barrier gate device sends a second notification message to the server, and the server receives the second notification message. The server integrates the third notification message and the second notification message, and outputs third prompt information. In this implementation manner, when the server outputs the third prompt information, it can directly prompt that the authorization verification performed by the barrier gate device is abnormal, or further can prompt that the third authorization verification performed by the barrier gate device is abnormal. In the example of the present disclosure, there is no specific limitation on this. For example, there are two barrier gate devices, namely A and B, and there are four first identification devices, namely C, D, E and F. C and D are configured for A, and E and F are configured for B. Wherein, C is configured to perform authorization verification on the person who enters a target place, and D is configured to perform authorization verification on the person who exits the target 18 02 26 place. The scenario is that the person who is going to pass through enters the target place through the barrier gate device A. When the person who is going to pass through enters the target place, if the second authorization verification performed by the first identification device C on the person who is going to pass through is passed, and the third authorization verification performed by the barrier gate device A on the person who is going to pass through fails, the server outputs prompt information that the third authorization verification performed by the barrier gate device is abnormal. Alternatively, the server can further send the third prompt information to the terminal, and the terminal displays the third prompt information in the form of a popup window in the current display interface. In the third implementation manner, if the third authorization verification is passed, the barrier gate device sends a fourth notification message to the server, and the server receives the fourth notification message. Furthermore, the barrier gate device performs a fourth authorization verification based on the first user identifier sent by the first identification device and the second user identifier corresponded when the third authorization verification is passed. If the fourth authorization verification fails, the barrier gate device sends a fifth notification message to the server, and the server receives the fifth notification message. If the third authorization verification is passed, which means that the second authorization verification is also passed, the server further receives the third notification message. The server integrates the third notification message, the fourth notification message and the fifth notification message, and outputs fourth prompt information. In this implementation manner, when the server outputs the fourth prompt information, it can directly prompt that the authorization verification performed by the barrier gate device is abnormal, or further can prompt that the fourth authorization verification performed by the barrier gate device is abnormal. In the example of the present disclosure, there is no specific limitation on this. In the fourth implementation manner, if the fourth authorization verification is passed, the barrier gate device sends a sixth notification message to the server. In this implementation manner, the server receives the third notification message, the 18 02 26 fourth notification message and the sixth notification message, integrates the third notification message, the fourth notification message and the sixth notification message, and outputs fifth prompt information. The fifth prompt information is configured to prompt that the authorization verifications of both the barrier gate device and the first identification device are passed. In this implementation manner, the server can delete the third notification message and the fourth notification message, and then output the fifth prompt information based on the sixth notification message. Alternatively, when receiving the sixth notification message, the server may further ignore the fourth notification message and the third notification message, and directly output the fifth prompt information based on the sixth notification message. It should be noted that the server can output the above prompt information through the terminal, that is, the server sends the prompt information to the terminal, the terminal receives the prompt information, and displays the prompt information in the form of a pop-up window in the current display interface. Wherein when the terminal displays the prompt information, it can directly display the content of the prompt information in the pop-up window. For example, the terminal directly displays "Authorization verification of the first identification device C that has a configuration relationship with the barrier gate device A is abnormal". The terminal can further display a prompt message in the pop-up window prompting that the authorization verification performed by the barrier gate device is abnormal, and further display a viewing portal in the pop-up window. By triggering the viewing portal, the user can view whether the authorization verification performed by the barrier gate device is abnormal or whether the first identification device that has a configuration relationship with the barrier gate device is abnormal. In this example of the present disclosure, the server receives multiple notification messages, including notification messages indicating that authorization verification fails. The multiple notification messages can be integrated through the following implementation manners: In the fifth implementation manner, the server can directly output prompt 18 02 26 information corresponding to the notification message based on the notification message that the authorization verification fails. In the sixth implementation manner, the server can delete the notification message that the authorization verification is passed, and then output the prompt information corresponding to the notification message based on the notification message that the authorization verification fails. It should be noted that the first identification device can further firstly send a notification message indicating that the authorization verification is passed or fails, to the barrier gate device. Based on the contents of the notification message, the barrier gate device determines whether to block the notification message or forward the notification message to the server. If the first identification device sends a third notification message when the second authorization verification is passed, to the server through the barrier gate device, and both the third authorization verification and the fourth authorization verification performed by the barrier gate device on the person who is going to pass through are passed, then the barrier gate device can ignore the third notification message, send only the sixth notification message when the fourth authorization verification is passed to the server. If the first identification device sends the first notification message that the second authorization verification fails to the server through the barrier gate device, the barrier gate device can directly forward the first notification message to the server. In the example of the present disclosure, the server only outputs a prompt information based on one or more notification messages, which can avoid the generation of redundant data and facilitate statistics of the number of persons who passed through the barrier gate device or the number of persons who did not pass through the barrier gate device within the historical time range. Moreover, the outputted prompt information in this way can correspond to the actual traffic results, which overall improve the event operation and maintenance capabilities of the system and can output the most effective record display for users. In addition, a user can further perform targeted inspection or maintenance of the first identification device and the barrier gate device based on the prompt information, thereby 18 02 26 improving traffic efficiency. In the example of the present disclosure, if the barrier gate control system further includes a second identification device, the method further includes step 310: performing, by the second identification device, a fifth authorization verification on a person who is going to pass through based on fifth authorization information, if the fifth authorization verification is passed, determining a third user identifier of the person who is going to pass through, and sending the third user identifier of the person who is going to pass through to the barrier gate device. Correspondingly, step 307 may be: performing, by the barrier gate device, a fourth authorization verification on a person who is going to pass through based on the first user identifier, the second user identifier and the third user identifier of the person who is going to pass through. Step 309 may be: if any of the second authorization verification, the third authorization verification, the fourth authorization verification and the fifth authorization verification fails, setting the barrier gate device in a closed state to prevent the person who is going to pass through from passing through. Wherein, the manner in which the second identification device performs a fifth authorization verification based on the fifth authorization information is similar to the manner in which the first identification device performs a second authorization verification based on the second authorization information in step 305, and will not be described again here. In addition, step 310 may be performed before step 305, may be performed after step 305, before step 306, or may be performed after step 306. In the example of the present disclosure, the timing of performing step 310 is not specifically limited. In this example of the present disclosure, when the first identification device is violently impacted or damaged, an alarm can further be issued. The process may be: when the impact force received by the first identification device exceeds a preset value, the first identification device sends an alarm notification to the server, wherein the alarm notification is configured to prompt that the first identification device that has a configuration relationship with the barrier gate device is violently impacted. Similarly, when the barrier gate device is violently impacted or damaged, an alarm 18 02 26 can also be issued. In this implementation manner, the server can send an alarm notification to the terminal corresponding to the user, and the alarm notification can be a message, a call request, or an email, etc. Alternatively, the server can further establish a communication connection with the alarm, and based on the communication connection, send an alarm instruction to the alarm, wherein the alarm instruction is configured to instruct the alarm to issue an audible and visual alarm. In the example of the present disclosure, the first identification device is unified to the barrier gate for management. Events generated on the first identification device will be unified for management with the barrier gate device as a main body, and the operation and maintenance status of the first identification device is treated as a part of the barrier gate device to be displayed with screening out redundant data and abnormal states between different systems. After combining the states of multiple devices, they are presented to the user in a unified manner, which is more intuitive and easier for users to understand and manage. Moreover, this method can not only be applied to traffic device in which the barrier gate device and the first identification device are integrated, but is also a good application with high value and highly reusable for old device in which the barrier gate device and the first identification device exist as independent devices, and has been used in many projects. The example of the present disclosure provides a barrier gate control method, in which a configuration relationship between a barrier gate device and a first identification device is firstly determined, and then first authorization information of the barrier gate device allowing a person to pass through is acquired, second authorization information and third authorization information are determined from the first authorization information according to the configuration relationship between the barrier gate device and the first identification device, and then the second authorization information is configured in the first identification device, and the third authorization information is configured in the barrier gate device respectively. Since the second authorization information corresponds to an 18 02 26 identification manner supported by the first identification device, and the third authorization information corresponds to an identification manner supported by the barrier gate device, the method can configure the authorization information for the barrier gate device and the first identification device as required according to the identification capabilities of the barrier gate device and the first identification, thereby improving the issuing efficiency of authorization information. Figure 4 is a schematic diagram of a barrier gate control apparatus provided by an example of the present disclosure. Referring to Figure 4, the apparatus includes: a first determining module 401, configured to determine a configuration relationship between a barrier gate device and a first identification device; a first acquiring module 402, configured to acquire first authorization information of the barrier gate device allowing a person to pass through; a second determining module 403, configured to determine second authorization information and third authorization information from the first authorization information according to the configuration relationship, wherein the second authorization information is authorization information corresponding to the first identification device, and the second authorization information corresponds to an identification manner supported by the first identification device, the third authorization information is authorization information corresponding to the barrier gate device, and the third authorization information corresponds to an identification manner supported by the barrier gate device; a first configuring module 404, configured to configure the second authorization information in the first identification device, and configure the third authorization information in the barrier gate device, so that the first identification device and the barrier gate device control a person who is going to pass through on the basis of the second authorization information and the third authorization information respectively. In a possible example, the first configuring module 404 is configured to store 18 02 26 the second authorization information of the first identification device and the third authorization information of the barrier gate device in a corresponding way; if there is an abnormal device in the first identification device and the barrier gate device which is abnormal during a stage of configuring the authorization information, determine the abnormal device; if the abnormal device returns to be normal, acquire authorization information of the abnormal device from the second authorization information and the third authorization information stored in the corresponding way, and configure the authorization information of the abnormal device in the abnormal device. In another possible example, the apparatus further includes: a third determining module, configured to detect heartbeat information of the abnormal device based on a communication connection with the abnormal device; if the heartbeat information of the abnormal device is detected, determine that the abnormal device returns to be normal; or, if a configuration request triggered by a terminal is received, determine that the abnormal device returns to be normal, wherein the configuration request is sent by the terminal after receiving a configuration instruction triggered for the abnormal device. In another possible example, if the abnormal device is the first identification device, the apparatus further includes: a fourth determining module, configured to determine a barrier gate device that has a configuration relationship with the first identification device based on the configuration relationship; a first outputting module, configured to output first prompt information, wherein the first prompt information is configured to prompt that the first identification device that has the configuration relationship with the barrier gate device is abnormal. In another possible example, the apparatus further includes: a storage module, configured to store the first authorization information after acquiring the first authorization information; a first deleting module, configured to delete the stored first authorization 18 02 26 information when the configurations of both the second authorization information of the first identification device and the third authorization information of the barrier gate device are completed. In another possible example, the apparatus further includes: a second outputting module, configured to output second prompt information if a first notification message sent by the first identification device is received, wherein the first notification message is sent after authorization verification performed by the first identification device on the person who is going to pass though based on the second authorization information fails, and the second prompt message is configured to prompt that the authorization verification performed by the first identification device is abnormal; if a second notification message sent by the barrier gate device is received, output third prompt information, wherein the second notification message is sent after the authorization verification performed by the barrier gate device on the person who is going to pass through based on the third authorization information fails and sent after the authorization verification performed by the first identification device is passed, and the third prompt information is configured to prompt that the authorization verification performed by the barrier gate device is abnormal. In another possible example, the first configuring module 404 is further configured for that the first identification device performs, on the basis of the second authorization information, second authorization verification on a person who is going to pass through, and if the second authorization verification is successful, determines a first user identifier of the person who is going to pass through, and sends the first user identifier of the person who is going to pass through to the barrier gate device; the barrier gate device performs third authorization verification on the person who is going to pass through on the basis of the third authorization information, and if the third authorization verification is passed, determines a second user identifier of the person who is going to pass through, performs fourth authorization verification on the person who is going to pass through on the basis of the first user identifier and the second user identifier of the person who is going to 18 02 26 pass through, if the fourth authorization verification is passed, the barrier gate device is set in an open state to allow the person who is going to pass through to pass through; if any of the second authorization verification, the third authorization verification, and the fourth authorization verification fails, the barrier gate device is set in a closed state to prevent the person who is going to pass through from passing through. The example of the present disclosure provides a barrier gate control apparatus, in which a configuration relationship between a barrier gate device and a first identification device is firstly determined, and then first authorization information of the barrier gate device allowing a person to pass through is acquired, second authorization information and third authorization information are determined from the first authorization information according to the configuration relationship between the barrier gate device and the first identification device, and then the second authorization information is configured in the first identification device, and the third authorization information is configured in the barrier gate device respectively. Since the second authorization information corresponds to an identification manner supported by the first identification device, and the third authorization information corresponds to an identification manner supported by the barrier gate device, the apparatus can configure the authorization information for the barrier gate device and the first identification device as required according to the identification capabilities of the barrier gate device and the first identification, thereby improving the issuing efficiency of authorization information. It should be noted that when the barrier gate control apparatus provided in the above examples controls the barrier gate, only the division of the above function modules is used as an example. In actual applications, the above function allocation can be completed by different function modules as required, that is, dividing the internal structure of the device into different function modules to complete all or part of the functions described above. In addition, the barrier gate control apparatus provided in the above examples and the barrier gate control method examples belong to the same concept, and the specific implementation process can be found in the 18 02 26 method examples, which will not be described again here. Figure 5 is a schematic diagram of a barrier gate control system provided by an example of the present disclosure. Referring to Figure 5, the barrier gate control system includes: a terminal 502, a server 501, a barrier gate device 503 and a first identification device 504, the system includes: the server 501, configured to determine a configuration relationship between a barrier gate device 503 and a first identification device 504; the terminal 502, configured to acquire first authorization information of the barrier gate device 503 allowing a person to pass through, and send the first authorization information to the server 501; the server 501, configured to receive the first authorization information, determine second authorization information and third authorization information from the first authorization information according to the configuration relationship; configure the second authorization information in the first identification device 504, configure the third authorization information in the barrier gate device 503, wherein the second authorization information is authorization information corresponding to the first identification device 504, and the second authorization information corresponds to an identification manner supported by the first identification device 504, the third authorization information is authorization information corresponding to the barrier gate device 503, and the third authorization information corresponds to an identification manner supported by the barrier gate device 503; the barrier gate device 503 and the first identification device 504, configured to control a person who is going to pass through on the basis of the second authorization information and the third authorization information respectively. In a possible example, the server 501 is configured to store the second authorization information of the first identification device 504 and the third authorization information of the barrier gate device 503 in a corresponding way; if 18 02 26 there is an abnormal device in the first identification device 504 and the barrier gate device 503 which is abnormal during a stage of configuring the authorization information, determine the abnormal device; if the abnormal device returns to be normal, acquire authorization information of the abnormal device from the second authorization information and the third authorization information stored in the corresponding way, and configure the authorization information of the abnormal device in the abnormal device. In another possible example, the server 501 is further configured to detect heartbeat information of the abnormal device based on a communication connection with the abnormal device; if the heartbeat information of the abnormal device is detected, determine that the abnormal device returns to be normal; or, if a configuration request triggered by a terminal 502 is received, determine that the abnormal device returns to be normal, wherein the configuration request is sent by the terminal 502 after receiving a configuration instruction triggered for the abnormal device. In another possible example, if the abnormal device is the first identification device 504, the server 501 is further configured to determine a barrier gate device 503 that has the configuration relationship with the first identification device 504 based on the configuration relationship; output first prompt information, wherein the first prompt information is configured to prompt that the first identification device 504 that has the configuration relationship with the barrier gate device 503 is abnormal. In another possible example, the server 501 is further configured to store the first authorization information after acquiring the first authorization information; delete the stored first authorization information when the configurations of both the second authorization information of the first identification device 504 and the third authorization information of the barrier gate device 503 are completed. In another possible example, the first identification device 504 is configured to send a first notification message to the server 501 after authorization verification performed on the person who is going to pass through based on the second 18 02 26 authorization information fails; send a third notification message to the server 501 after the authorization verification is passed; the barrier gate device 503, configured to send a second notification message to the server 501 after the authorization verification performed on the person who is going to pass through based on the third authorization information fails, wherein the second notification message is sent after the authorization verification performed by the first identification device 504 is passed; after the authorization verification is passed, send a fourth notification message to the server 501; the server 501, further configured to receive the first notification message, and output second prompt information, wherein the second prompt information is configured to prompt that the authorization verification performed by the first identification device 504 is abnormal; receive the second notification message and output the third prompt information, wherein the third prompt message is configured to prompt that the authorization verification performed by the barrier gate device 503 is abnormal. In another possible example, the first identification device 504 is further configured to perform, on the basis of the second authorization information, second authorization verification on a person who is going to pass through, and if the second authorization verification is passed, determine a first user identifier of the person who is going to pass through, and send the first user identifier of the person who is going to pass through to the barrier gate device 503; the barrier gate device 503 is further configured to perform third authorization verification on the person who is going to pass through on the basis of the third authorization information, and if the third authorization verification is passed, determine a second user identifier of the person who is going to pass through, perform fourth authorization verification on the person who is going to pass through on the basis of the first user identifier and the second user identifier of the person who is going to pass through, if the fourth authorization verification is passed, the barrier gate device 503 is set in an open state to allow the person who is going to pass through to pass through; if any of the second authorization verification, the third 18 02 26 authorization verification, and the fourth authorization verification fails, the barrier gate device 503 is set in a closed state to prevent the person who is going to pass through from passing through. The example of the present disclosure provides a barrier gate control system, in which a configuration relationship between a barrier gate device and a first identification device is firstly determined, and then first authorization information of the barrier gate device allowing a person to pass through is acquired, second authorization information and third authorization information are determined from the first authorization information according to the configuration relationship between the barrier gate device and the first identification device, and then the second authorization information is configured in the first identification device, and the third authorization information is configured in the barrier gate device respectively. Since the second authorization information corresponds to an identification manner supported by the first identification device, and the third authorization information corresponds to an identification manner supported by the barrier gate device, the system can configure the authorization information for the barrier gate device and the first identification device as required according to the identification capabilities of the barrier gate device and the first identification, thereby improving the issuing efficiency of authorization information. FIG. 6 is a block diagram of a terminal 600 according to an exemplary example. In some examples, the terminal 600 can be a smart phone, a tablet computer, a notebook computer or a desktop computer, etc. The terminal 600 may also be called as a user device, a portable terminal, a laptop terminal, a desktop terminal, and other names. Generally, the terminal 600 includes: a processor 601 and a memory 602. The processor 601 may include one or more processing cores, such as a 4-core processor, an 8-core processor, etc. The processor 601 can adopt at least one hardware form among DSP (Digital Signal Processing), FPGA (Field-Programmable Gate Array), and PLA (Programmable Logic Array). The processor 601 may also 18 02 26 include a main processor and a co-processor. The main processor is a processor configured to process data in the wake-up mode, also called a CPU (Central Processing Unit); the co-processor is A low-power processor configured to process data in standby mode. In some examples, the processor 601 may be integrated with a GPU (Graphics Processing Unit), and the GPU is responsible for rendering and drawing content to be displayed on the display screen. In some examples, the processor 601 may also include an AI (Artificial Intelligence) processor, which is configured to process computing operations related to machine learning. The memory 602 may include one or more computer-readable storage mediums, which may be non-transitory. The memory 602 may also include highspeed random access memory, and non-volatile memory, such as one or more disk storage devices, flash memory storage devices. In some examples, the non-transitory computer-readable storage medium in the memory 602 is configured to store at least one instruction, which is executed by the processor 601 to carry out the barrier gate control method provided by the method example of the present disclosure. In some examples, the terminal 600 optionally further includes: a peripheral device interface 603 and at least one peripheral device. The processor 601, the memory 602 and the peripheral device interface 603 may be connected through a bus or a signal line. Each of the peripheral devices can be connected to the peripheral device interface 603 through a bus, a signal line or a circuit board. Specifically, the peripheral devices include: at least one of a radio frequency circuit 604, a display screen 605, a camera component 606, an audio circuit 607, a positioning component 608 and a power supply 609. The peripheral device interface 603 may be configured to connect at least one peripheral device related to I / O (Input / Output) to the processor 601 and the memory 602. In some examples, the processor 601, the memory 602 and the peripheral device interface 603 are integrated on the same chip or circuit board; in some other examples, any one or two of the processor 601, the memory 602 and the peripheral device interface 603 can be implemented on a single chip or circuit board, which is not limited in this example. 18 02 26 The radio frequency circuit 604 is configured to receive and transmit RF (Radio Frequency) signals, also called electromagnetic signals. The radio frequency circuit 604 communicates with communication networks and other communication devices through electromagnetic signals. The radio frequency circuit 604 converts electrical signals into electromagnetic signals for transmission, or converts the received electromagnetic signals into electrical signals. Optionally, the radio frequency circuit 604 includes: an antenna system, an RF transceiver, one or more amplifiers, a tuner, an oscillator, a digital signal processor, a codec chipset, a user identity module card, and the like. The radio frequency circuit 604 can communicate with other terminals through at least one wireless communication protocol. The wireless communication protocol includes but is not limited to: World Wide Web, metropolitan area network, intranet, mobile communication networks of all generations (2G, 3G, 4G and 5G), wireless LAN and / or Wireless Fidelity network. In some examples, the radio frequency circuit 604 may also include NFC (Near Field Communication) related circuits, which is not limited in this application. The display screen 605 is configured to display UI (User Interface). The UI can include graphics, text, icons, videos, and any combination thereof. When display screen 605 is a touch display screen, it further has an ability to collect touch signals on or above the surface of display screen 605. The touch signal can be input to the processor 601 as a control signal for processing. While, the display screen 605 can also be configured to provide virtual buttons and / or virtual keyboards, also called soft buttons and / or soft keyboards. In some examples, there may be one display screen 605, which is provided on the front panel of the terminal 600; in other examples, there may be at least two display screens 605, which are respectively provided on different surfaces of the terminal 600 or have a folding design; in other examples, the display screen 605 may be a flexible display screen disposed on a curved surface or a folding surface of the terminal 600. Even, the display screen 605 can also be set in a non-rectangular irregular shape, that is, a special-shaped screen. The display screen 605 can be made of LCD (Liquid Crystal Display), OLED (Organic Light-Emitting Diode) and other materials. 18 02 26 The camera component 606 is configured to capture an image or a video. Optionally, the camera component 606 includes a front camera and a rear camera. Usually, the front camera is set on the front panel of the terminal, and the rear camera is set on the back of the terminal. In some examples, there are at least two rear cameras, any one of which is a main camera, a depth-of-field camera, a wide-angle camera, and a telephoto camera, so as to realize the integration of the main camera and the depth-of-field camera to realize the background blur function, the integration of the main camera and the wide-angle camera to realize panoramic shooting and VR (Virtual Reality) shooting functions or other integrated shooting functions. In some examples, the camera component 606 may also include a flash. The flash can be a single color temperature flash or a dual color temperature flash. The dual color temperature flash refers to a combination of warm light flash and cold light flash, which can be used for light compensation under different color temperatures. The audio circuit 607 may include a microphone and speakers. The microphone is configured to capture sound waves from the user and the environment, and convert the sound waves into electrical signals that are input to the processor 601 for processing, or to the radio frequency circuit 604 to realize a voice communication. For the purpose of stereo capturing or noise reduction, there may be multiple microphones, which are respectively provided at different parts of the terminal 600. The microphone can also be an array microphone or an omnidirectional capturing microphone. The speaker is configured to convert electrical signals from the processor 601 or the radio frequency circuit 604 into sound waves. The speaker can be a traditional membrane speaker or a piezoelectric ceramic speaker. When the speaker is a piezoelectric ceramic speaker, it can not only convert electrical signals into sound waves that are audible to humans, but also convert electrical signals into sound waves that are inaudible to humans for purposes such as ranging. In some examples, the audio circuit 607 may also include a headphone jack. The positioning component 608 is configured to position the current geographical location of the terminal 600 to implement navigation or LBS (Location Based Service). The positioning component 608 may be a positioning component 18 02 26 based on GPS (Global Positioning System) from America, Beidou system from China, Galileo system from Russia, or Union Galileo system from Europe. The power supply 609 is configured to power various components in the terminal 600. The power source 609 may be AC, DC, a disposable battery, or a rechargeable battery. When the power source 609 includes a rechargeable battery, the rechargeable battery may support wired charging or wireless charging. The rechargeable battery can also be configured to support fast charging technology. In some examples, the terminal 600 also includes one or more sensors 610. The one or more sensors 610 include, but are not limited to, an acceleration sensor 611, a gyroscope sensor 612, a pressure sensor 613, a fingerprint sensor 614, an optical sensor 615, and a proximity sensor 616. The acceleration sensor 611 can detect the acceleration on three coordinate axes of a coordinate system established by the terminal 600. For example, the acceleration sensor 611 can be configured to detect the components of gravity acceleration on three coordinate axes. The processor 601 can control the display screen 605 to display the user interface in a horizontal view or a vertical view according to the gravity acceleration signal captured by the acceleration sensor 611. The acceleration sensor 611 can also be configured to capture game or user motion data. The gyroscope sensor 612 can detect the body direction and rotation angle of the terminal 600, and the gyroscope sensor 612 can cooperate with the acceleration sensor 611 to capture 3D movements on the terminal 600 by user. On the basis of the data captured by the gyroscope sensor 612, the processor 601 can implement the following functions: motion sensing (such as changing the UI according to the tilt operation by user), image stabilization during shooting, game control, and inertial navigation. The pressure sensor 613 may be provided on the side frame of the terminal 600 and / or on the lower layer of the display screen 605. When the pressure sensor 613 is disposed on the side frame of the terminal 600, it can detect the grip signal on the terminal 600 by user, and the processor 601 performs left and right hand identification or quick operation based on the grip signal captured by the pressure 18 02 26 sensor 613. When the pressure sensor 613 is provided on the lower layer of the display screen 605, the processor 601 controls the operability controls on the UI interface according to pressure operation on the display screen 605 by user. The operability controls include at least one of a button control, a scroll bar control, an icon control, and a menu control. The fingerprint sensor 614 is configured to capture the user's fingerprint. The processor 601 identifies the user's identity based on the fingerprint captured by the fingerprint sensor 614, or the fingerprint sensor 614 identifies the user's identity based on the captured fingerprint. When the user's identity is identified as a trusted identity, the processor 601 authorizes the user to perform relevant sensitive operations. The sensitive operations include unlocking the screen, viewing encrypted information, downloading software, making payments, and changing settings. The fingerprint sensor 614 may be provided on the front, rear or side of the terminal 600. When the terminal 600 is provided with a physical button or a manufacturer logo, the fingerprint sensor 614 can be integrated with the physical button or the manufacturer logo. The optical sensor 615 is configured to capture ambient light intensity. In one example, the processor 601 can control the display brightness of the display screen 605 according to the ambient light intensity captured by the optical sensor 615. Specifically, when the ambient light intensity is high, the display brightness of the display screen 605 is increased; when the ambient light intensity is low, the display brightness of the display screen 605 is decreased. In another example, the processor 601 can also dynamically adjust the shooting parameters of the camera assembly 606 according to the ambient light intensity captured by the optical sensor 615. The proximity sensor 616, also called a distance sensor, is usually provided on the front panel of the terminal 600. The proximity sensor 616 is configured to capture the distance between the user and the front of the terminal 600. In one example, when the proximity sensor 616 detects that the distance between the user and the front of the terminal 600 gradually decreases, the processor 601 controls the display screen 605 to switch from the screen-on state to the screen-off state; when the 18 02 26 proximity sensor 616 detects that the distance between the user and the front of the terminal 600 gradually increases, the processor 601 controls the display screen 605 to switch from the screen-off state to the screen-on state. Those skilled in the art can understand that the structure shown in FIG. 6 does not constitute a limitation on the terminal 600, and it may include more or fewer components than shown, or combine certain components, or adopt different component arrangements. Figure 7 is a schematic diagram of a structure of a server 700 provided by an example of the present invention. The server 700 may vary greatly due to different configurations or performance, and may include one or more central processing units (CPUs) 701 and one or more memories 702, wherein at least one program code is stored in the memory 702, and the at least one program code is loaded and executed by the processor 701 to perform the operations executed by the server 700 involved in the above barrier gate control method. Of course, the server 700 may further have components such as wired or wireless network interfaces, keyboards, and input and output interfaces for input and output, the server 700 may further include other components for implementing device functions, which will not be described again here. In an exemplary example, a non-transitory computer-readable storage medium is further provided, which stores at least one program code loaded and executed by the processor, to carry out the barrier gate control method according to the above examples of the present disclosure. The non-transitory computer-readable storage medium can be a memory. For example, the non-transitory computer-readable storage medium can be a ROM (Read-Only Memory), a RAM (Random Access Memory), a CD-ROM (Compact Disc Read-Only Memory), a tape, a floppy disk and an optical data storage devices, etc. In an exemplary example, a computer program product is further provided, 18 02 26 which stores at least one program code loaded and executed by the processor, to carry out the operations of the barrier gate control method according to the examples of the present disclosure. In an exemplary example, the computer program involved in the example of the present disclosure may be deployed and executed on one computer device, or executed on multiple computer devices located in one location, or executed on multiple computer devices distributed in multiple locations and interconnected by a communication network. Multiple computer devices distributed in multiple locations and interconnected by a communication network can form a blockchain system. Regarding the apparatus in the above example, the specific manner in which each module performs operations has been described in detail in the examples of the method, and will not be described in detail here. It is to be understood that the present invention is not limited to the precise construction described above and illustrated in the accompanying drawings, and that various modifications and changes may be made without departing from the scope thereof. The scope of the invention is limited only by the appended claims. 18 02 26

Claims

1. A barri er gate control method, comprising:determining a configuration relationship between a barrier gate device and a first identification device;acquiring first authorization information of the barrier gate device allowing a person to pass through, wherein the first authorization information comprises a user identifier of the person allowed to pass through and more than one of verification information for the person allowed to pass through;determining second authorization information and third authorization information from the first authorization information according to the configuration relationship, wherein the second authorization information is authorization information corresponding to the first identification device, and the second authorization information corresponds to an identification manner supported by the first identification device, the third authorization information is authorization information corresponding to the barrier gate device, and the third authorization information corresponds to an identification manner supported by the barrier gate device, wherein the second authorization information comprises verification information corresponding to an identification manner supported by the first identification device, and the user identifier; and the third authorization information comprises verification information corresponding to an identification manner supported by the barrier gate device, and the user identifier;configuring the second authorization information in the first identification device, and configuring the third authorization information in the barrier gate device, so that the first identification device and the barrier gate device control a person who is going to pass through on a basis of the second authorization information and the third authorization information respectively,wherein the first identification device and the barrier gate device control a person who is going to pass through on the basis of the second authorization18 02 26information and the third authorization information respectively, comprises:performing, by the first identification device, second authorization verification on a person who is going to pass through on the basis of the second authorization information, and if the second authorization verification is passed, determining a first user identifier of the person who is going to pass through, and sending the first user identifier of the person who is going to pass through to the barrier gate device;performing, by the barrier gate device, third authorization verification on the person who is going to pass through on the basis of the third authorization information, and if the third authorization verification is passed, determining a second user identifier of the person who is going to pass through, comparing the first user identifier and the second user identifier, if the first user identifier and the second user identifier are consistent, setting the barrier gate device in an open state to allow the person who is going to pass through to pass through; if any of the second authorization verification and the third authorization verification is not passed, or if the first user identifier and the second user identifier are not consistent, setting the barrier gate device in a closed state to prevent the person who is going to pass through from passing through.

2. The method according to claim 1, wherein configuring the second authorization information in the first identification device and configuring the third authorization information in the barrier gate device comprises:storing the second authorization information of the first identification device and the third authorization information of the barrier gate device in a corresponding way;if there is an abnormal device in the first identification device and the barrier gate device which is abnormal during a stage of configuring authorization information, determining the abnormal device;if the abnormal device returns to be normal, acquiring authorization information of the abnormal device from the second authorization information and the third authorization information stored in the corresponding way, and configuring the18 02 26authorization information of the abnormal device in the abnormal device.

3. The method according to claim 2, wherein a process by which a server determines that the abnormal device returns to be normal comprises:based on a communication connection with the abnormal device, detecting heartbeat information of the abnormal device; if the heartbeat information of the abnormal device is detected, determining that the abnormal device returns to be normal; or,if a configuration request triggered by a terminal is received, determining that the abnormal device returns to be normal, wherein the configuration request is sent by the terminal after receiving a configuration instruction triggered for the abnormal device.

4. The method according to claim 2, wherein, if the abnormal device is the first identification device, the method further comprises:determining a barrier gate device that has the configuration relationship with the first identification device based on the configuration relationship;outputting first prompt information, wherein the first prompt information is configured to prompt that the first identification device that has the configuration relationship with the barrier gate device is abnormal.

5. The method according to claim 1, wherein the method further comprises:storing the first authorization information after acquiring the first authorization information;deleting a stored first authorization information when the configurations of both the second authorization information of the first identification device and the third authorization information of the barrier gate device are completed.

6. The method according to claim 1, wherein the method further comprises:18 02 26if a first notification message sent by the first identification device is received, outputting second prompt information, wherein the first notification message is sent after authorization verification performed by the first identification device on the person who is going to pass through based on the second authorization information fails, and the second prompt message is configured to prompt that the authorization verification performed by the first identification device is abnormal;if a second notification message sent by the barrier gate device is received, outputting third prompt information, wherein the second notification message is sent after authorization verification performed by the barrier gate device on the person who is going to pass through based on the third authorization information fails, and the second notification message is sent after the authorization verification performed by the first identification device is passed, and the third prompt information is configured to prompt that the authorization verification performed by the barrier gate device is abnormal.

7. A barrier gate control apparatus, comprising:a first determining module, configured to determine a configuration relationship between a barrier gate device and a first identification device;a first acquiring module, configured to acquire first authorization information of the barrier gate device allowing a person to pass through, wherein the first authorization information comprises a user identifier of the person allowed to pass through and more than one of verification information for the person allowed to pass through;a second determining module, configured to determine second authorization information and third authorization information from the first authorization information according to the configuration relationship, wherein the second authorization information is authorization information corresponding to the first identification device, and the second authorization information corresponds to an identification manner supported by the first identification device, the third authorization information is authorization information corresponding to the barrier18 02 26gate device, and the third authorization information corresponds to an identification manner supported by the barrier gate device, wherein the second authorization information comprises verification information corresponding to an identification manner supported by the first identification device, and the user identifier; and the third authorization information comprises verification information corresponding to an identification manner supported by the barrier gate device, and the user identifier;a first configuring module, configured to configure the second authorization information in the first identification device, and configure the third authorization information in the barrier gate device, so that the first identification device and the barrier gate device control a person who is going to pass through on a basis of the second authorization information and the third authorization information respectively,wherein the first configuring module is further configured to perform, by the first identification device, second authorization verification on a person who is going to pass through on the basis of the second authorization information, and if the second authorization verification is passed, determine a first user identifier of the person who is going to pass through, and send the first user identifier of the person who is going to pass through to the barrier gate device; perform, by the barrier gate device, third authorization verification on the person who is going to pass through on the basis of the third authorization information, and if the third authorization verification is passed, determine a second user identifier of the person who is going to pass through, compare the first user identifier and the second user identifier, if the first user identifier and the second user identifier are consistent, set the barrier gate device in an open state to allow the person who is going to pass through to pass through; if any of the second authorization verification and the third authorization verification is not passed, or if the first user identifier and the second user identifier are not consistent, set the barrier gate device in a closed state to prevent the person who is going to pass through from passing through.18 02 268. The apparatus according to claim 7, wherein the first configuring module is configured to store the second authorization information of the first identification device and the third authorization information of the barrier gate device in a corresponding way; if there is an abnormal device in the first identification device and the barrier gate device which is abnormal during a stage of configuring authorization information, determine the abnormal device; if the abnormal device returns to be normal, acquire authorization information of the abnormal device from the second authorization information and the third authorization information stored in the corresponding way, and configure the authorization information of the abnormal device in the abnormal device.

9. The apparatus according to claim 8, wherein the apparatus further comprises: a third determining module, configured to detect heartbeat information of the abnormal device based on a communication connection with the abnormal device; if the heartbeat information of the abnormal device is detected, determine that the abnormal device returns to be normal; or, if a configuration request triggered by a terminal is received, determine that the abnormal device returns to be normal, wherein the configuration request is sent by the terminal after receiving a configuration instruction triggered for the abnormal device.

10. The apparatus according to claim 8, wherein if the abnormal device is the first identification device, the apparatus further comprises:a fourth determining module, configured to determine a barrier gate device that has the configuration relationship with the first identification device based on the configuration relationship;a first outputting module, configured to output first prompt information, wherein the first prompt information is configured to prompt that the first identification device that has the configuration relationship with the barrier gate device is abnormal.18 02 2611. The apparatus according to claim 7, wherein the apparatus further comprises:a storage module, configured to store the first authorization information after acquiring the first authorization information;a first deleting module, configured to delete a stored first authorization information when the configurations of both the second authorization information of the first identification device and the third authorization information of the barrier gate device are completed.

12. The apparatus according to claim 7, wherein the apparatus further comprises:a second outputting module, configured to output second prompt information if a first notification message sent by the first identification device is received, wherein the first notification message is sent after authorization verification performed by the first identification device on the person who is going to pass through based on the second authorization information fails, and the second prompt message is configured to prompt that the authorization verification performed by the first identification device is abnormal; output third prompt information if a second notification message sent by the barrier gate device is received, wherein the second notification message is sent after the authorization verification performed by the barrier gate device on the person who is going to pass through based on the third authorization information fails, and the second notification message is sent after the authorization verification performed by the first identification device is passed, and the third prompt information is configured to prompt that the authorization verification performed by the barrier gate device is abnormal.

13. Abarrier gate control system, comprising: aterminal, a server, a barrier gate device and a first identification device, wherein the system comprises:the server, configured to determine a configuration relationship between a barrier gate device and a first identification device;18 02 26the terminal, configured to acquire first authorization information of the barrier gate device allowing a person to pass through, and send the first authorization information to the server, wherein the first authorization information comprises a user identifier of the person allowed to pass through and more than one of verification information for the person allowed to pass through;the server, configured to receive the first authorization information, determine second authorization information and third authorization information from the first authorization information according to the configuration relationship; configure the second authorization information in the first identification device, configure the third authorization information in the barrier gate device, wherein the second authorization information is authorization information corresponding to the first identification device, and the second authorization information corresponds to an identification manner supported by the first identification device, the third authorization information is authorization information corresponding to the barrier gate device, and the third authorization information corresponds to an identification manner supported by the barrier gate device, wherein the second authorization information comprises verification information corresponding to an identification manner supported by the first identification device, and the user identifier; and the third authorization information comprises verification information corresponding to an identification manner supported by the barrier gate device, and the user identifier;the barrier gate device and the first identification device, configured to control a person who is going to pass through on a basis of the second authorization information and the third authorization information respectively,wherein the first identification device is further configured to perform second authorization verification on a person who is going to pass through on the basis of the second authorization information, and if the second authorization verification is passed, determine a first user identifier of the person who is going to pass through, and send the first user identifier of the person who is going to pass through to the barrier gate device;18 02 26the barrier gate device is further configured to perform third authorization verification on the person who is going to pass through on the basis of the third authorization information, and if the third authorization verification is passed, determine a second user identifier of the person who is going to pass through, compare the first user identifier and the second user identifier, if the first user identifier and the second user identifier are consistent, set to be in an open state to allow the person who is going to pass through to pass through; if any of the second authorization verification and the third authorization verification is not passed, or if the first user identifier and the second user identifier are not consistent, set to be in a closed state to prevent the person who is going to pass through from passing through.

14. The system according to claim 13, wherein the server is configured to store the second authorization information of the first identification device and the third authorization information of the barrier gate device in a corresponding way; if there is an abnormal device in the first identification device and the barrier gate device which is abnormal during a stage of configuring authorization information, determine the abnormal device; if the abnormal device returns to be normal, acquire authorization information of the abnormal device from the second authorization information and the third authorization information stored in the corresponding way, and configure the authorization information of the abnormal device in the abnormal device.

15. The system according to claim 14, wherein the server is further configured to detect heartbeat information of the abnormal device based on a communication connection with the abnormal device; if the heartbeat information of the abnormal device is detected, determine that the abnormal device returns to be normal; or, if a configuration request triggered by a terminal is received, determine that the abnormal device returns to be normal, wherein the configuration request is sent by the terminal after receiving a configuration instruction triggered for the abnormal18 02 26device.

16. The system according to claim 14, wherein, if the abnormal device is the first identification device, the server is further configured to determine a barrier gate device that has the configuration relationship with the first identification device based on the configuration relationship; output first prompt information, wherein the first prompt information is configured to prompt that the first identification device that has the configuration relationship with the barrier gate device is abnormal.

17. The system according to claim 13, wherein the server is further configured to store the first authorization information after acquiring the first authorization information; delete a stored first authorization information when the configurations of both the second authorization information of the first identification device and the third authorization information of the barrier gate device are completed.

18. The system according to claim 13, wherein the first identification device is configured to send a first notification message to the server after authorization verification performed on the person who is going to pass through based on the second authorization information fails; send a third notification message to the server after the authorization verification is passed;the barrier gate device is configured to send a second notification message to the server after authorization verification performed on the person who is going to pass through based on the third authorization information fails, wherein the second notification message is sent after the authorization verification performed by the first identification device is passed; send a fourth notification message to the server after the authorization verification is passed;the server is further configured to receive the first notification message, and output second prompt information, wherein the second prompt information is configured to prompt that the authorization verification performed by the first identification device is abnormal; receive the second notification message andoutput the third prompt information, wherein the third prompt message is configured to prompt that the authorization verification performed by the barrier gate device is abnormal.

19. A non-transitory computer-readable storage medium, storing at least one program code loaded and executed by the processor, to carry out the barrier gate control method according to any one of claims 1 to 6.

20. A computer program product, storing at least one program code loaded and executed by the processor, to carry out the barrier gate control method according to any one of claims 1 to 6.