CN110910524A - Automatic sign-in system, method, device, electronic equipment and computer storage medium - Google Patents

Abstract

The embodiment of the invention provides an automatic sign-in system, a method, a device, electronic equipment and a computer storage medium, wherein the system can comprise a sign-in server, user data acquisition equipment and a user terminal; the user data acquisition equipment is in communication connection with the user terminal in a first wireless communication mode; the user data acquisition equipment is used for acquiring user information of the user terminal when the user terminal is scanned, wherein the user information comprises sign-in information and identity information of a user using the user terminal, and the user information is sent to the sign-in server; the sign-in server is used for carrying out identity authentication on the user based on the acquired identity information and obtaining sign-in data of the user based on the sign-in information when the user passes the identity authentication. Through the scheme, the user using the user terminal needs to be subjected to identity verification based on the identity information in the automatic sign-in process based on the sign-in information, so that cheating sign-in can be prevented, and sign-in data are more accurate.

Description

Automatic sign-in system, method, device, electronic equipment and computer storage medium

Technical Field

The invention relates to the technical field of wireless communication, in particular to an automatic sign-in method, an automatic sign-in device, electronic equipment and a computer storage medium.

Background

In the prior art, aiming at places with more people and more complex stream, an automatic sign-in mode based on a user terminal is usually provided for users, namely, the users automatically sign in after entering a sign-in area through the user terminals of the users, and the users do not need to carry out related sign-in operations. The check-in mode is realized automatically based on the terminal information of the user terminal, and the terminal information is used for identifying the identity of the user terminal. Therefore, based on the check-in mode, if one user holds a plurality of user terminals to check in at the same time, the automatic check-in mode can be realized. Therefore, based on the check-in mode in the prior art, the user can realize cheating check-in, and further the check-in result is inaccurate.

Disclosure of Invention

The embodiments of the present invention mainly aim to provide an automatic check-in system, method, device, electronic device and computer storage medium, which can prevent cheating check-in, thereby improving the accuracy of check-in results.

In one aspect, an embodiment of the present invention provides an automatic check-in system, where the system includes:

the system comprises a sign-in server, user data acquisition equipment and a user terminal; the user data acquisition equipment is in communication connection with the user terminal in a first wireless communication mode, and the user data acquisition equipment is in communication connection with the sign-in server in a second wireless communication mode;

the user data acquisition equipment is used for acquiring user information of the user terminal when the user terminal is scanned, wherein the user information comprises sign-in information and identity information of a user corresponding to the user terminal, and the user information is sent to the sign-in server;

the sign-in server is used for carrying out identity authentication on the user based on the received identity information and obtaining sign-in data of the user based on the sign-in information when the user passes the identity authentication.

In one aspect, an embodiment of the present invention provides an automatic check-in method, where the method includes:

when the user terminal is scanned, user information of the user terminal is obtained, wherein the user information comprises sign-in information and identity information of a user corresponding to the user terminal;

and sending the user information to a check-in server so that the check-in server performs identity authentication on the user based on the acquired identity information, and obtaining check-in data of the user based on the check-in information when the user passes the identity authentication.

In one aspect, an embodiment of the present invention provides an automatic check-in method, where the method includes:

acquiring user information of a user terminal, wherein the user information is acquired when user data acquisition equipment scans the user terminal, and comprises sign-in information and identity information of a user corresponding to the user terminal;

and performing identity authentication on the user based on the identity information, and obtaining the sign-in data of the user based on the sign-in information when the user passes the identity authentication.

In one aspect, the present invention provides an automatic check-in apparatus, comprising:

the first user information acquisition module is used for acquiring user information of the user terminal when the user terminal is scanned, wherein the user information comprises sign-in information and identity information of a user corresponding to the user terminal;

the first check-in module is used for sending the user information to the check-in server so that the check-in server can carry out identity authentication on the user based on the acquired identity information, and when the user passes the identity authentication, check-in data of the user is obtained based on the check-in information.

In one aspect, the present invention provides an automatic check-in apparatus, comprising:

the second user information acquisition module is used for acquiring user information of the user terminal, wherein the user information is acquired from the user terminal when the user data acquisition equipment scans the user terminal, and comprises sign-in information and identity information of a user corresponding to the user terminal;

and the second check-in module is used for carrying out identity authentication on the user based on the identity information and obtaining check-in data of the user based on the check-in information when the user passes the identity authentication.

In one aspect, an embodiment of the present invention provides an electronic device, where the electronic device includes a processor and a memory; the memory has stored therein readable instructions which, when loaded and executed by the processor, carry out the method as set out in the preceding.

In one aspect, embodiments of the present invention provide a computer-readable storage medium, in which readable instructions are stored, and when the readable instructions are loaded and executed by a processor, the method as described above is implemented.

The technical scheme provided by the embodiment of the invention has the following beneficial effects: the scheme of the automatic sign-in system, the method, the device, the electronic equipment and the computer storage medium provided by the embodiment of the invention can acquire the user information of the user terminal when the user data acquisition equipment scans the user terminal, wherein the user information comprises sign-in information and the identity information of a user corresponding to the user terminal, and the user information is sent to the sign-in server; before automatic sign-in is carried out based on the sign-in information, the identity of the user using the user terminal is verified based on the identity information, and the sign-in of the user can be completed only when the user passes the identity verification, so that the user can only sign in based on the user terminal of the user and cannot cheat, and the sign-in data are more accurate.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments of the present invention will be briefly described below.

FIG. 1 is a schematic structural diagram of an automatic check-in system according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of an automatic check-in system according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of an automatic check-in system according to an embodiment of the present invention;

FIG. 4 is a flow chart illustrating an automatic check-in method according to an embodiment of the present invention;

FIG. 5 is a flow chart illustrating an automatic check-in method according to an embodiment of the present invention;

FIG. 6 is a schematic structural diagram of an automatic check-in device according to an embodiment of the present invention;

FIG. 7 is a schematic structural diagram of an automatic check-in device according to an embodiment of the present invention;

fig. 8 shows a schematic structural diagram of an electronic device according to an embodiment of the present invention.

Detailed Description

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

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative only and should not be construed as limiting the invention.

As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. It will be understood that when an element is referred to as being "connected" or "coupled" to another element, it can be directly connected or coupled to the other element or intervening elements may also be present. Further, "connected" or "coupled" as used herein may include wirelessly connected or wirelessly coupled. As used herein, the term "and/or" includes all or any element and all combinations of one or more of the associated listed items.

For better understanding and description of the embodiments of the present invention, some technical terms used in the embodiments of the present invention will be briefly described below.

A base station: a transmitting base station based on the bluetooth protocol.

Intelligent wearable equipment: terminal equipment based on bluetooth protocol and zigBee agreement, for example, bracelet, wrist-watch, worker's card, school badge etc..

APP (Application): APP refers to a third-party application installed on a smartphone, which may provide different functions for a user.

Intelligent wearable equipment: the wearable device is a general name for intelligently designing daily wearing and developing wearable devices such as watches, bracelets, glasses, clothes and the like by applying a wearable technology.

In the prior art, the following schemes can realize automatic sign-in:

the first mode is as follows: the automatic sign-in system comprises a mobile phone, an embedded base station, an extranet server communicated with the embedded base station and a database connected with the extranet server; the mobile phone comprises a mobile phone end control unit and a Bluetooth module connected with the mobile phone end control unit, the embedded base station comprises the Bluetooth module, and the automatic sign-in system can enable the mobile phone with the Bluetooth function to automatically sign in a Bluetooth communication mode.

The second mode is as follows: the automatic check-in method comprises the following steps: (a) a mobile terminal receives different position information sent by a plurality of wireless transmitting devices arranged at different positions through wireless broadcasting; (b) and the mobile terminal reports information used for judging whether to record the account corresponding to the mobile terminal for signing once by the signing server. The position information is determined based on a global positioning system and Bluetooth, and the automatic sign-in of the mobile terminal can be realized through the scheme.

The third mode is as follows: the Bluetooth attendance device comprises an attendance server, an attendance client and a cloud platform storage server; the attendance server is internally provided with a control chip, a Bluetooth receiver, a storage module and a wireless transmission module, wherein the input end of the control chip is connected with the Bluetooth receiver and used for receiving data transmitted by the Bluetooth receiver, and the output end of the control chip is connected with the storage module and the wireless transmission module; a Bluetooth transmitter is arranged in the attendance checking client and used for transmitting data to a Bluetooth receiver of the attendance checking server; the cloud platform storage server is internally provided with a wireless transmission module and a storage module for receiving data sent by the attendance server and storing the data in the storage module.

The above three ways can realize automatic check-in, but still have the following problems:

the first mode is as follows: the method and the device have the advantages that the Bluetooth communication mode is utilized to carry out large-range check-in, the identity authentication is not carried out on the user, the user can carry out cheating check-in, and in addition, the check-in type does not exist in the scheme.

The second mode is as follows: the check-in mode of global positioning system and Bluetooth comprehensive positioning is utilized, the positioning information depends on the global positioning system and the Bluetooth, the check-in is carried out through the scheme, and the identity authentication is not carried out on the user, so that the user can carry out cheating check-in; in the scheme, the check-in type of check-in is not available; in addition, the global positioning system in the mobile terminal consumes a lot of power during the operation.

The third mode is as follows: the attendance server and the attendance client are used for carrying out Bluetooth connection, the cloud platform stores data processing data, and an attendance function of automatic check-in is completed.

Aiming at the technical problems in the prior art, the embodiment of the invention provides an automatic sign-in system which can verify the identity of a user corresponding to a user terminal when signing in, prevent the user from cheating and signing in and improve the accuracy of signing in. In addition, when the user terminal signs in, the check-in type is determined based on the check-in information of the user terminal, so that the corresponding check-in type can be obtained every time the user terminal signs in. According to the scheme of the invention, when the communication condition corresponding to the first wireless communication mode meets the first preset condition, the first wireless communication mode is switched to the third wireless communication mode, and when the communication condition corresponding to the third wireless communication mode meets the second preset condition, the third wireless communication mode is switched to the first wireless communication mode, so that the check-in can be ensured to be normal when the communication condition changes, and the check-in accuracy is ensured.

The following describes the technical solution of the present invention and how to solve the above technical problems with specific examples. The following several specific embodiments may be combined with each other, and details of the same or similar concepts or processes may not be repeated in some embodiments. Embodiments of the present invention will be described below with reference to the accompanying drawings.

Fig. 1 shows a schematic structural diagram of an automatic check-in system provided by the present invention, such as an automatic check-in system 10 shown in the figure, which may include a check-in server 11, a user data acquisition device 12 and a user terminal 13; the user data acquisition equipment 12 is in communication connection with the user terminal 13 in a first wireless communication mode, and the user data acquisition equipment 12 is in communication connection with the check-in server 11 in a second wireless communication mode;

the user data acquisition device 12 is configured to, when scanning the user terminal 13, acquire user information of the user terminal 13, where the user information includes sign-in information and identity information of a user corresponding to the user terminal 13, and send the user information to the sign-in server 11; it can be understood that the identity information of the user corresponding to the user terminal 13 is the identity information of the user using the user terminal 13;

the sign-in server 11 is configured to authenticate the user based on the received identity information, and obtain sign-in data of the user based on the sign-in information when the user passes the authentication.

Wherein, the user data collecting device 12 scans the user terminal 13 in its signal coverage area, and the user data collecting device 12 may be a data collecting device with wireless communication function, such as a base station, a gateway, etc. The user terminal 13 may be a smart terminal device of a user, such as a mobile phone, a bracelet, a watch, and the like. The user terminal 13 and the user data collecting device 12 are connected through a first wireless communication mode, which may be a short-range wireless communication mode, such as bluetooth communication.

It can be understood that the communication mode between the user terminal 13 and the user data collecting device 12 is a first wireless communication mode, and both the user terminal 13 and the user data collecting device 12 have a wireless communication module of the first wireless communication mode, so as to implement wireless communication between the user terminal 13 and the user data collecting device 12. Similarly, the user data collection device 12 is in communication connection with the check-in server 11 through the second wireless communication mode, and both the user data collection device 12 and the check-in server 11 have the wireless communication module of the first wireless communication mode, so as to realize wireless communication between the user data collection device 12 and the check-in server 11.

In order to enable the user data acquisition device 12 to scan the user terminal 13, the user terminal 13 needs to be always in a broadcast state, and when the user terminal 13 is scanned, the user information of the user terminal 13 can be acquired through the broadcast of the user terminal 13 without any operation by a user. If the first wireless communication mode is bluetooth communication, the bluetooth of the user terminal 13 may be always on in the broadcast state.

The check-in information refers to information for checking in, and may include terminal information of the user terminal 13, where the terminal information is used to identify the user terminal 13, and the terminal information may be an equipment identifier of the user terminal 13, such as an equipment model. The identity information is information for identifying a user identity of a user corresponding to the user terminal 13, and is information acquired by the user terminal 13, for example, biological information that can identify the user identity, such as face information, fingerprint information, heart rate information, and the like. The sign-in information may further include related information of the user, such as a study number, a job number, an account number, and the like of the user, and the identity of the user may be further verified through the related information of the user.

When the user data collecting device 12 scans the user terminal 13, the user terminal 13 may actively send the user information of the user terminal 13 to the user data collecting device 12, or the user data collecting device 12 may actively acquire the user information of the user terminal 13 from the user terminal 13.

When the sign-in server 11 performs identity authentication on the user based on the acquired identity information, the obtained identity information sent by the user terminal 13 and the identity information in the sign-in server 11 may be specifically stored in the sign-in server 11 in the following manner, and if the obtained identity information is matched with the identity information in the sign-in server 11, it indicates that the identity authentication is passed, otherwise, it indicates that the identity authentication is not passed.

When the identity authentication is passed, the automatic sign-in can be completed, otherwise, if the identity authentication is not passed, the identity authentication can not be performed. After the check-in is completed, check-in data can be obtained, and relevant information of the check-in at this time, such as check-in time and relevant information (school number, job number and the like) of a check-in person can be recorded in the check-in data.

The automatic check-in system can be suitable for places with dense crowds, such as schools, office buildings, malls, prisons and the like, and automatic check-in of each place can be realized through the scheme.

By the scheme of the invention, when the user data acquisition equipment 12 scans the user terminal 13, the user information of the user terminal 13 can be acquired, the user information comprises the check-in information and the identity information of the user corresponding to the user terminal 13, and the user information is sent to the check-in server 11; before automatic sign-in is carried out based on the sign-in information, the identity of the user terminal 13 is verified based on the identity information, and the sign-in of the user can be completed only when the user passes the identity verification, so that the user can only sign in based on the user terminal 13 of the user and cannot cheat, and the sign-in data is more accurate.

In an alternative, the check-in server 11 may be a cloud server.

In an alternative scheme of the invention, the user terminal 13 comprises intelligent wearable equipment, the intelligent wearable equipment comprises a biological identification module, the biological identification module is used for detecting biological information of a user wearing the intelligent wearable equipment and sending the biological information to the sign-in server 11, and the biological information comprises identity information;

the sign-in server 11 is further configured to generate prompt information when it is detected that the user does not wear the smart wearable device based on the biological information, and send the prompt information to the user terminal 13.

Before identity verification is carried out on a user, whether the user wears the intelligent wearable device or not can be detected through the intelligent wearable device, if the user wears the intelligent wearable device, biological information of the user can be detected through a biological identification module in the intelligent wearable device, otherwise, if the user does not wear the intelligent wearable device, the biological information of the user cannot be detected through the biological identification module, at the moment, the biological information acquired by the check-in server 11 can be set information, and the set information represents that the biological information of the user is not detected. If the user does not wear the intelligent wearable device, the identity information of the user cannot be acquired, so that identity authentication cannot be performed, automatic sign-in cannot be completed, and at the moment, the user can be prompted to not wear the intelligent wearable device through prompt information. If it is detected that the user wears the intelligent wearable device, automatic sign-in can be completed based on sign-in information and identity information of the user.

In an alternative of the present invention, the prompt message is at least one of a vibration message, a text message, or a sound message.

The prompt message may be a sound message, a text message, a vibration message, etc., and the specific representation form of the prompt message is not limited in the scheme of the present invention. Specifically, the prompt information may be configured based on a function module in the user terminal 13, for example, if a vibration device is provided in the user terminal 13, the prompt information may be vibration information, if a display screen is provided in the user terminal 13, the prompt information may be a display screen, and if a sound player is provided in the user terminal 13, the prompt information may be sound information.

In an alternative of the present invention, the biometric module includes a heart rate sensor, and the identity information is heart rate information detected by the heart rate sensor.

Wherein, biological identification module is used for detecting user's biological information, but including the identity information of sign user identity among the biological information, and heart rate sensor can detect the heart rate information who obtains the user, and everyone's heart rate information is different, then identity information can be heart rate information.

The heart rate sensor can detect heart rate information of the user when the user wears the intelligent wearable device, and therefore whether the user wears the intelligent wearable device or not can be detected through the heart rate sensor. Infrared sensor and temperature sensor also can detect out whether the user wears intelligent wearing equipment, consequently, the biological identification module who is used for detecting whether the user wears intelligent wearing equipment can be at least one in heart rate sensor, infrared sensor, the temperature sensor.

In an alternative scheme of the present invention, the user data collecting device 12 includes a first collecting device and a second collecting device, the communication coverage area of the first collecting device is an outside check-in area, and the communication coverage area of the second collecting device is an inside check-in area;

the first acquisition equipment is used for acquiring first sign-in information of the user terminal 13 when the user terminal 13 is scanned in the external sign-in area, and sending the first sign-in information to the sign-in server 11;

the second acquisition device is used for acquiring user information of the user terminal 13 when the user terminal 13 is scanned in the check-in area, wherein the user information comprises second check-in information and sending the user information to the check-in server 11;

the check-in server 11 is further configured to determine a check-in type of the user based on the first check-in information and the second check-in information, where the check-in type is an entering check-in or leaving check-in.

The check-in can be divided into entering check-in and leaving check-in, the user enters the inner check-in area from the outer check-in area, the check-in type of the user is entering the check-in, the user enters the outer check-in area from the inner check-in area, and the check-in type of the user is leaving the check-in. The internal check-in area and the external check-in area are relative concepts and can be configured based on actual requirements. As an example, for example, a door of a building is used as a boundary, an area outside the building corresponding to the outside of the door is an outside check-in area, and an area inside the building corresponding to the inside of the door is an inside check-in area.

In an alternative, after the check-in type is determined, the obtained check-in data may further include a tag of the check-in type, and the tag identifies the check-in type of each check-in.

It should be noted that, in the solution of the present invention, the first acquisition device only starts the scanning mode, that is, does not establish a communication connection with the user terminal 13, and the second acquisition device not only needs to start the scanning mode but also needs to establish a communication connection with the user terminal 13, so that when there is a large amount of check-in demands, the check-in efficiency can be improved.

In an alternative of the present invention, when determining the check-in type of the user based on the first check-in information and the second check-in information, the check-in server 11 is specifically configured to:

determining a check-in direction of the user based on the first check-in information and the second check-in information, wherein the check-in direction is a direction close to the inner check-in area or a direction far away from the inner check-in area;

the check-in type is an incoming check-in when the check-in direction is a direction approaching the internal check-in area, and the check-in type is an outgoing check-in when the check-in direction is a direction away from the internal check-in area.

In order to determine the check-in type based on the first check-in information and the second check-in information, that is, to determine whether the user enters the internal check-in area from the external check-in area or the external check-in area from the internal check-in area, whether the user enters the internal check-in area from the external check-in area or the external check-in area from the internal check-in area may be determined based on the check-in direction.

In an alternative aspect of the invention, the check-in information comprises at least one of time information or location information.

The check-in information may include time information, and the time information may indicate time of entering the inside check-in area and time of entering the outside check-in area, and then, based on the time sequence, the check-in direction may be determined, that is, whether the user enters the inside check-in area or leaves the inside check-in area.

As an example, if the time information of the user in the check-in area is 8 o 'clock 10 minutes, and the time information of the user in the check-out area is 8 o' clock 11 minutes, it indicates that the user first enters the check-in area and then enters the check-out area, and the check-in direction of the user is a direction away from the check-in area. If the time information of the user in the check-in area is 9 o 'clock and 5 o' clock, and the time information of the user in the check-in area is 9 o 'clock and 7 o' clock, the user enters the check-in area first and then enters the check-in area, and the check-in direction of the user is the direction close to the check-in area.

The check-in information may further include position information, the position information may indicate a position in the check-in area and a position in the check-out area, the position information includes a direction, and based on the position information, the check-in direction, that is, whether the user enters the check-in area or leaves the check-in area, may be determined.

As an example, if the location information of the user in the check-in area is a and the location information of the user in the check-out area is B, based on the distance between a and B, the direction between AB may be obtained, and the direction may be from a to B or from B to a. If the check-in direction is from A to B, the user enters the internal check-in area first and then enters the external check-in area, and the check-in direction of the user is a direction far away from the internal check-in area. If the direction is from B to A, the user enters the external check-in area first and then enters the internal check-in area, and the check-in direction of the user is the direction close to the internal check-in area.

In an alternative of the present invention, the user data collecting device 12 further includes a third collecting device, the third collecting device is disposed in the check-in area, and a communication coverage area of the third collecting device is a first area, and the first area is adjacent to the check-in area;

the third acquisition device is used for acquiring third check-in information of the user terminal 13 when the user terminal 13 is scanned in the first area, and sending the third check-in information to the check-in server 11;

the check-in server 11 is further configured to, after acquiring the third check-in information and the first check-in information, send communication connection information to the second collection device, so that the second collection device establishes a communication connection with the user terminal 13 based on the communication connection information.

If the range capable of being used as the internal check-in area is large, considering the communication coverage area of the second acquisition equipment, the internal check-in area corresponding to the second acquisition equipment is only one part of the whole internal check-in area, automatic check-in is realized based on the second acquisition equipment, a user is required to enter the communication coverage area of the second acquisition equipment, and if the user needs to pass through other areas of the whole internal check-in area before entering the communication coverage area of the second acquisition equipment, check-in time delay may occur. Or, if the user does not always have the communication coverage of the second acquisition device, a tag missing situation may also occur.

Based on the above situation, the third acquisition device may be arranged in the entire internal check-in area, and the communication coverage area of the third acquisition device is the first area, and the first area is adjacent to the external check-in area. Wherein, first collection equipment and third collection equipment can only open the scanning mode, do not establish the communication connection with between the user terminal 13 promptly, and the second collection equipment is responsible for based on the control of server 11 that registers, establish with the automatic communication connection between the user terminal 13 in order to realize registering automatically, like this, when having a large amount of demands of registering simultaneously, based on first collection equipment and third collection equipment, can scan a large amount of user terminal 13 fast to can further improve the efficiency of registering.

The communication coverage range of the first acquisition device and the communication coverage range of the third acquisition device may be the same or different, and in order to avoid signal interference between the first acquisition device and the third acquisition device, the communication coverage range of the first acquisition device and the communication coverage range of the third acquisition device are not overlapped. The first area may be an area corresponding to a set range, for example, within 5 meters of the inside check-in area adjacent to the outside check-in area.

The process of realizing automatic sign-in based on the first acquisition equipment, the second acquisition equipment and the third acquisition equipment is as follows: when a first acquisition device scans a user terminal 13 in an external check-in area, first check-in information of the user terminal 13 is acquired, when a third acquisition device scans the user terminal 13 in the first area, third check-in information of the user terminal 13 is acquired, the first check-in information and the third check-in information are sent to a check-in server 11, the check-in server 11 determines the check-in type and the check-in time of the user terminal 13 based on the third check-in information and the second check-in information, and simultaneously sends communication connection information to a second acquisition device so that the second acquisition device establishes communication connection with the user terminal 13 based on the communication connection information, after the communication connection is established, the second acquisition device acquires user information sent by the user terminal 13, wherein the user information comprises identity information of a user corresponding to the user terminal 13 and sends the user information to the check-in server 11, the check-in server 11 authenticates the user based on the identity information, and obtains check-in data of the user based on the check-in information when the user passes the identity authentication. The check-in data may include a check-in time and a check-in type.

In an alternative of the present invention, the user data collecting device 12 further includes a fourth collecting device, and the fourth collecting device is in communication connection with the user terminal 13 in a third wireless communication manner; wherein, the third wireless communication mode may be a zigbee communication mode;

the fourth acquisition device is used for acquiring the user information of the user terminal 13 when the user terminal 13 is scanned;

the sign-in server 11 is further configured to, when a communication condition corresponding to the first wireless communication mode is a first preset condition, send first network switching indication information to the user data acquisition device 12 and the user terminal 13, respectively, so that the user data acquisition device 12 and the user terminal 13 switch the first wireless communication mode to a third wireless communication mode based on the first network switching indication information;

and when the communication condition corresponding to the third wireless communication mode is a second preset condition, respectively sending second network switching indication information to the user data acquisition equipment 12 and the user terminal 13 so that the user data acquisition equipment 12 and the user terminal 13 switch the third wireless communication mode to the first wireless communication mode based on the second network switching indication information.

In the process of automatically signing in based on the first wireless communication mode, if the communication condition corresponding to the first wireless communication mode is a first preset condition, it indicates that the communication condition corresponding to the first wireless communication mode cannot meet the requirement of signing in, for example, based on the communication condition, sign-in failure, missed sign, low efficiency of signing in and the like may be caused. Therefore, in this case, the first wireless communication method can be switched to the third wireless communication method, and automatic check-in can be performed by the third wireless communication method, so as to avoid the above-mentioned situation.

In the process of automatically signing in based on the third wireless communication mode, if the communication condition corresponding to the third wireless communication mode is a second preset condition, it indicates that the communication condition corresponding to the third wireless communication mode cannot meet the requirement of signing in, for example, a sign-in failure, a sign-in omission, a sign-in efficiency low and the like may be caused based on the communication condition. Therefore, in this case, the third wireless communication scheme can be switched to the first wireless communication scheme, and automatic check-in can be performed by the third wireless communication scheme, so as to avoid the above-mentioned situation.

In the process of switching the first wireless communication mode to the third wireless communication mode, the function corresponding to the first wireless communication mode in the user terminal 13 is turned off, the function corresponding to the third wireless communication mode in the user terminal 13 is turned on, the function corresponding to the first wireless communication mode in the user data acquisition device 12 is turned off, and the function corresponding to the third wireless communication mode in the user data acquisition device 12 is turned on. The switching of the third wireless communication mode to the first wireless communication mode is the same as the switching mode, and is not described herein again.

In an alternative aspect of the invention, the first predetermined condition comprises at least one of:

the number of the scanned user terminals 13 in the set time period is greater than the set number;

the user terminal 13 cannot be connected to the user data acquisition device 12 through the first wireless communication mode;

the user terminal 13 fails to check in through the first wireless communication means.

The set time period and the set number can be configured based on actual requirements, and if the number of the scanned user terminals 13 in the set time period is greater than the set number, which indicates that many users need to check in currently, the check-in efficiency may be affected. When the user terminal 13 cannot be connected to the user data acquisition device 12 through the first wireless communication mode, it indicates that the communication situation is not good, and data transmission cannot be performed between the user terminal and the user data acquisition device 12 through the first wireless communication mode, and then the communication mode may also be switched, and data transmission is performed through the switched third wireless communication mode, so as to avoid the situation of missed tag. When the user terminal 13 fails to sign in through the first wireless communication method, the communication method may be switched, and the user terminal 13 may be made to sign in again through the switched third wireless communication method.

The second predetermined condition includes at least one of:

the data volume sent by the user terminal 13 to the user data acquisition equipment 12 is greater than the set data volume;

the user terminal 13 cannot be connected to the user data collecting apparatus 12 by the third wireless communication means.

Compared with the zigbee communication mode, the bluetooth communication mode has higher efficiency of transmitting a large amount of data, and when the amount of data sent by the user terminal 13 to the user data acquisition device 12 is greater than the set amount of data, it indicates that the user signs in based on the third wireless communication mode, and the signing efficiency is low. Based on this, it is conceivable to switch the communication method so that a larger amount of data is transmitted by the first wireless communication method, thereby improving the check-in efficiency. The set data amount may be configured based on the actual demand, for example, determined based on the transmission data amount corresponding to the third wireless communication mode.

When the user terminal 13 cannot be connected to the user data acquisition device 12 through the third wireless communication method, it indicates that the communication situation is not good, or the user terminal 13 leaves the communication coverage area corresponding to the third wireless communication method, and data transmission cannot be performed between the user terminal 13 and the user data acquisition device 12 through the third wireless communication method, so that the communication method can also be switched, and data transmission is performed through the switched first wireless communication method, so as to avoid the situation of missing tags.

In an alternative of the present invention, the first wireless communication mode is a bluetooth communication mode, and the third wireless communication mode is a zigbee communication mode.

In order to save resources, if a large number of zigbee devices, such as smart lamps, smart locks, etc., are deployed in the check-in area, and the wireless communication mode of the user terminal 13 also has a zigbee communication mode, a communication network may be established between the devices having the zigbee communication mode based on a zigbee protocol, and based on the network, communication between the user terminal 13 and the fourth collection device is achieved.

In addition, the power consumption of the zigbee communication mode is low, and the power consumption of the terminal can be saved by carrying out communication based on the zigbee communication mode.

The wireless Communication method is not limited to the above two cases, and other wireless Communication methods, such as an NFC (Near Field Communication) Communication method, may be included, and are within the scope of the present invention.

In an optional scheme, the first wireless communication mode is bluetooth communication, the wireless communication module in the user data acquisition device 12 is a bluetooth module, and the wireless communication module in the user terminal 13 is also a bluetooth module. If the third wireless communication mode is a zigbee communication mode, the wireless communication module in the user data collection device 12 is a zigbee module, and the wireless communication module in the user terminal 13 is also a zigbee module. It is understood that the user terminal 13 and the user data collecting device 12 may include a plurality of wireless communication modules at the same time, and the user terminal 13 and the user data collecting device 12 may have a plurality of corresponding wireless communication modes at the same time.

In an alternative of the present invention, the user terminal 13 further includes a user terminal 13 of an administrator, and the check-in server 11 is further configured to obtain check-in statistical information based on the check-in data, and send the check-in statistical information to the user terminal 13 of the administrator.

The check-in statistical information can be check-in data in a set time length of statistics, the check-in statistical information in the set time length is sent to an administrator, so that the administrator knows the check-in situation based on the check-in statistical information, and the check-in statistical information can comprise check-in data of check-in users and check-in data of check-in users. The set time period may be configured based on actual needs, for example, based on the class time of a school, a time period before the first class start time may be used as the set time period, or based on the work time of a company, a time period before the work time may be used as the set time period.

In an alternative of the present invention, when the check-in statistic information is sent to the user terminal 13 of the administrator, a prompt message for prompting the administrator to receive the information may be sent at the same time, and the prompt message may be at least one of a sound message, a text message and a vibration message.

For further understanding of the solution of the present invention, the solution is further described below with reference to fig. 2 and 3:

in this example, the check-in server is a cloud server, the user data acquisition device is a base station (the check-in base station shown in fig. 2), the user terminal is an intelligent wearable bracelet, and the user data acquisition device includes a first acquisition device (an outer base station shown in fig. 3), a second acquisition device (a synchronous base station in fig. 3), a third acquisition device (an inner base station in fig. 3), and a fourth acquisition device (a zigbee device shown in fig. 2 and 3); the external base station, the internal base station, and the synchronous base station are collectively referred to as a check-in base station.

As shown in fig. 2, the communication mode between the cloud server and the check-in base station is a second wireless communication mode, the check-in base station is in communication connection with the cloud server through the wireless transmission module, the wireless communication mode between the bluetooth module in the intelligent wearable device and the bluetooth module in the check-in base station is a first wireless communication mode, and the wireless communication mode between the zigbee module in the intelligent wearable device and the zigbee in the check-in base station is a third wireless communication mode.

As shown in fig. 3, the internal check-in area is the automatic check-in area shown in fig. 3, the external check-in area is the external check-in area shown in fig. 3, 4 doors are provided in fig. 3, which are respectively a gate 1, a gate 2, a gate 3 and a gate 4, the doors are used as boundaries, an internal base station and an external base station are respectively arranged inside and outside each door, the signal coverage of the external base station is outside the automatic check-in area, the signal coverage of the internal base station is the first area in the automatic check-in area, the first area is adjacent to the outside of the automatic check-in area, and the signal coverage of the synchronous base station is inside the automatic check-in area. The inner base station and the outer base station are separately deployed, so that interference between signals can be avoided. The zigbee devices are arranged in the automatic sign-in area, and all the zigbee devices can be mutually connected to form a zigbee network.

The intelligent wearable bracelet further comprises at least one of a temperature sensor and an infrared sensor, and a heart rate sensor. Wherein, whether can detect the user through any one detectable in temperature sensor, infrared sensor or the rhythm of the heart sensor and wear intelligence wearing bracelet, detect user's rhythm of the heart information through rhythm of the heart sensor (rhythm of the heart sensor), rhythm of the heart information is as wearing the user's of intelligence wearing bracelet identity information.

Based on the interior basic station and the outer basic station that every door corresponds the setting, the bracelet is dressed to intelligence earlier to outer basic station, and when interior basic station scanned intelligence again and dressed the bracelet, the type of registering that corresponds is signed in for getting into. The bracelet is dressed to the intelligence of interior basic station earlier scanning, and the bracelet is dressed to intelligence again to outer basic station, and the type of registering that corresponds is signed for leaving. The specific manner of determining the check-in type is the scheme described above, and is not described herein again.

Taking the sign-in type as the entering sign-in, that is, when the outer base station scans the smart wearing bracelet first and receives the smart wearing bracelet, and the inner base station scans the smart wearing bracelet again, the outer base station sends the acquired first sign-in information of the intelligent wearable bracelet to the cloud server, the inner base station sends the acquired third sign-in information of the intelligent wearable bracelet to the cloud server, the cloud server determines the sign-in type based on the third sign-in information and the first sign-in information, and sending a communication connection message to the synchronous base station to enable the synchronous base station to establish a communication connection with the intelligent wearable bracelet based on the communication connection message, after the communication connection is established, the synchronous base station acquires user information of the intelligent wearable bracelet, wherein the user information comprises identity information of a user using the user terminal, and the identity information is heart rate information of the user detected by a heart rate sensor in the intelligent wearable bracelet; and sending the user information to a cloud server, carrying out identity authentication on the user by the cloud server based on the identity information, and obtaining sign-in data of the user based on the sign-in information when the user passes the identity authentication. The check-in data may include a check-in time and a check-in type. Similarly, when the check-in type is a leave check-in, the check-in can be realized in the same manner as described above, and details are not described herein.

Through the automatic sign-in system provided by the scheme of the invention, the user can be prevented from cheating and signing in through the identity verification of the user using the intelligent wearable bracelet, and the sign-in accuracy is improved. Meanwhile, in the process of communication through the bluetooth communication mode, the wireless communication mode may be switched based on the communication condition of the bluetooth communication mode, that is, when the communication condition of the bluetooth communication mode is a first preset condition, the bluetooth communication mode is switched to the zigbee communication mode. And when the communication condition of the zigbee communication mode is a second preset condition, switching the zigbee communication mode to the Bluetooth communication mode. Through the switching of the communication modes, the user can be ensured to timely and accurately complete automatic sign-in under different communication conditions.

In addition, in the scheme of the invention, if the base station is to send down the notice, synchronize the time, download the firmware and collect more data, the base station can also be in communication connection with the user terminal based on a Bluetooth point-to-point connection mode so as to realize the functions.

Based on the same principle as the system shown in fig. 1, the embodiment of the present invention further provides an automatic check-in method, which is executed by a user data acquisition device, as shown in fig. 4, and includes steps S110 and S120, where:

step S110, when the user terminal is scanned, obtaining user information of the user terminal, where the user information includes sign-in information and identity information of a user of the user terminal.

Step S120, the user information is sent to the sign-in server, so that the sign-in server performs identity authentication on the user based on the acquired identity information, and when the user passes the identity authentication, sign-in data of the user is obtained based on the sign-in information.

The principle of the automatic check-in method is the same as that of the automatic check-in system, and the description is omitted here.

Based on the same principle as the system shown in fig. 1, the embodiment of the present invention further provides an automatic check-in method, which is executed by a check-in server, as shown in fig. 5, and includes steps S210 and S220, where:

step S210, obtaining user information of the user terminal, where the user information is obtained when the user data acquisition device scans the user terminal, and the user information includes sign-in information and identity information of a user of the user terminal.

And step S220, performing identity authentication on the user based on the identity information, and obtaining sign-in data of the user based on the sign-in information when the user passes the identity authentication.

Optionally, the user terminal includes an intelligent wearable device, and the intelligent wearable device includes a biometric module; the method further comprises the following steps:

acquiring biological information of a user wearing the intelligent wearable device detected by a biological identification module;

based on the biological information, when detecting that the user does not wear the intelligent wearable device, generating prompt information and sending the prompt information to the user terminal.

Optionally, the biological information includes heart rate information and at least one of infrared signals and temperature information, and the identity information is heart rate information.

Optionally, the user data acquisition device includes a first acquisition device and a second acquisition device, where a communication coverage area of the first acquisition device is an outside check-in area, and a communication coverage area of the second acquisition device is an inside check-in area; the check-in information comprises first check-in information and second check-in information, the first check-in information is the check-in information of the user terminal acquired when the first acquisition equipment scans the user terminal in the external check-in area, and the second check-in information is the check-in information of the user terminal acquired when the second acquisition equipment scans the user terminal in the internal check-in area; the method further comprises the following steps:

acquiring first check-in information and second check-in information;

and determining the check-in type of the user based on the first check-in information and the second check-in information, wherein the check-in type is an entering check-in or leaving check-in.

Optionally, the check-in information includes at least one of time information or location information.

Optionally, the user data acquisition device further includes a third acquisition device, the third acquisition device is arranged in the check-in area, a signal coverage area of the third acquisition device is a first area, and the first area is adjacent to the check-in area; the check-in information also comprises third check-in information, wherein the third check-in information is the check-in information of the user terminal acquired when the user terminal is scanned in the first area by the third acquisition equipment; the method further comprises the following steps:

and after the third check-in information and the first check-in information are acquired, sending communication connection information to the second acquisition equipment so that the second acquisition equipment establishes communication connection with the user terminal based on the communication connection information.

Optionally, determining the check-in type of the user based on the first check-in information and the second check-in information includes:

determining a check-in direction of the user based on the first check-in information and the second check-in information, wherein the check-in direction is a direction close to the inner check-in area or a direction far away from the inner check-in area;

the check-in type is an incoming check-in when the check-in direction is a direction approaching the internal check-in area, and the check-in type is an outgoing check-in when the check-in direction is a direction away from the internal check-in area.

Optionally, the user data acquisition device is in communication connection with the user terminal through a first wireless communication mode or a second wireless communication mode; the method further comprises the following steps:

when the communication condition of the first wireless communication mode is a first preset condition, first network switching indication information is respectively sent to the user data acquisition equipment and the user terminal, so that the user data acquisition equipment and the user terminal switch the first wireless communication mode into a second wireless communication mode based on the first network switching indication information;

and when the communication condition corresponding to the second wireless communication mode is a second preset condition, respectively sending second network switching indication information to the user data acquisition equipment and the user terminal so that the user data acquisition equipment and the user terminal switch the second wireless communication mode to the first wireless communication mode based on the second network switching indication information.

In the scheme corresponding to the automatic check-in method, the involved second wireless communication mode corresponds to the third wireless communication mode described in the automatic check-in system.

Optionally, the first preset condition includes at least one of:

the number of the scanned user terminals in the set time period is larger than the set number;

the user terminal cannot be connected to the user data acquisition equipment in a first wireless communication mode;

the user terminal fails to sign in through the first wireless communication mode;

the second predetermined condition includes at least one of:

the data volume sent by the user terminal to the user data acquisition equipment is greater than the set data volume;

the user terminal cannot be connected to the user data acquisition device through the second wireless communication mode.

Optionally, the first wireless communication mode is a bluetooth communication mode, and the second wireless communication mode is a zigbee communication mode.

Optionally, the user terminal further includes a user terminal of an administrator, and the method further includes:

determining check-in statistical information based on the check-in data;

and sending the check-in statistical information to a user terminal of an administrator.

Based on the same principle as the method shown in fig. 4, the embodiment of the present invention further provides an automatic check-in apparatus 30, which is disposed on the user data acquisition device, where the automatic check-in apparatus 30 may be a computer program (including program code) running in a computer device (user data acquisition device), for example, the automatic check-in apparatus 30 is an application software; the apparatus may be used to perform the corresponding steps of the method shown in fig. 4 provided by the embodiments of the present application.

As shown in fig. 6, the automatic check-in apparatus 30 may include a first user information acquisition module 310 and a first check-in module 320, wherein:

a first user information obtaining module 310, configured to obtain user information of a user terminal when the user terminal is scanned, where the user information includes sign-in information and identity information of a user corresponding to the user terminal;

the first check-in module 320 is configured to send the user information to the check-in server, so that the check-in server performs identity authentication on the user based on the acquired identity information, and obtains check-in data of the user based on the check-in information when the user passes the identity authentication.

By the scheme in the embodiment, the user information of the user terminal can be acquired when the user data acquisition equipment scans the user terminal, the user information comprises the sign-in information and the identity information of the user corresponding to the user terminal, and the user information is sent to the sign-in server; before automatic sign-in is carried out based on the sign-in information, the identity of the user using the user terminal is verified based on the identity information, and the sign-in of the user can be completed only when the user passes the identity verification, so that the user can only sign in based on the user terminal of the user and cannot cheat, and the sign-in data are more accurate.

Based on the same principle as the method shown in fig. 5, the embodiment of the present invention further provides an automatic check-in apparatus 40, where the automatic check-in apparatus 40 may be a computer program (including program code) running in a computer device (check-in server), for example, the automatic check-in apparatus 40 is an application software; the apparatus may be used to perform the corresponding steps of the method shown in fig. 5 provided in the embodiments of the present application.

As shown in fig. 7, the automatic check-in apparatus is provided in the check-in server, and the automatic check-in apparatus 40 may include a second user information acquiring module 410 and a second check-in module 420, in which:

a second user information obtaining module 410, configured to obtain user information of the user terminal, where the user information is obtained when the user data acquisition device scans the user terminal, and the user information includes sign-in information and identity information of a user of the user terminal;

the second check-in module 420 is configured to perform identity authentication on the user based on the identity information, and obtain check-in data of the user based on the check-in information when the user passes the identity authentication.

By the scheme in the embodiment, the user information of the user terminal can be acquired when the user data acquisition equipment scans the user terminal, the user information comprises the sign-in information and the identity information of the user terminal, and the user information is sent to the sign-in server; before automatic sign-in is carried out based on the sign-in information, the identity of the user using the user terminal is verified based on the identity information, and the sign-in of the user can be completed only when the user passes the identity verification, so that the user can only sign in based on the user terminal of the user and cannot cheat, and the sign-in data are more accurate.

Optionally, the user terminal includes an intelligent wearable device, and the intelligent wearable device includes a biometric module; the device also includes:

the prompting module is used for acquiring the biological information of the user wearing the intelligent wearable device, which is detected by the biological identification module; based on the biological information, when detecting that the user does not wear the intelligent wearable device, generating prompt information and sending the prompt information to the user terminal.

Optionally, the biological information includes heart rate information and at least one of infrared signals and temperature information, and the identity information is heart rate information.

Optionally, the prompt message is at least one of a vibration message or a text message.

Optionally, the user data acquisition device includes a first acquisition device and a second acquisition device, where a communication coverage area of the first acquisition device is an outside check-in area, and a communication coverage area of the second acquisition device is an inside check-in area; the check-in information comprises first check-in information and second check-in information, the first check-in information is the check-in information of the user terminal acquired when the first acquisition equipment scans the user terminal in the external check-in area, and the second check-in information is the check-in information of the user terminal acquired when the second acquisition equipment scans the user terminal in the internal check-in area; the device also includes:

the check-in type determining module is used for acquiring first check-in information and second check-in information; and determining the check-in type of the user based on the first check-in information and the second check-in information, wherein the check-in type is an entering check-in or leaving check-in.

Optionally, the check-in information includes at least one of time information or location information.

Optionally, the user data acquisition device further includes a third acquisition device, the third acquisition device is arranged in the check-in area, a signal coverage area of the third acquisition device is a first area, and the first area is adjacent to the check-in area; the check-in information also comprises third check-in information, wherein the third check-in information is the check-in information of the user terminal acquired when the user terminal is scanned in the first area by the third acquisition equipment; the device also includes:

and the communication connection module is used for sending communication connection information to the second acquisition equipment after the third check-in information and the first check-in information are acquired, so that the second acquisition equipment establishes communication connection with the user terminal based on the communication connection information.

Optionally, when determining the check-in type of the user based on the first check-in information and the second check-in information, the check-in type determining module is specifically configured to:

determining a check-in direction of the user based on the first check-in information and the second check-in information, wherein the check-in direction is a direction close to the inner check-in area or a direction far away from the inner check-in area;

the check-in type is an incoming check-in when the check-in direction is a direction approaching the internal check-in area, and the check-in type is an outgoing check-in when the check-in direction is a direction away from the internal check-in area.

Optionally, the user data acquisition device is in communication connection with the user terminal through a first wireless communication mode or a second wireless communication mode; the device also includes:

the communication mode switching module is used for respectively sending first network switching indication information to the user data acquisition equipment and the user terminal when the communication condition of the first wireless communication mode is a first preset condition so that the user data acquisition equipment and the user terminal switch the first wireless communication mode into a second wireless communication mode based on the first network switching indication information; and when the communication condition corresponding to the second wireless communication mode is a second preset condition, respectively sending second network switching indication information to the user data acquisition equipment and the user terminal so that the user data acquisition equipment and the user terminal switch the second wireless communication mode to the first wireless communication mode based on the second network switching indication information.

Optionally, the first preset condition includes at least one of:

the number of the scanned user terminals in the set time period is larger than the set number;

the user terminal cannot be connected to the user data acquisition equipment in a first wireless communication mode;

the user terminal fails to sign in through the first wireless communication mode;

the second predetermined condition includes at least one of:

the data volume sent by the user terminal to the user data acquisition equipment is greater than the set data volume;

the user terminal cannot be connected to the user data acquisition device through the second wireless communication mode.

Optionally, the first wireless communication mode is a bluetooth communication mode, and the second wireless communication mode is a zigbee communication mode.

Optionally, the user terminal further includes a user terminal of an administrator, and the apparatus further includes:

the check-in statistical information determining module is used for determining check-in statistical information based on the check-in data; and sending the check-in statistical information to a user terminal of an administrator.

Since the automatic check-in device provided in the embodiment of the present invention is a device capable of executing the automatic check-in method in the embodiment of the present invention, based on the automatic check-in method provided in the embodiment of the present invention, a person skilled in the art can understand a specific implementation manner of the automatic check-in device in the embodiment of the present invention and various variations thereof, so that a detailed description of how the automatic check-in device implements the automatic check-in method in the embodiment of the present invention is not given here. The automatic check-in device adopted by the person skilled in the art to implement the automatic check-in method in the embodiment of the present invention is within the scope of the protection of the present application.

Based on the same principle as the automatic check-in method and the automatic check-in device provided by the embodiment of the invention, the embodiment of the invention also provides electronic equipment which can comprise a processor and a memory. Wherein the memory has stored therein readable instructions, which when loaded and executed by the processor, may implement the method shown in any of the embodiments of the present invention.

As an example, fig. 8 shows a schematic structural diagram of an electronic device 4000 to which the solution of the embodiment of the present application is applied, and as shown in fig. 8, the electronic device 4000 may include a processor 4001 and a memory 4003. Processor 4001 is coupled to memory 4003, such as via bus 4002. Optionally, the electronic device 4000 may further comprise a transceiver 4004. In addition, the transceiver 4004 is not limited to one in practical applications, and the structure of the electronic device 4000 is not limited to the embodiment of the present application.

The Processor 4001 may be a CPU (Central Processing Unit), a general-purpose Processor, a DSP (Digital Signal Processor), an ASIC (Application specific integrated Circuit), an FPGA (Field Programmable Gate Array) or other Programmable logic device, a transistor logic device, a hardware component, or any combination thereof. Which may implement or perform the various illustrative logical blocks, modules, and circuits described in connection with the disclosure. The processor 4001 may also be a combination that performs a computational function, including, for example, a combination of one or more microprocessors, a combination of a DSP and a microprocessor, or the like.

Bus 4002 may include a path that carries information between the aforementioned components. The bus 4002 may be a PCI (Peripheral Component Interconnect) bus, an EISA (extended industry Standard Architecture) bus, or the like. The bus 4002 may be divided into an address bus, a data bus, a control bus, and the like. For ease of illustration, only one thick line is shown in FIG. 8, but this is not intended to represent only one bus or type of bus.

The Memory 4003 may be a ROM (Read Only Memory) or other types of static storage devices that can store static information and instructions, a RAM (Random Access Memory) or other types of dynamic storage devices that can store information and instructions, an EEPROM (Electrically erasable programmable Read Only Memory), a CD-ROM (Compact Read Only Memory) or other optical disk storage, optical disk storage (including Compact disk, laser disk, optical disk, digital versatile disk, blu-ray disk, etc.), a magnetic disk storage medium or other magnetic storage devices, or any other medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer, but is not limited to.

The memory 4003 is used for storing application codes for executing the scheme of the present application, and the execution is controlled by the processor 4001. The processor 4001 is configured to execute application code stored in the memory 4003 to implement the scheme shown in any one of the foregoing method embodiments.

The embodiment of the present application further provides a computer-readable storage medium, where at least one computer program is stored, and the at least one computer program is loaded and executed by a processor to implement the method provided by the embodiment of the present application. It is understood that at least one computer program may also be stored in the blockchain.

It should be understood that, although the steps in the flowcharts of the figures are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and may be performed in other orders unless explicitly stated herein. Moreover, at least a portion of the steps in the flow chart of the figure may include multiple sub-steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, which are not necessarily performed in sequence, but may be performed alternately or alternately with other steps or at least a portion of the sub-steps or stages of other steps.

The foregoing is only a partial embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (15)

1. An automatic check-in system is characterized by comprising a check-in server, user data acquisition equipment and a user terminal; the user data acquisition equipment is in communication connection with the user terminal in a first wireless communication mode, and the user data acquisition equipment is in communication connection with the check-in server in a second wireless communication mode;

the user data acquisition equipment is used for acquiring user information of the user terminal when the user terminal is scanned, wherein the user information comprises check-in information and identity information of a user corresponding to the user terminal, and the user information is sent to the check-in server;

the check-in server is used for carrying out identity authentication on the user based on the received identity information and obtaining check-in data of the user based on the check-in information when the user passes the identity authentication.

2. An automatic check-in method, comprising:

when the user terminal is scanned, acquiring user information of the user terminal, wherein the user information comprises sign-in information and identity information of a user corresponding to the user terminal;

and sending the user information to a check-in server so that the check-in server performs identity authentication on the user based on the acquired identity information, and obtaining check-in data of the user based on the check-in information when the user passes the identity authentication.

3. An automatic check-in method, comprising:

acquiring user information of a user terminal, wherein the user information is acquired when user data acquisition equipment scans the user terminal, and comprises sign-in information and identity information of a user corresponding to the user terminal;

and performing identity authentication on the user based on the identity information, and obtaining the check-in data of the user based on the check-in information when the user passes the identity authentication.

4. The method of claim 3, wherein the user data acquisition device comprises a first acquisition device and a second acquisition device, wherein the communication coverage of the first acquisition device is an out-of-check-in area, and the communication coverage of the second acquisition device is an in-check-in area; the check-in information comprises first check-in information and second check-in information, the first check-in information is the check-in information of the user terminal acquired when the first acquisition equipment scans the user terminal in the outer check-in area, and the second check-in information is the check-in information of the user terminal acquired when the second acquisition equipment scans the user terminal in the inner check-in area; the method further comprises the following steps:

acquiring the first check-in information and the second check-in information;

and determining the check-in type of the user based on the first check-in information and the second check-in information, wherein the check-in type is entering check-in or leaving check-in.

5. The method of claim 4, wherein the check-in information comprises at least one of time information or location information.

6. The method of claim 4, wherein the user data acquisition device further comprises a third acquisition device, wherein the third acquisition device is disposed within the interior check-in area, and wherein the signal coverage of the third acquisition device is a first area, the first area being adjacent to the exterior check-in area; the check-in information further comprises third check-in information, wherein the third check-in information is acquired by the user terminal when the user terminal is scanned in the first area by the third acquisition equipment; the method further comprises the following steps:

after the third check-in information and the first check-in information are acquired, communication connection information is sent to the second acquisition equipment, so that the second acquisition equipment establishes communication connection with the user terminal based on the communication connection information.

7. The method of claim 5, wherein determining the check-in type of the user based on the first check-in information and the second check-in information comprises:

determining a check-in direction of the user based on the first check-in information and the second check-in information, wherein the check-in direction is a direction approaching to the inner check-in area or a direction far away from the inner check-in area;

when the check-in direction is a direction close to the inner check-in area, the check-in type is entering check-in, and when the check-in direction is a direction far away from the inner check-in area, the check-in type is leaving check-in.

8. The method according to any one of claims 3 to 7, wherein the user data acquisition device is in communication connection with the user terminal through a first wireless communication mode or a second wireless communication mode; the method further comprises the following steps:

when the communication condition of the first wireless communication mode is a first preset condition, respectively sending first network switching indication information to the user data acquisition equipment and the user terminal so that the user data acquisition equipment and the user terminal switch the first wireless communication mode to the second wireless communication mode based on the first network switching indication information;

and when the communication condition corresponding to the second wireless communication mode is a second preset condition, respectively sending second network switching indication information to the user data acquisition equipment and the user terminal so that the user data acquisition equipment and the user terminal switch the second wireless communication mode to the first wireless communication mode based on the second network switching indication information.

9. The method of claim 8, wherein the first predetermined condition comprises at least one of:

the number of the user terminals scanned in a set time period is larger than a set number;

the user terminal cannot be connected to the user data acquisition equipment in the first wireless communication mode;

the user terminal fails to sign in through the first wireless communication mode;

the second preset condition comprises at least one of:

the data volume sent by the user terminal to the user data acquisition equipment is greater than the set data volume;

the user terminal cannot be connected to the user data acquisition device through the second wireless communication mode.

10. The method of claim 8, wherein the first wireless communication mode is a bluetooth communication mode, and the second wireless communication mode is a zigbee communication mode.

11. The method of claim 3, wherein the user terminal further comprises a user terminal of an administrator, the method further comprising:

determining check-in statistical information based on the check-in data;

and sending the check-in statistical information to a user terminal of the administrator.

12. An automatic check-in device, comprising:

the first user information acquisition module is used for acquiring user information of the user terminal when the user terminal is scanned, wherein the user information comprises sign-in information and identity information of a user corresponding to the user terminal;

the first check-in module is used for sending the user information to a check-in server so that the check-in server can carry out identity authentication on the user based on the acquired identity information, and when the user passes the identity authentication, check-in data of the user is obtained based on the check-in information.

13. An automatic check-in device, comprising:

the second user information acquisition module is used for acquiring user information of a user terminal, wherein the user information is acquired when user data acquisition equipment scans the user terminal, and comprises sign-in information and identity information of a user corresponding to the user terminal;

and the second check-in module is used for carrying out identity authentication on the user based on the identity information and obtaining check-in data of the user based on the check-in information when the user passes the identity authentication.

14. An electronic device, comprising a processor and a memory;

the memory has stored therein readable instructions which, when loaded and executed by the processor, implement the method of any of claims 2 to 11.

15. A computer-readable storage medium, characterized in that it stores at least one computer program which is loaded and executed by a processor to implement the method of any of claims 2 to 11.

Images