CN116311637A

CN116311637A - Wing gate control method and system applied to visitor access scene

Info

Publication number: CN116311637A
Application number: CN202211665385.4A
Authority: CN
Inventors: 王林祥; 赵皎平; 刘林会
Original assignee: Xian Irain IoT Technology Service Co Ltd
Current assignee: Xian Irain IoT Technology Service Co Ltd
Priority date: 2019-03-14
Filing date: 2019-03-18
Publication date: 2023-06-23
Also published as: CN109993866B; CN109993866A

Abstract

The invention discloses a wing gate control method and a wing gate control system applied to a visitor access scene, wherein the wing gate control method comprises the following steps: the mobile management terminal acquires the identity information of a target person who needs to pass through the wing gate, and after the identity information acquisition is finished, a visitor confirmation request comprising the identity information is sent to the visitor reservation management platform; the visitor reservation management platform judges whether the target person is a reserved visitor person according to the visitor confirmation request, and returns a visitor confirmation response aiming at the visitor confirmation request according to the judgment result; when the visitor confirmation response indicates that the target person is the reserved visitor person, the mobile management terminal generates control information; the thyristor management control device controls the corresponding wing brake to be opened when the control information is detected. Therefore, the implementation of the invention can control the opening of the wing gate through the control information automatically generated by the mobile management terminal, so that related personnel can pass through the wing gate in time, the efficiency of passing through the wing gate is improved, and the occurrence of the condition of access congestion caused by incapability of passing through the wing gate in time is reduced.

Description

Wing gate control method and system applied to visitor access scene

The application is a divisional application made for a wing gate control method and a wing gate control system based on a mobile management terminal, wherein the application date is 2019, 03, 18, the priority date is 2019, 03, 14, the application number is 2019102029581.

Technical Field

The invention relates to the technical field of intelligent control, in particular to a wing gate control method and a wing gate control system applied to visitor access scenes.

Background

Based on the consideration of safety, reducing people flow congestion, and the like, many office buildings, important transportation hubs (such as high-speed rail stations and railway stations) and the like are provided with wing gates, and related personnel can pass through only when the wing gates are opened.

For office building, the wing gate is usually arranged at the entrance guard channel, the visitor of the office building usually needs to go to the foreground registration of the office building, and the foreground staff controls the wing gate to open through the entrance guard card/entrance guard remote control equipment or issues a temporary entrance guard card to the visitor to control the wing gate to open after verifying registration information, so that the visitor enters the office building, and the flow is complicated.

For important transportation hubs, the wing gate is usually arranged at an entrance/exit port, when passengers need to enter/exit, the passengers are usually verified by means of an identity card, a combination of the identity card and a ticket, or a combination of the identity card and a face, and if the verification is successful, the wing gate is controlled to be opened. It has been found in practice that, in the authentication of a passenger, an unsuccessful authentication may occur due to an error in identification information of the thyristor control device, for example: the condition that the face characteristic information is not matched with the identity card characteristic due to unclear collected face characteristic information and incorrect angle usually requires passengers to search staff for manual inquiry and verification, or go to a manual ticket checking channel for manual ticket checking, and the flow is complicated.

Therefore, the above two conditions all cause the situation that related personnel (visitors/passengers) cannot pass through the wing gate in time, so that the efficiency of passing through the wing gate is reduced, and even the situation of access congestion is further caused.

Disclosure of Invention

The invention aims to solve the technical problem of providing a wing gate control method and a wing gate control system applied to a visitor access scene, which can enable related personnel to pass through the wing gate in time, improve the efficiency of passing through the wing gate and reduce the occurrence of access congestion caused by incapability of passing through the wing gate in time.

In order to solve the technical problem, a first aspect of the embodiment of the present invention discloses a wing gate control method based on a mobile management terminal, the method comprising:

the mobile management terminal acquires identity information of a target person needing to pass through the wing gate, wherein the identity information at least comprises face characteristic information of the target person and/or certificate information of the target person;

after the identity information is acquired, the mobile management terminal generates control information, wherein the control information is used for indicating a thyristor management control device to open a wing gate;

and when the control information is detected, the thyristor management control equipment controls the corresponding wing brake to be opened according to the control information so as to enable the target personnel to pass through.

As an optional implementation manner, after the mobile management terminal generates the control information in the first aspect of the embodiment of the present invention, the method further includes:

when the type of the control information is an instruction type, the mobile management terminal sends the control information to the thyristor management control equipment;

the thyristor management control device receives the control information.

when the type of the control information is the code pattern type, the mobile management terminal sends the control information to the determined user terminal of the target person, or sends a printing instruction comprising the control information to a printing terminal which establishes a connection relationship in advance so as to instruct the printing terminal to print the control information.

As an optional implementation manner, in the first aspect of the embodiment of the present invention, after the acquisition of the identity information is completed and before the mobile management terminal generates the control information, the method further includes:

the mobile management terminal sends a visitor confirmation request comprising the identity information to a visitor reservation management platform;

The visitor reservation management platform judges whether the target person is a reserved visitor person according to the visitor confirmation request, and returns a visitor confirmation response aiming at the visitor confirmation request according to a judgment result;

and the mobile management terminal receives the visitor confirmation response and judges whether the visitor confirmation response indicates that the target person is the reserved visitor person, and when the visitor confirmation response indicates that the target person is the reserved visitor person, the operation of generating the control information is triggered and executed.

As an optional implementation manner, in the first aspect of the embodiment of the present invention, the method further includes:

when the visitor confirmation response indicates that the target person is not the reserved visitor person, the mobile management terminal stores the identity information;

after the identity information is stored, the mobile management terminal performs the operation of generating control information.

when the visitor confirmation response indicates that the target person is not the reserved visitor person, the mobile management terminal acquires a passing purpose of the target person and determines an access object which the target person needs to access and a contact way of the access object according to contents included in the passing purpose;

The mobile management terminal sends an access indication request to the access object through the contact way so that the access object indicates whether the target person is allowed to pass the gate or not, and the access indication request comprises the identity information of the target person;

wherein after the identity information is stored, the method further comprises:

the mobile management terminal detects whether an access indication response returned by the access object and used for indicating that the target personnel is allowed to pass the gate is received or not;

and when detecting that the access indication response is received, the mobile management terminal executes the operation of generating the control information.

after detecting that the corresponding wing brake is controlled to be opened by the wing brake management control equipment according to the control information, the mobile management terminal sends an elevator control request to an elevator control system, so that the elevator control system controls the corresponding elevator to move to the floor corresponding to the wing brake and controls the elevator door of the elevator to be opened when the elevator moves to the floor corresponding to the wing brake.

When the thyristor management control equipment detects that any one of the controlled flappers is abnormal, the thyristor management control equipment sends an abnormality prompt message to the mobile management terminal, wherein the abnormality prompt message is used for indicating that the flappers controlled by the thyristor management control equipment are abnormal and comprises a flapping mark of the abnormal flapping;

the mobile management terminal receives the abnormal prompt message and outputs an abnormal processing prompt according to the abnormal prompt message, wherein the abnormal processing prompt is used for prompting a manager of the mobile management terminal to check the abnormal wing gate corresponding to the wing gate identifier.

As an optional implementation manner, in the first aspect of the embodiment of the present invention, the control information includes the identity information, and after the control information is detected, and before the thyristor control device controls the corresponding wing brake to be turned on according to the control information, the method further includes:

the thyristor management control equipment judges whether the target person is a member of a pre-acquired blacklist according to the identity information included in the control information;

when judging that the target person is not one member of the blacklist, the thyristor control equipment executes the operation of controlling the corresponding wing brake to be opened according to the control information;

And when judging that the target person is one member of the blacklist, the thyristor management control equipment outputs a prompt for prohibiting passing.

The second aspect of the embodiment of the invention discloses a wing brake control system based on a mobile management terminal, which comprises the mobile management terminal and a wing brake management control device, wherein the mobile management terminal comprises an acquisition module and a first generation module, and the wing brake management control device comprises a first detection module and a wing brake control module, wherein:

the acquisition module is used for acquiring identity information of a target person needing to pass through the wing gate, wherein the identity information at least comprises face characteristic information of the target person and/or certificate information of the target person;

the first generation module is used for generating control information after the acquisition module acquires the identity information, and the control information is used for indicating the thyristor control equipment to open a thyristor;

the first detection module is used for detecting whether the control information exists or not;

the wing gate control module is used for controlling the corresponding wing gate to be opened according to the control information when the first detection module detects that the control information exists.

As an optional implementation manner, in implementing the second aspect of the present invention, the mobile management terminal further includes a first communication module, and the thyristor control device further includes a second communication module, where:

the first communication module is used for sending the control information to the thyristor management control equipment when the type of the control information is an instruction type;

the second communication module is used for receiving the control information sent by the mobile management terminal;

the first detection module detects whether the control information exists in a specific mode that:

the first detection module detects whether the second communication module receives the control information, and when the second communication module receives the control information, the first detection module confirms that the control information exists.

As an optional implementation manner, in implementing the second aspect of the present invention, the first communication module is further configured to send the control information to the determined user terminal of the target person when the type of the control information is a code pattern type, or send a print instruction including the control information to a print terminal that establishes a connection in advance, so as to instruct the print terminal to print the control information.

As an optional implementation manner, in implementing the second aspect of the present invention, the mobile management terminal further includes a third communication module and a first judgment module, and the system further includes a visitor reservation management platform, where the visitor reservation management platform includes a second judgment module and a fourth communication module, and the method further includes:

the third communication module is used for sending a visitor confirmation request comprising the identity information to the visitor reservation management platform after the acquisition module acquires the identity information;

the fourth communication module is configured to receive the visitor confirmation request sent by the mobile management terminal;

the second judging module is used for judging whether the target person is a reserved visitor person according to the visitor confirmation request, and obtaining a judging result;

the fourth communication module is further configured to return a visitor confirmation response to the visitor confirmation request according to the determination result;

the third communication module is further used for receiving the visitor confirmation response fed back by the visitor reservation management platform;

the first judging module is used for judging whether the visitor confirmation response indicates that the target person is the reserved visitor person or not;

The first generation module is specifically configured to:

and after the acquisition module acquires the identity information and when the first judgment module judges that the visitor confirmation response indicates that the target person is the reserved visitor person, generating control information.

As an optional implementation manner, in implementing the second aspect of the present invention, the mobile management terminal further includes:

the storage module is used for storing the identity information when the first judgment module judges that the visitor confirmation response does not indicate that the target person is the reserved visitor person;

and the second generation module is used for generating the control information when the first judgment module judges that the visitor confirmation response does not indicate that the target person is the reserved visitor person and after the storage module stores the identity information.

As an optional implementation manner, in the second aspect of the embodiment of the present invention, the mobile management terminal further includes:

the acquisition module is used for acquiring the gate passing purpose of the target person when the first judgment module judges that the visitor confirmation response does not indicate that the target person is the reserved visitor person;

The determining module is used for determining an access object which the target person needs to access and a contact way of the access object according to the content included in the passing purpose;

a fifth communication module, configured to send an access indication request to the access object through the contact manner, so that the access object indicates whether to allow the target person to pass the gate, where the access indication request includes identity information of the target person;

the second detection module is used for detecting whether the fifth communication module receives an access indication response returned by the access object and used for indicating that the target personnel is allowed to pass the gate;

the second generation module is specifically configured to generate the control information when the first determination module determines that the visitor confirmation response does not indicate that the target person is the reserved visitor person, after the storage module stores the identity information, and when the second detection module detects that the access indication response is received.

the third detection module is used for detecting whether the thyristor management control equipment controls the corresponding wing brake to be opened according to the control information;

And the sixth communication module is used for sending an elevator control request to an elevator control system after the third detection module detects that the corresponding wing brake is controlled to be opened by the wing brake management control equipment according to the control information, so that the elevator control system controls the corresponding elevator to move to the floor corresponding to the wing brake and controls the elevator door of the elevator to be opened when the elevator moves to the floor corresponding to the wing brake.

As an optional implementation manner, in implementing the second aspect of the present invention, the first detection module is further configured to detect whether an abnormality exists in the wing brake controlled by the thyristor control device;

the thyristor management control device further includes:

a seventh communication module, configured to send an abnormality alert message to the mobile management terminal when the first detection module detects that an abnormality exists in the damper controlled by the thyristor control device, where the abnormality alert message is used to indicate that an abnormality exists in the damper controlled by the thyristor control device and the abnormality alert message includes a damper identifier of the abnormal damper;

the mobile management terminal further includes:

an eighth communication module, configured to receive the abnormality prompting message sent by the thyristor management control device;

The first output module is used for outputting an abnormal processing prompt according to the abnormal prompt message, and the abnormal processing prompt is used for prompting a manager of the mobile management terminal to check the abnormal wing gate corresponding to the wing gate identifier.

As an optional implementation manner, in implementing the second aspect of the present invention, the control information includes the identity information, and the thyristor control device further includes:

a fourth judging module, configured to judge whether the target person is a member of a pre-acquired blacklist according to the identity information included in the control information after the first detecting module detects that the control information exists, and trigger the wing gate control module to execute the operation of controlling the corresponding wing gate to open according to the control information when it is judged that the target person is not a member of the blacklist;

and the second output module is used for outputting a brake-passing prohibition prompt when the fourth judging module judges that the target person is one member of the blacklist.

Compared with the prior art, the embodiment of the invention has the following beneficial effects:

in the embodiment of the invention, a mobile management terminal acquires the identity information of a target person needing to pass through a wing gate, wherein the identity information at least comprises the face characteristic information of the target person and/or the certificate information of the target person; after the completion of the acquisition of the identity information is detected, the mobile management terminal generates control information, wherein the control information is used for indicating the thyristor control equipment to open a wing gate; when the control information is detected, the thyristor management control equipment controls the corresponding wing brake to be opened according to the control information so as to enable the target personnel to pass through. Therefore, the implementation of the invention can control the opening of the wing gate through the control information automatically generated by the mobile management terminal, so that related personnel can pass through the wing gate in time without registering and/or checking by manpower, the efficiency of passing through the wing gate is improved, and the occurrence of the condition of access congestion caused by incapability of passing through the wing gate in time is reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic flow chart of a wing gate control method based on a mobile management terminal according to an embodiment of the present invention;

FIG. 2 is a flow chart of another method for controlling a wing gate based on a mobile management terminal according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a wing gate control system based on a mobile management terminal according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of another embodiment of a mobile management terminal based wing gate control system;

fig. 5 is a schematic structural diagram of a wing gate control system based on a mobile management terminal according to an embodiment of the present invention.

Detailed Description

In order that those skilled in the art will better understand the present invention, a technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The terms first, second and the like in the description and in the claims and in the above-described figures are used for distinguishing between different objects and not necessarily for describing a sequential or chronological order. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion. For example, a process, method, apparatus, article, or device that comprises a list of steps or elements is not limited to the list of steps or elements but may, in the alternative, include other steps or elements not expressly listed or inherent to such process, method, article, or device.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the invention. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

The invention discloses a wing gate control method and a wing gate control system based on a mobile management terminal, which can control the opening of a wing gate through control information automatically generated by the mobile management terminal so as to enable related personnel to pass through the wing gate in time without registering and/or checking by manpower, thereby improving the efficiency of passing through the wing gate and reducing the occurrence of access congestion caused by incapability of passing through the wing gate in time. The following will describe in detail.

Example 1

Referring to fig. 1, fig. 1 is a flow chart of a wing gate control method based on a mobile management terminal according to an embodiment of the present invention. As shown in fig. 1, the wing gate control method based on the mobile management terminal may include the following operations:

101. the mobile management terminal collects the identity information of the target personnel who need to pass through the wing gate.

In the embodiment of the invention, the identity information at least comprises face characteristic information (namely face image) of the target person and/or certificate information of the target person, wherein certificates corresponding to the certificate information are related to application scenes of the mobile management terminal, and the requirements of different application scenes on safety are different. For example, the certificate corresponding to the certificate information collected by the mobile management terminal can be any one of an identity card, a temporary identity card material, a passport, a social security card and a employee card when the requirement on security is relatively low, and the certificate corresponding to the certificate information collected by the mobile management terminal can be any one of an identity card, a temporary identity card and a temporary identity card when the requirement on security is relatively high when the mobile management terminal is applied to a mobile management terminal in a scene such as a train station, a high-speed rail station and the like, a important transportation hub, a government office building and the like.

Further optionally, the identity information may further include at least one of clothing information of the target person, voice information of the target person, iris information, and fingerprint string information, where the voice information of the target person is used to identify a voiceprint feature of the target person, and the fingerprint string information includes at least a fingerprint corresponding to at least one finger of the target person.

102. After the identity information is acquired, the mobile management terminal generates control information, wherein the control information is used for indicating the thyristor control equipment to open the wing gate.

In the embodiment of the invention, the mobile management terminal stores the information types of the identity information to be acquired, and when the information matched with each information type is acquired respectively, the mobile management terminal determines that the acquisition of the identity information is finished. Optionally, the mobile management terminal may further store acquisition requirements matched with different information types, and after the acquisition of the identity information is completed, before the mobile management terminal generates the control information, the wing gate control method based on the mobile management terminal may further include:

the mobile management terminal judges whether the collected information of different information types meets the collection requirement matched with the information types, and when the judgment result is yes, the mobile management terminal triggers and executes the operation of generating the control information.

For example, when the information type includes a face type, the acquisition requirements corresponding to the face type include a high definition requirement and/or the acquired face image is a full-face image; when the information type comprises a valid certificate type, the acquisition requirement corresponding to the valid certificate type is that acquired certificate information must comprise a name and a certificate number; when the information type includes a sound type, the acquisition requirement corresponding to the sound type is sound information of which the acquisition duration is greater than or equal to a preset duration threshold (e.g., 5 seconds).

Therefore, the embodiment of the invention can ensure that comprehensive identity information is acquired before the control information is generated, further can ensure that the identity information meeting the requirements is acquired, improves the validity of the acquired identity information, and is convenient for subsequent reference.

In the embodiment of the invention, the control information can comprise the terminal identification of the mobile management terminal and/or the character string identification pre-agreed between the mobile management terminal and the thyristor management control equipment, so that the thyristor management control equipment can effectively detect the control information generated by the mobile management terminal corresponding to the thyristor management control equipment. Furthermore, the control information can also comprise at least one wing gate identifier, so that the corresponding wing gate opening can be controlled more accurately by the wing gate management control equipment.

103. When the control information is detected, the thyristor management control equipment controls the corresponding wing brake to be opened according to the control information so as to enable the target personnel to pass through.

In the embodiment of the invention, the corresponding wing gate can be any wing gate corresponding to the wing gate identifier included in the control information.

In the embodiment of the invention, the detection of whether the control information exists by the thyristor control device can be realized in the following way:

the type of the thyristor control device is matched with the application scene of the thyristor control device, and the detection mode matched with the type of the thyristor control device can be one or more, when the detection mode matched with the type of the thyristor control device is more than one, the thyristor control device can detect whether the control information exists in any detection mode matched with the type of the thyristor control device, and the embodiment of the invention is not limited as long as the control information exists in any detection mode matched with the type of the thyristor control device. For example, for a thyristor management control device applied to an application scenario with a high safety requirement, the thyristor management control device detects whether control information exists by judging whether control information is received, if so, the thyristor management control device indicates that the thyristor management control device detects the control information, and at this time, the control information can be understood as a control instruction; for the thyristor management control device applied to the application scene with relatively low safety requirement, the thyristor management control device can detect whether the control information exists by judging whether the control information is received, if so, the control information is detected, or whether the control information is identified/scanned/read/sensed, and if so, the control information is detected, and at the moment, the control information can be understood as a control code diagram or an electronic control tag.

In this embodiment of the present invention, as an optional implementation manner, the thyristor management control device may store in advance information related to the mobile management terminal having a binding relationship with the thyristor management control device, for example, a terminal identifier of the mobile management terminal and/or a character string identifier pre-agreed by the mobile management terminal and the thyristor management control device. The method for controlling the wing gate based on the mobile management terminal can further comprise the following operations after the wing gate management control device detects the existence of the control information and before controlling the corresponding wing gate to be opened according to the control information:

the thyristor management control device analyzes the relevant information of a certain mobile management terminal included in the control information, judges whether the certain mobile management terminal is one of the mobile management terminals which are bound with the thyristor management control device in advance according to the analyzed relevant information and the prestored relevant information of all the mobile management terminals, and executes the corresponding operation of controlling the opening of the thyristor according to the control information when the judging result is yes.

Therefore, the alternative implementation mode can increase the complexity of the control information by adding the related information of the mobile management terminal into the control information, thereby reducing the occurrence of the situation that related personnel randomly pass through the wing gate due to malicious imitation of the control information, and improving the reliability of the wing gate opening control equipment in response to the control information.

In this embodiment of the present invention, as another optional implementation manner, the control information further includes an information identifier uniquely corresponding to the control information, and the thyristor management control device may store an information identifier set in advance, where the information identifier set includes information identifiers of all control information that the thyristor management control device has responded to. The method for controlling the wing gate based on the mobile management terminal can further comprise the following operations after the wing gate management control device detects the existence of the control information and before controlling the corresponding wing gate to be opened according to the control information:

the thyristor management control device analyzes the information identifier uniquely corresponding to the control information, judges whether the information identifier uniquely corresponding to the control information is included in the information identifier set stored by the thyristor management control device, and executes the operation of controlling the corresponding thyristor to be opened according to the control information when the information identifier uniquely corresponding to the control information is not included in the information identifier set.

It should be noted that, after determining that the information identifier set does not include the information identifier uniquely corresponding to the control information, the thyristor management control device may also execute the above-described analysis of the relevant information of a certain mobile management terminal included in the control information, and determine, according to the analyzed relevant information and the prestored relevant information of all mobile management terminals, whether the certain mobile management terminal is an operation of one of the mobile management terminals bound with the thyristor management control device in advance.

Further optionally, when the information identifier set includes an information identifier uniquely corresponding to the control information, the thyristor management control device outputs a failure prompt, where the failure prompt is used to prompt that the control information has failed. Therefore, the optional implementation mode can ensure that one control information is responded only once by adding the information mark which is uniquely corresponding to the control information into the control information, so that the situation that the wing gate is opened at will caused by that other people steal the control information through an unreasonable means is reduced, and the control safety of the wing gate is improved.

As a further alternative embodiment, the control information may further include a target duration, where the target duration is calculated by the mobile management terminal based on the geographic location where the identity information is collected by the mobile management terminal and a pre-stored geographic location of the thyristor management control device. The method for controlling the wing gate based on the mobile management terminal can further comprise the following operations after the wing gate management control device detects the existence of the control information and before controlling the corresponding wing gate to be opened according to the control information:

and the thyristor management control equipment starts timing at the moment of detecting the control information, and when the timing time length reaches the target time length, the corresponding operation of controlling the opening of the wing gate according to the control information is executed.

Therefore, the optional implementation manner can enable the mobile management terminal to intelligently calculate the time for the target personnel to reach the wing gate, so that the wing gate management control equipment can conveniently control the wing gate to be opened at proper time, and the situation that the target personnel cannot pass through the wing gate in time due to too early or too late opening of the wing gate is reduced.

In an alternative embodiment, the wing gate control method based on the mobile management terminal may further include:

when the thyristor management control equipment detects that any one of the controlled wing brakes is abnormal, the thyristor management control equipment sends an abnormality prompt message to the mobile management terminal, wherein the abnormality prompt message is used for indicating that the wing brake controlled by the thyristor management control equipment is abnormal and comprises a wing brake identifier of the abnormal wing brake;

the mobile management terminal receives the abnormality prompt message, and outputs an abnormality processing prompt according to the abnormality prompt message, wherein the abnormality processing prompt is used for prompting a manager of the mobile management terminal to check an abnormal wing gate corresponding to the wing gate identifier.

In the embodiment of the invention, the abnormal existence of the wing gate can comprise any one of normally open of the wing gate, normally closed of the wing gate, uncontrollable opening of the wing gate caused by incapability of identifying control information of the wing gate, uncontrollable opening of the wing gate caused by incapability of receiving the control information of the wing gate, failure or mismatching of the wing gate management control equipment in verification of the identified personnel information, too short time interval between opening and closing of the wing gate, too long time interval between opening and closing of the wing gate, illegal passing of the wing gate by personnel detected by the wing gate management control equipment, violent damage of the wing gate detected by the wing gate management control equipment and the like.

Therefore, according to the alternative embodiment, when the wing brake management control equipment detects that the wing brake is abnormal, the abnormality prompt information can be automatically sent to the mobile management terminal, so that the mobile management terminal can process abnormal conditions in time, and inconvenience brought to people needing to pass the brake due to the abnormality of the wing brake is further reduced.

In still another optional embodiment, the control information may include identity information, and after detecting that the control information exists, and before the corresponding flap gate is controlled to be opened by the flap gate management control device according to the control information, the flap gate control method based on the mobile management terminal may further include:

the thyristor management control equipment judges whether a target person is a member of a pre-acquired blacklist according to the identity information included in the control information;

when the target person is judged not to be one member of the blacklist, the thyristor management control equipment executes the operation of controlling the corresponding wing brake to be opened according to the control information;

when the target person is judged to be one member of the blacklist, the thyristor control device outputs a brake-passing prohibition prompt, and optionally, the brake-passing prohibition prompt can comprise a brake-passing prohibition reason.

In this alternative embodiment, the blacklist is derived in advance by the thyristor management control device from at least one of a third party loyalty platform, a ticket purchasing platform and a public security identity verification platform.

It can be seen that, before the control wing brake is opened, the alternative embodiment can also judge whether the target person is a member in the blacklist according to the identity information included in the control information, if so, the control wing brake is opened, and if not, the control wing brake is not opened and a brake prohibiting prompt is output, so that the safety of the brake personnel is improved.

In yet another alternative embodiment, the mobile management terminal may first detect whether a switching-off instruction triggered by a user authorized to use the mobile management terminal is received, and when the switching-off instruction is detected to be received, control information is directly generated, so that the corresponding wing gate is controlled to be opened by the wing gate management control device, that is, the user of the mobile management terminal may first determine whether the target person is a person authorized to pass the gate, if so, the user of the mobile management terminal may directly trigger the switching-off instruction, and it needs to be noted that, in this case, the mobile management terminal may collect identity information of the target person or may not collect identity information of the target person. Or after the mobile management terminal acquires the identity information of the target person, the mobile management terminal can judge whether the target person is the person authorized to pass the gate or not based on the identity information of the target person and the prestored authorized person information of the gate, and if the target person is the person authorized to pass the gate, the mobile management terminal directly generates control information so that the corresponding gate opening of the gate is controlled by the gate management control equipment.

The person authorized to pass the gate can be a person authorized to pass the gate for a long time, or a person authorized to pass the gate in a target time period, wherein the target time period comprises the current moment.

Further optionally, if the mobile management terminal collects identity information of the target person and the control information generated by the mobile management terminal is control information of an instruction type, the control information of the instruction type may include the identity information of the target person and authorization information corresponding to the identity information of the target person (such as an authorization time period, an authorization number of times, or an authorization number of times in the authorization time period), or the mobile management terminal may directly send the identity information of the target person and the authorization information corresponding to the identity information of the target person to the thyristor management control device, where the authorization information corresponding to the identity information of the target person may be understood as valid information of the control information, so that the thyristor management control device may directly determine whether the authorization information corresponding to the identity information of the target person is valid when the identity information of the target person is subsequently identified, and if so, the thyristor management control device may directly control the opening of the thyristor so that the target person passes.

Further optionally, if the mobile management terminal collects identity information of the target person and the control information generated by the mobile management terminal is code pattern type control information, after the code pattern type control information is generated, the mobile management terminal directly sends the code pattern type control information to a user terminal of the target person or prints the code pattern type control information out and gives the code pattern type control information to the target person, where the code pattern type control information may include authorization information of the code pattern type control information, and the authorization information may include an authorization time period of the code pattern type control information, an authorization number of times of the code pattern type control information, or an authorization number of times of the code pattern type control information in the authorization time period, so that the thyristor control device can directly determine whether corresponding authorization information is valid when the thyristor control device subsequently recognizes the code pattern type control information, and if so, the thyristor control device can directly control the thyristor to open so as to enable the target person to pass.

Therefore, the optional embodiment can enable the mobile management terminal to perform right confirmation and control the automatic release of the wing brake under the condition that the target person is the person authorized to pass the brake, namely, the mobile management terminal can realize that the right is confirmed once and the wing brake management control equipment is released for a plurality of times, and the generation times of control information are reduced.

In yet another alternative embodiment, the wing gate control method based on the mobile management terminal may further include the following operations:

after detecting that the corresponding wing brake is controlled to be opened by the wing brake management control equipment according to the control information, the mobile management terminal sends an elevator control request to the elevator control system so that the elevator control system controls the corresponding elevator to move to the floor corresponding to the wing brake and controls the elevator door of the elevator to be opened when the elevator moves to the floor corresponding to the wing brake.

Optionally, after the corresponding wing gate is controlled to be opened by the wing gate management control device according to the control information, a prompt message may be sent to the mobile management terminal, where the prompt message is used to prompt that the control information has been successfully responded. The elevator control request can comprise the identification of the thyristor management control device and/or the identification of the wing brake which is controlled to be started by the thyristor management control device according to the control information. And the elevator control system controls the corresponding elevator to move to the floor corresponding to the wing gate and controls the elevator door of the elevator to open when the elevator moves to the floor corresponding to the wing gate, and can comprise:

the elevator control system determines floors corresponding to the wing brake, and determines the current running state of all target elevators controlled by the elevator control system, the floor where each target elevator is located and the floors to be parked, which are not responded by each target elevator, wherein the target elevators are elevators corresponding to the entrances and exits of the wing brake in all elevators controlled by the elevator control system, and the current running state of the target elevators can comprise the running direction of the target elevators and can further comprise the current load state of the target elevators;

The elevator control system predicts the running time required by each target elevator to run to the floor corresponding to the wing gate and the load state when each target elevator runs to the floor corresponding to the wing gate based on the floor corresponding to the wing gate, the current running state of each target elevator, the floor where each target elevator is located and the floor to be parked, where each target elevator is not responded, and the load state when each target elevator runs to the floor corresponding to the wing gate is selected from all target elevators to represent that the target elevator still allows at least one person to enter and run to one of the target elevators with the shortest running time when the target elevator runs to the floor corresponding to the wing gate, and controls one of the target elevators to move to the floor corresponding to the wing gate and controls the elevator door of the one of the target elevators to open when the one of the target elevators moves to the floor corresponding to the wing gate.

It can be seen that this alternative embodiment can also automatically communicate with the elevator control system after the control information generated by the mobile management terminal is successfully responded to, so as to initiate an elevator riding request in advance instead of the person passing through the wing gate, thereby being beneficial to reducing the time for the person passing the gate to wait for the elevator and enriching the functions of the mobile management terminal.

Therefore, the implementation of the wing gate control method based on the mobile management terminal described in fig. 1 can control the opening of the wing gate through the control information automatically generated by the mobile management terminal, so that related personnel can pass through the wing gate in time without registering and/or checking by manpower, the efficiency of passing through the wing gate is improved, and the occurrence of the condition of access congestion caused by the failure to pass through the wing gate in time is reduced.

Example two

Referring to fig. 2, fig. 2 is a flow chart of another wing gate control method based on a mobile management terminal according to an embodiment of the invention. The method shown in fig. 2 is illustrated by taking a scenario (such as an office building, etc.) that a wing gate is disposed at an entrance guard passage as an example. As shown in fig. 2, the wing gate control method based on the mobile management terminal may include the following operations:

201. the mobile management terminal collects the identity information of the target personnel who need to pass through the wing gate.

202. After the identity information is acquired, the mobile management terminal sends a visitor confirmation request comprising the identity information to a visitor reservation management platform.

In the embodiment of the invention, the mobile management terminal is connected with the visitor reservation management platform in advance, and the visitor reservation management platform is a visitor reservation management platform corresponding to an application scene of the mobile management terminal. The visitor reservation management platform stores relevant reservation information of reserved visitors, and the relevant reservation information of reserved visitors can at least comprise names and reservation time, and optionally, at least one of certificate numbers, reservation objects corresponding to reserved visitors and reservation events.

203. And the visitor reservation management platform judges whether the target person is a reserved visitor person according to the visitor confirmation request, and obtains a judgment result.

204. And the visitor reservation management platform returns a visitor confirmation response aiming at the visitor confirmation request according to the judgment result.

205. The mobile management terminal receives the visitor confirmation response, and determines whether the visitor confirmation response indicates that the target person is the reserved visitor person, when the determination result of step 205 is yes, the execution step 207 is triggered, and when the determination result of step 205 is no, the current flow may be ended, or the execution step 206 may be triggered.

In the embodiment of the present invention, when the determination result in step 205 is yes, the mobile management terminal confirms that the target person is a reserved visitor, and optionally, the visitor confirmation response may include relevant reservation information of the target person.

206. The mobile management terminal stores the identity information.

207. The mobile management terminal generates control information, wherein the control information is used for indicating the thyristor control equipment to open the wing brake.

In the embodiment of the present invention, the mobile management terminal generates the control information, which may include:

the mobile management terminal generates control information according to the application scene of the mobile management terminal and/or the control information type selected by the manager of the mobile management terminal.

208. The mobile management terminal sends control information to the thyristor management control device.

209. The control device of the thyristor management receives the control information and controls the corresponding wing brake to be opened according to the control information so as to enable the target personnel to pass through.

In an alternative embodiment, when the result of the determination in step 205 is no, after performing the finishing step 206 and before performing step 207, the mobile management terminal may further perform the following operations:

the mobile management terminal obtains the passing gate destination of the target person, determines an access object to be accessed by the target person and the contact way (such as a telephone number and an access control extension number) of the access object according to the content included in the passing gate destination, and sends an access indication request to the access object based on the contact way so as to enable the access object to indicate whether the target person is allowed to pass gate, wherein the access indication request can comprise the identity information of the target person, the passing gate destination comprises the object identification of the access object, and optionally, the access object can further comprise the floor identification;

the mobile management terminal detects whether an access instruction response returned by the access object for instructing the target person to pass the gate is received, and when the access instruction response is received, the step 207 is triggered and executed. Therefore, the optional embodiment can generate the control information under the condition that the target person is not the reserved visitor person and the access object of the target person allows the target person to enter, so that the mobile management terminal is more intelligent, and the management security of the mobile management terminal is improved.

In another alternative embodiment, after the completion of step 207 and before the execution of step 208, the wing gate control method based on the mobile management terminal may further include the following operations:

the mobile management terminal determines the type of the control information, and when the type of the control information is an instruction type, the mobile management terminal triggers and executes the operation of sending the control information to the thyristor management control device.

Further optionally, the wing gate control method based on the mobile management terminal may further include the following operations:

when the type of the control information is a code pattern type (such as a two-dimension code type), the mobile management terminal sends the control information (such as a two-dimension code for opening a gate) to the determined user terminal of the target person, or sends a printing instruction comprising the control information to a printing terminal which establishes a connection relationship in advance so as to instruct the printing terminal to print the control information, for example, the two-dimension code for opening a gate is printed into a paper two-dimension code. Optionally, the identity information may further include a contact manner of the target person, so that the mobile management terminal determines a user terminal of the target person.

It can be seen that, this optional embodiment can implement different control modes according to different types of information, when the type of control information is instruction type, has realized the wireless control of mobile management terminal to the thyristor management control equipment, when the type of control information is the code pattern type, has realized that the target personnel passes through the direct control of control information to the thyristor management control equipment to the time of the reasonable arrangement of target personnel through the wing floodgate.

Still further alternatively, when the type of the control information is a code pattern type, or when the target person is a temporary gate passing person (such as a takeaway person) and the type of the control information is a code pattern type, the control information may further include a start valid time and a valid duration of the control information, where the start valid time is a time when the mobile management terminal sends a print instruction to a user terminal of the target person or to the print terminal. Wherein, after the thyristor control device detects the presence of the control information, the thyristor control device may further perform the following operations:

the control device calculates whether the duration between the time when the control information is detected and the starting effective time included in the control information is longer than the effective duration of the control information, if not, the control device executes the corresponding opening of the wing brake according to the control information so as to enable the target personnel to pass through;

if the information is larger than the preset value, the thyristor management control equipment outputs invalid prompt information, and the invalid prompt information is used for prompting that the control information is invalid.

It can be seen that this alternative embodiment can also set the effective duration of the control information, ensuring that the control information is valid for the effective duration.

Therefore, the implementation of the wing gate control method based on the mobile management terminal described in fig. 2 can control the opening of the wing gate through the control information automatically generated by the mobile management terminal, so that the related personnel can pass through the wing gate in time without registering and/or checking by manpower, the efficiency of passing through the wing gate is improved, and the occurrence of the condition of access congestion caused by the failure to pass through the wing gate in time is reduced. In addition, whether the related personnel are reserved personnel can be judged through interaction with the visitor reservation management platform, if yes, the wing gate is controlled to be opened through the wing gate management control equipment, and if not, the identity information of the related personnel can be stored firstly, then the wing gate is controlled to be opened through the wing gate management control equipment, and the stored identity information is used for subsequent review.

Example III

Referring to fig. 3, fig. 3 is a schematic structural diagram of a wing gate control system based on a mobile management terminal according to an embodiment of the present invention. As shown in fig. 3, the mobile management terminal-based wing gate control system may include a mobile management terminal 30 and a wing gate management control device 40, where the mobile management terminal 30 includes an acquisition module 301 and a first generation module 302, and the wing gate management control device 40 includes a first detection module 401 and a wing gate control module 402, where:

The acquisition module 301 is configured to acquire identity information of a target person who needs to pass through the wing gate, where the identity information at least includes facial feature information of the target person and/or certificate information of the target person.

The first generating module 302 is configured to generate control information after the collecting module 301 collects the identity information, where the control information is used to instruct the thyristor control device to open the wing brake.

The first detection module 401 is configured to detect whether control information exists.

The wing gate control module 402 is configured to control, when the first detection module 401 detects that there is control information, the corresponding wing gate to open according to the control information.

In an alternative embodiment, as shown in fig. 4, the mobile management terminal 30 further comprises a first communication module 303, and the thyristor control device 40 further comprises a second communication module 403, wherein:

the first communication module 303 is configured to send the control information to the thyristor control device 40 when the type of the control information is an instruction type.

The second communication module 403 is configured to receive control information sent by the mobile management terminal 30.

The first detection module 401 detects whether there is control information specifically:

the first detection module 401 detects whether the second communication module 403 receives the control information, and confirms that the control information exists when detecting that the second communication module 403 receives the control information.

In another alternative embodiment, the first detection module 401 may also be configured to detect whether there is an abnormality in the wing brake controlled by the thyristor control device 40. And as shown in fig. 4, the thyristor control device 40 further includes:

a seventh communication module 404, configured to send an abnormality alert message to the mobile management terminal 30 when the first detection module 401 detects that the damper door controlled by the damper management control device 40 is abnormal, where the abnormality alert message is used to indicate that the damper door controlled by the damper management control device 30 is abnormal and the abnormality alert message includes a damper door identifier of the abnormal damper door.

As shown in fig. 4, the mobile management terminal 30 further includes:

the eighth communication module 304 is configured to receive the abnormality alert message sent by the thyristor control device 40.

The first output module 305 is configured to output an exception handling prompt according to the exception prompt message, where the exception handling prompt is configured to prompt a manager of the mobile management terminal 30 to view an exception wing gate corresponding to the wing gate identifier.

In yet another alternative embodiment, the control information may include identity information, as shown in fig. 4, and the thyristor control device 40 further includes:

the fourth determining module 405 is configured to determine whether the target person is a member of the pre-acquired blacklist according to the identity information included in the control information received by the second communication module 403 after the first detecting module 401 detects that the control information exists, and trigger the wing gate control module 402 to execute the above-mentioned operation of controlling the corresponding wing gate to open according to the control information when it is determined that the target person is not a member of the blacklist. The blacklist may be obtained by the thyristor management control device 40 from at least one third party platform of the ticket purchasing platform, the loyalty platform and the public security identity verification platform, and optionally, the mobile management terminal-based wing gate control system may include at least one third party platform of the ticket purchasing platform, the loyalty platform and the public security identity verification platform, which is not shown in fig. 4.

The second output module 406 is configured to output a gate-crossing prohibition prompt when the fourth determination module 405 determines that the target person is a member in the blacklist.

In yet another alternative embodiment, the first communication module 303 is further configured to send the control information to the determined user terminal of the target person when the type of the control information is a code pattern type, or send a print instruction including the control information to a print terminal that establishes a connection in advance, so as to instruct the print terminal to print the control information.

In this further alternative embodiment, as shown in fig. 5, the mobile management terminal 30 further comprises a third communication module 306 and a first determination module 307, and the system further comprises a visitor reservation management platform 50 comprising a second determination module 501 and a fourth communication module 502, wherein:

and a third communication module 306, configured to send a visitor confirmation request including the identity information to the visitor reservation management platform 50 after the acquisition module 301 acquires the identity information.

The fourth communication module 501 is configured to receive a visitor confirmation request sent by the mobile management terminal 30.

And the second judging module 502 is configured to judge whether the target person is a reserved visitor person according to the visitor confirmation request, and obtain a judgment result.

The fourth communication module 501 is further configured to return a guest confirmation response to the guest confirmation request according to the determination result.

The third communication module 306 is further configured to receive a visitor confirmation response fed back by the visitor reservation management platform 50.

A first determining module 307 is configured to determine whether the visitor confirmation response indicates that the target person is a reserved visitor person.

The first generating module 302 is specifically configured to:

after the acquisition module 301 acquires the identity information and when the first judgment module 307 judges that the visitor confirmation response indicates that the target person is a reserved visitor person, control information is generated.

Still further alternatively, as shown in fig. 5, the mobile management terminal 30 may further include:

a storage module 308, configured to store the identity information when the first determination module 307 determines that the visitor confirmation response does not indicate that the target person is a reserved visitor person.

The second generating module 309 is configured to generate the control information when the first determining module 307 determines that the guest confirmation response does not indicate that the target person is a reserved guest person and after the storage module 309 stores the identity information.

In yet another alternative embodiment, as shown in fig. 5, the mobile management terminal 30 may further include:

And an obtaining module 310, configured to obtain the gate passing purpose of the target person when the first judging module 307 judges that the visitor confirmation response does not indicate that the target person is the reserved visitor person.

The determining module 311 is configured to determine, according to the content included in the passing purpose acquired by the acquiring module 310, an access object that the target person needs to access and a contact manner of the access object.

And a fifth communication module 312, configured to send an access indication request to the access object through the contact manner, so that the access object indicates whether the target person is allowed to pass the gate, and the access indication request includes identity information of the target person.

The second detection module 313 is further configured to detect whether the seventh communication module 312 receives an access indication response returned by the access object and indicating that the target person is allowed to pass the gate.

The second generating module 309 is specifically configured to generate the control information when the first determining module 307 determines that the visitor confirmation response does not indicate that the target person is a reserved visitor person, after the storage module 308 stores the identity information, and when the second detecting module 313 detects that the access indication response is received.

In yet another alternative embodiment, the mobile management terminal 30 further includes:

The third detection module 314 is configured to detect whether the thyristor controlled device 40 controls the corresponding flap gate to open according to the control information.

And a sixth communication module 315, configured to send an elevator control request to an elevator control system after the third detection module 314 detects that the corresponding wing gate is controlled to open by the wing gate management control device 40 according to the control information, so that the elevator control system controls the corresponding elevator to move to the floor corresponding to the wing gate and controls the elevator door of the elevator to open when the elevator moves to the floor corresponding to the wing gate.

Therefore, the implementation of the wing gate control system based on the mobile management terminal described in any one of fig. 3-5 can control the opening of the wing gate through the control information automatically generated by the mobile management terminal, so that related personnel can pass through the wing gate in time without registering and/or checking by manpower, the efficiency of passing through the wing gate is improved, and the occurrence of access congestion caused by the failure of passing through the wing gate in time is reduced.

The apparatus embodiments described above are merely illustrative, wherein the modules illustrated as separate components may or may not be physically separate, and the components shown as modules may or may not be physical, i.e., may be located in one place, or may be distributed over a plurality of network modules. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. Those of ordinary skill in the art will understand and implement the present invention without undue burden.

From the above detailed description of the embodiments, it will be apparent to those skilled in the art that the embodiments may be implemented by means of software plus necessary general hardware platforms, or of course by means of hardware. Based on such understanding, the foregoing technical solutions may be embodied essentially or in part in the form of a software product that may be stored in a computer-readable storage medium including Read-Only Memory (ROM), random-access Memory (Random Access Memory, RAM), programmable Read-Only Memory (Programmable Read-Only Memory, PROM), erasable programmable Read-Only Memory (Erasable Programmable Read Only Memory, EPROM), one-time programmable Read-Only Memory (OTPROM), electrically erasable programmable Read-Only Memory (EEPROM), compact disc Read-Only Memory (Compact Disc Read-Only Memory, CD-ROM) or other optical disc Memory, magnetic disc Memory, tape Memory, or any other medium that can be used for computer-readable carrying or storing data.

Finally, it should be noted that: the embodiment of the invention discloses a wing gate control method and a wing gate control system based on a mobile management terminal, which are disclosed as preferred embodiments of the invention, and are only used for illustrating the technical scheme of the invention, but not limiting the technical scheme; although the invention has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art will understand that; the technical scheme recorded in the various embodiments can be modified or part of technical features in the technical scheme can be replaced equivalently; such modifications and substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims

1. A wing gate control method applied to a visitor access scene, the method comprising:

When the control information is detected, the thyristor management control equipment controls the corresponding wing brake to be opened according to the control information so as to enable the target personnel to pass through;

wherein, after the acquisition of the identity information is completed and before the mobile management terminal generates the control information, the method further comprises:

and the mobile management terminal receives the visitor confirmation response, and when the visitor confirmation response indicates that the target person is the reserved visitor person, the operation of generating the control information is triggered to be executed.

2. The wing gate control method applied to the visitor access scene as claimed in claim 1, wherein after the mobile management terminal generates the control information, the method further comprises:

The thyristor management control device receives the control information.

3. The wing gate control method applied in a guest access scenario of claim 1, the method further comprising:

when the target person is not the reserved visitor person, the mobile management terminal acquires the gate passing purpose of the target person, and determines an access object which the target person needs to access and a contact way of the access object according to the content included in the gate passing purpose;

wherein after the identity information is stored, the method further comprises:

4. A wing gate control method for use in a guest access scenario according to any one of claims 1-3, the method further comprising:

5. A method of controlling a gatekeeper based on a gatekeeper access scenario according to any one of claims 1-3, wherein the control information includes the identity information, and after detecting the control information and before the gatekeeper management control device controls the corresponding gatekeeper to open according to the control information, the method further comprising:

6. The utility model provides a be applied to wing floodgate control system in visitor's visit scene, its characterized in that, the system includes mobile management terminal, wing management control device and visitor's appointment management platform, mobile management terminal includes collection module, first generation module, third communication module and first judgement module, wing management control device includes first detection module and wing floodgate control module, visitor appointment management platform includes second judgement module and fourth communication module, wherein:

the first generation module is used for generating control information when the first judgment module judges that the visitor confirmation response indicates that the target person is the reserved visitor person, and the control information is used for indicating the thyristor control equipment to open a wing gate;

the wing gate control module is used for controlling the corresponding wing gate to be opened according to the control information when the first detection module detects the control information.