CN116168455A - Information automatic supplementing method, background server and gate terminal - Google Patents

Abstract

The application provides an information automatic complement method, which comprises the following steps: the method comprises the steps that a server obtains a to-be-complemented user information list L, wherein the list L comprises one or more to-be-complemented users; the server searches missing site information s corresponding to the user to be complemented from the list L when receiving a notification that the user to be complemented performs station entering and exiting verification from a gate terminal; and the server provides the missing site information s to the gate terminal. The application also provides a background server, a computer storage medium, a computer program product and a gate terminal.

Description

Information automatic supplementing method, background server and gate terminal

Technical Field

The application relates to an information automatic complement method, a background server, a gate terminal, a computer storage medium and a computer program product.

Background

In the process of entering and exiting the subway by daily riding, passengers can cause incomplete riding records (such as missing riding codes, unsuccessful code brushing, incomplete NFC information transmission, entering by other persons, network abnormality and the like) due to certain reasons, so that a unilateral journey is formed. At the moment, passengers need to go to the subway station to manually log in a non-recorded station information, so that the time of the passengers is delayed, and the manual service cost of subway staff is increased.

The above information disclosed in the background section of the present application is only for the purpose of increasing the understanding of the general background of the present application and should not be taken as an admission or any form of suggestion that this information forms the prior art already known to a person of ordinary skill in the art.

Disclosure of Invention

According to one aspect of the present application, there is provided an information automatic compensation method, the method including: the method comprises the steps that a server obtains a to-be-complemented user information list L, wherein the list L comprises one or more to-be-complemented users; the server searches missing site information s corresponding to the user to be complemented from the list L when receiving a notification that the user to be complemented performs station entering and exiting verification from a gate terminal; and the server provides the missing site information s to the gate terminal.

In addition or alternatively to the above solution, in the above method, the server obtaining the user information list L to be complemented includes: the server receives a terminal identification set X from the gate terminal, wherein the terminal identification set comprises all user terminal identification information within a certain range of the gate terminal; the server records the identification information of all the user terminals, the stations corresponding to the gate terminals and time stamps to form a first user information list; and after the first user successfully enters and exits, deleting the information record corresponding to the first user from the first user information list by the server, so as to form a user information list L to be complemented.

In addition or alternatively, in the method, the gate terminal is a subway gate.

Additionally or alternatively to the above, in the above method, the terminal identification set X is obtained by a near field communication device through an RSSI distance detection technique or a bluetooth technique search, and provided to the gate terminal.

In addition or alternatively to the above solution, in the above method, the server recording the identification information of all the user terminals, the sites corresponding to the gate terminals, and the time stamps, and forming the first user information list includes: the server matches corresponding user registration mobile phone numbers U according to all terminal identification information in the terminal identification set X; and the server forms a first user information list L, wherein the first user information list L comprises one or more records corresponding to the terminal identification information, and each record comprises: the user terminal identification, the user registration mobile phone number U, the site where the gate terminal is located and the current time stamp.

In addition or alternatively to the above solution, in the above method, after the first user successfully enters and exits, deleting, by the server, an information record corresponding to the first user from the first user information list, so as to form a to-be-complemented user information list L includes: after the gate terminal verifies that the first user enters and exits successfully, the server receives a first terminal identifier corresponding to the first user from the gate terminal; and deleting the record corresponding to the first terminal identifier from the first user information list by the server.

In addition or alternatively to the above solution, in the above method, when receiving, from a gate terminal, a notification that the user to be complemented is performing in-out authentication, the server searching, from the list L, missing site information s corresponding to the user to be complemented includes: when the gate terminal recognizes that the last site information of a second user is missing, the server receives a second terminal identifier corresponding to the second user from the gate terminal; the server searches the recorded site in the user information list L to be complemented based on the second terminal identifier; and when the recorded site is a unique site, the server determines the unique site as the missing site information s.

According to another aspect of the present application, there is provided a backend server, the backend server including: the system comprises an acquisition device, a storage device and a storage device, wherein the acquisition device is used for acquiring a to-be-complemented user information list L, and the list L comprises one or more to-be-complemented users; the searching device is used for searching the missing site information s corresponding to the user to be complemented from the list L when receiving the notification of the user to be complemented for entering and exiting verification from the gate terminal; and transmitting means for providing the missing station information s to the gate terminal.

In addition or alternatively to the above, in the above background server, the acquiring means includes: a first receiving unit, configured to receive a terminal identification set X from the gate terminal, where the terminal identification set includes all user terminal identification information within a certain range of the gate terminal; the recording unit is used for recording the identification information of all the user terminals, the stations corresponding to the gate terminals and the time stamps to form a first user information list; and the deleting unit is used for deleting the information record corresponding to the first user from the first user information list after the first user successfully enters and exits, so as to form a user information list L to be complemented.

In addition or alternatively, in the background server, the gate terminal is a subway gate.

In addition or alternatively to the above solution, in the above background server, the terminal identifier set X is obtained by a near field communication device through an RSSI distance detection technique or a bluetooth technique and provided to the gate terminal.

In addition or alternatively to the above, in the above background server, the recording unit is configured to: matching corresponding user registration mobile phone numbers U according to all terminal identification information in the terminal identification set X; and forming a first user information list L, the first user information list L including one or more records corresponding to the terminal identification information, each record including: the user terminal identification, the user registration mobile phone number U, the site where the gate terminal is located and the current time stamp.

In addition or alternatively to the above, in the above background server, the deletion unit is configured to: after the gate terminal verifies that the first user enters and exits successfully, receiving a first terminal identifier corresponding to the first user from the gate terminal; and deleting a record corresponding to the first terminal identifier from the first user information list.

In addition or alternatively to the above, in the above background server, the searching means includes: the second receiving unit is used for receiving a second terminal identifier corresponding to a second user from the gate terminal when the gate terminal recognizes that the last site information of the second user is missing; the searching unit is used for searching the recorded sites in the user information list L to be complemented based on the second terminal identification; and a determining unit configured to determine, when the recorded site is a unique site, the unique site as the missing site information s by the server.

According to yet another aspect of the present application, there is provided a computer storage medium comprising instructions that, when executed, perform the auto-top method as described previously.

According to a further aspect of the present application, there is provided a computer program product comprising a computer program which, when executed by a processor, implements an auto-top method as described above.

According to still another aspect of the present application, there is provided a gate terminal including: the near field communication device is used for searching and obtaining a terminal identification set X through an RSSI distance detection technology or a Bluetooth technology, wherein the terminal identification set comprises all user terminal identification information within a certain range of the near field communication device; the sending device is used for providing the terminal identification set X to a background server; after successful entering and exiting of a first user is verified, a first terminal identifier corresponding to the first user is sent to the background server so as to form a user information list L to be complemented; when the last site information of a second user is identified to be missing, a second terminal identifier corresponding to the second user is sent to the background server; and receiving means for receiving missing site information s corresponding to the second terminal identification from the background server.

According to still another aspect of the present application, there is provided an information automatic compensation method for a gate terminal, the method including: collecting a terminal identification set X, wherein the terminal identification set comprises all user terminal identification information within a certain range of the gate terminal; the terminal identification set is sent to a server, so that the server maintains a user information list L; sending a notice to the server, wherein the notice indicates that one or more users to be complemented are in-and-out station verification, so that the server searches missing station information s corresponding to the users to be complemented from the list L; and receiving the missing site information s from the server.

Additionally or alternatively to the above, in the above method, the sending the terminal identification set to a server, so that the server maintains a user information list L includes: the terminal identification set is sent to a server, so that the server records all user terminal identification information, stations corresponding to the gate terminal and time stamps so as to form a first user information list; and after the first user successfully enters and exits, sending a notification to the server, so that the server deletes the information record corresponding to the first user from the first user information list, thereby forming the user information list L.

In addition or alternatively, in the method, the gate terminal is a subway gate.

Additionally or alternatively to the above, in the above method, the terminal identification set X is obtained by a near field communication device through an RSSI distance detection technique or a bluetooth technique search, and provided to the gate terminal.

In addition or alternatively to the above solution, in the above method, after the first user enters and exits successfully, sending a notification to the server, so that the server deletes the information record corresponding to the first user from the first user information list, and forming the user information list L includes: and after the gate terminal verifies that the first user enters and exits successfully, a first terminal identifier corresponding to the first user is sent to the server, so that the server deletes a record corresponding to the first terminal identifier from the first user information list.

Additionally or alternatively to the above solution, in the above method, sending a notification to the server, where the notification indicates that one or more users to be complemented are performing in-out authentication, so that the server searches the list L for missing site information s corresponding to the users to be complemented, where the missing site information s includes: the gate terminal identifies that the last site information of the second user is missing; and sending a second terminal identifier corresponding to the second user to the server, so that the server searches the recorded site in the user information list L based on the second terminal identifier, and when the recorded site is the unique site, the server determines the unique site as the missing site information s.

According to the automatic top-up scheme of one or more embodiments of the present application, a to-be-top-up user information list L is obtained, and when a notification that a to-be-top-up user performs in-out verification is received from a gate terminal, missing site information s corresponding to the to-be-top-up user is searched from the list L and provided for the gate terminal. Therefore, when the absence of the passenger journey information is identified, the server can automatically make up, the gate can synchronously complete the current station entering and exiting operation, station entering and exiting failure can not be prompted, gate port congestion is avoided, and the time of nearby passengers is delayed. In addition, the whole process does not need manual complement of passengers in the APP or complete complement by staff when going to a service desk in a station, so that time and labor cost of the passengers and staff are saved. According to the automatic top-up scheme of one or more embodiments, the passenger in-out information is recorded through the near field communication technology, and compared with the fact that passengers or staff manually input the top-up information, the automatic top-up scheme is higher in accuracy and does not need an audit verification step later.

Other features and advantages of the methods and apparatus of the present application will be apparent from or elucidated with reference to the drawings incorporated herein and with the following detailed description of certain principles of the present application.

Drawings

FIG. 1 is a flow diagram illustrating an auto-top method of one embodiment of the present application;

FIG. 2 is a schematic diagram showing the structure of a background server according to an embodiment of the present application;

FIG. 3 is a schematic diagram showing a structure of a gate terminal according to an embodiment of the present application;

FIG. 4 is a system interaction diagram for obtaining a list of information of passengers to be complemented according to one embodiment of the application; and

FIG. 5 is a system interaction diagram of automatic occupant boarding in accordance with one embodiment of the present application.

Detailed Description

The following description describes specific embodiments of the present application to teach those skilled in the art how to make and use the best mode of the application. Some conventional aspects have been simplified or omitted in order to teach the inventive principles. Those skilled in the art will appreciate variations from these embodiments that fall within the scope of the present application. Those skilled in the art will appreciate that the features described below can be combined in various ways to form multiple variations of the present application. Thus, the present application is not limited to the specific embodiments described below, but only by the claims and their equivalents.

It should be further noted that, for convenience of description, only some, but not all of the matters related to the present application are shown in the accompanying drawings. Before discussing exemplary embodiments in more detail, it should be mentioned that some exemplary embodiments are described as processes or methods depicted as flowcharts. Although a flowchart depicts operations (or steps) as a sequential process, many of the operations can be performed in parallel, concurrently, or at the same time. Furthermore, the order of the operations may be rearranged. The process may be terminated when its operations are completed, but may have additional steps not included in the figures. The processes may correspond to methods, functions, procedures, subroutines, and the like.

Although the exemplary embodiments are described as using multiple units to perform the exemplary processes, it should be understood that the exemplary processes may also be performed by one or more modules.

Moreover, the control logic of the present application may be embodied on a computer readable medium as executable program instructions that are implemented by a processor or the like. Examples of computer readable media include, but are not limited to, ROM, RAM, optical disks, magnetic tape, floppy disks, flash drives, smart cards, and optical data storage devices. The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable media is stored and executed in a distributed fashion.

FIG. 1 is an auto-top method 1000 that represents one embodiment of the present application. As shown in fig. 1, the auto-top method 1000 includes the steps of:

in step S110, the server obtains a list L of user information to be complemented, where the list L includes one or more users to be complemented;

in step S120, when receiving a notification that the user to be complemented performs station entering and exiting verification from a gate terminal, the server searches for missing station information S corresponding to the user to be complemented from the list L; and

in step S130, the server provides the missing station information S to the gate terminal.

In the context of the present application, the term "list of user information to be complemented" means a list of user information that has successfully completed an inbound or outbound call but has not successfully entered station information (i.e. to be complemented), e.g. due to passengers missing a ride code, having an unsuccessful code swipe, having an incomplete NFC information transfer, having followed an inbound call by another person, network anomalies, etc. For one or more to-be-compensated users in the to-be-compensated user information list L, the user is required to go to a service desk according to the existing scheme to manually supplement the non-input site information (accordingly deducted), so that the user time is delayed, and the experience is poor.

The term "missing site information s" means site information that was not successfully entered for a certain user to be complemented. For the gate terminal, the user cannot be allowed to enter or exit due to the absence of the station information. Taking a subway scene as an example, when "missing site information s" is inbound information, the user will not be able to outbound, and when "missing site information s" is outbound information, the user will not be able to inbound. In other words, the "inability to go out" of the user is due to the lack of outbound information, while the "inability to go in" of the user is due to the lack of outbound information. Therefore, after the server provides the missing site information s for the gate terminal, the server or the gate terminal can complete automatic repair without manual repair of passengers in the APP or repair of passengers by staff when the passengers go to a service desk in the station, so that time and labor cost of the passengers and the staff are saved.

In addition, based on the "missing site information s", the system may further provide other auxiliary functions to the user, for example, the server may automatically make a deduction based on the "missing site information s" or push a benefit reminder to the user, etc.

In one embodiment, the "server" is a subway background server and the "gate terminal" is a subway entrance/exit gate. Of course, those skilled in the art will appreciate that the "auto-top" approach of the present application may not be limited to ride subway scenes, but may also be applied to other vehicle in-out scenes, in-out scenes in amusement parks, and the like.

In one embodiment, the server obtaining the list L of user information to be complemented (i.e., step S110) includes: the server receives a terminal identification set X from the gate terminal, the terminal identification set including all user terminal identification information within a certain range of the gate terminal (i.e., a server receiving step); the server records the identification information of all the user terminals, the stations corresponding to the gate terminals and time stamps to form a first user information list (namely, a server recording step); and after the first user successfully enters and exits, deleting the information record corresponding to the first user from the first user information list by the server, thereby forming a user information list L to be complemented (a server deleting step). By dynamically updating the first user information list, the finally formed user information list L to be complemented is basically all user information lists of which the station has successfully completed inbound or outbound but has not successfully entered station information.

In one embodiment, the terminal identification set X is obtained by the near field communication device through an RSSI distance detection technique or a bluetooth technique search and provided to the gate terminal. RSSI distance detection techniques are generally applied to distance measurements between transmitters and receivers. The technology utilizes ranging theory (i.e., the principle that radio waves or acoustic waves are transmitted in a medium, and the signal power decays with the propagation distance) to determine the distance according to the received signal energy intensity. According to the transmission power of the known signals of the beacon nodes and the signal power received by the nodes, the distance between the nodes can be calculated through an attenuation model between the signals and the distance.

In one embodiment, the server records the identification information of all the user terminals, the sites corresponding to the gate terminals and the time stamps, and the forming of the first user information list (i.e., the server recording step) includes: the server matches corresponding user registration mobile phone numbers U according to all terminal identification information in the terminal identification set X; and the server forms a first user information list L, wherein the first user information list L comprises one or more records corresponding to the terminal identification information, and each record comprises: the user terminal identification, the user registration mobile phone number U, the site where the gate terminal is located and the current time stamp.

In one embodiment, after the first user successfully enters and exits, the server deletes the information record corresponding to the first user from the first user information list, so as to form a user information list L to be complemented (i.e. a server deleting step) includes: after the gate terminal verifies that the first user enters and exits successfully, the server receives a first terminal identifier corresponding to the first user from the gate terminal; and deleting the record corresponding to the first terminal identifier from the first user information list by the server.

Taking a subway scene as an example, the step of obtaining a user information list to be complemented comprises the following steps:

1. a near field communication device in a subway gate continuously collects all user equipment terminal identifiers X in a certain distance nearby and synchronizes to a subway background server;

2. the background server matches all user unique identifiers (such as mobile phone numbers) U according to the equipment terminal identifiers X, records corresponding site information S and time stamps T, and forms a data table L;

3. every time a passenger uses the self equipment x to successfully enter and exit the station in a two-dimensional code, NFC and other modes, the gate machine identifies and obtains the equipment identification x of the passenger;

4. and deleting passenger information corresponding to the equipment identifier x from the data table L by the subway background server so as to dynamically update the data table L.

The communication mode of the near field communication device may include bluetooth, UWB, etc., which can predict the distance between the surrounding devices and the gate by setting a signal strength RSSI threshold. And when the signal strength RSSI is higher than a preset threshold value or the estimated distance is smaller than a certain threshold value, the passengers are considered to have willingness or to be in-out operation, and the equipment identifier X is uploaded to the background server.

In step S120, when receiving a notification that the user to be complemented is performing in-out station verification from the gate terminal, the server searches for missing station information S corresponding to the user to be complemented from the list L. In one embodiment, step S120 includes: when the gate terminal recognizes that the last site information of a second user is missing, the server receives a second terminal identifier corresponding to the second user from the gate terminal; the server searches the recorded site in the user information list L to be complemented based on the second terminal identifier; and when the recorded site is a unique site, the server determines the unique site as the missing site information s.

For example, every time a passenger tries to complete entering and exiting a station through a gate by using the self device y in a two-dimensional code, NFC and other modes, when the gate recognizes that the last entering or exiting station information is 'not input', the device identifier y of the user is read; then, the subway back-end server searches passenger information corresponding to the user equipment identifier y in the data table L, if the passenger information is matched with the unique user identifier u and the unique station information s (the interval time between the current time and the time stamp t is greater than the threshold t 0), the station information s is automatically recorded as a last station which is not recorded, and the gate synchronously completes station entering and exiting operation.

It should be noted that, in the above embodiment, by determining that the interval time between the current time and the timestamp t is greater than the threshold t0, the patch error in some extreme cases can be further prevented. In addition, the background server matching sample can adopt full data or all historical sites of the user, and can be specifically determined according to the operation efficiency.

In some small-probability abnormal events, for example, if the user equipment identifier y is found to match the unique user identifier u with the information of a plurality of stations, and the time interval between the user equipment identifier y and the time stamp is greater than a preset threshold t0, the background server pushes the plurality of stations to the passenger equipment terminal, and the passenger selects one station to complete the complement. For another example, if the passenger information is not matched, the background server reminds the passenger to manually input the station information in the APP or the service desk adopts a manual complement form to complement the station information which is not successfully accessed and accessed last time.

In addition, one skilled in the art will readily appreciate that the auto-top method 1000 provided by one or more of the above-described embodiments of the present application may be implemented by a computer program. For example, the computer program is embodied in a computer program product that, when executed by a processor, implements the auto-top method 1000 of one or more embodiments of the present application. For another example, when a computer storage medium (e.g., a USB flash disk) storing the computer program is connected to a computer, the computer program is run to perform the auto-top method 1000 of one or more embodiments of the present application.

Referring to fig. 2, fig. 2 shows a schematic structural diagram of a background server 2000 according to an embodiment of the present application. As shown in fig. 2, the background server 2000 includes an acquisition device 210, a search device 220, and a transmission device 230. The obtaining device 210 is configured to obtain a to-be-complemented user information list L, where the list L includes one or more to-be-complemented users; the searching device 220 is configured to search, when receiving a notification from a gate terminal that the user to be complemented performs station entry and exit verification, for missing station information s corresponding to the user to be complemented from the list L; and transmitting means 230 for providing the missing station information s to the gate terminal.

In the context of the present application, the term "list of user information to be complemented" means a list of user information that has successfully completed an inbound or outbound call but has not successfully entered station information (i.e. to be complemented), e.g. due to passengers missing a ride code, having an unsuccessful code swipe, having an incomplete NFC information transfer, having followed an inbound call by another person, network anomalies, etc. For one or more to-be-compensated users in the to-be-compensated user information list L, the user is required to go to a service desk according to the existing scheme to manually supplement the non-input site information (accordingly deducted), so that the user time is delayed, and the experience is poor.

The term "missing site information s" means site information that was not successfully entered for a certain user to be complemented. For the gate terminal, the user cannot be allowed to enter or exit due to the absence of the station information. Taking a subway scene as an example, when "missing site information s" is inbound information, the user will not be able to outbound, and when "missing site information s" is outbound information, the user will not be able to inbound. In other words, the "inability to go out" of the user is due to the lack of outbound information, while the "inability to go in" of the user is due to the lack of outbound information. Therefore, after the server provides the missing site information s for the gate terminal, the server or the gate terminal can complete automatic repair without manual repair of passengers in the APP or repair of passengers by staff when the passengers go to a service desk in the station, so that time and labor cost of the passengers and the staff are saved.

In addition, based on the "missing site information s", the system may further provide other auxiliary functions to the user, for example, the server may automatically make a deduction based on the "missing site information s" or push a benefit reminder to the user, etc.

In one embodiment, the "server" is a subway background server and the "gate terminal" is a subway entrance/exit gate. Of course, those skilled in the art will appreciate that the "auto-top" approach of the present application may not be limited to ride subway scenes, but may also be applied to other vehicle in-out scenes, in-out scenes in amusement parks, and the like.

In one embodiment, the obtaining means 210 comprises: a first receiving unit, configured to receive a terminal identification set X from the gate terminal, where the terminal identification set includes all user terminal identification information within a certain range of the gate terminal; the recording unit is used for recording the identification information of all the user terminals, the stations corresponding to the gate terminals and the time stamps to form a first user information list; and the deleting unit is used for deleting the information record corresponding to the first user from the first user information list after the first user successfully enters and exits, so as to form a user information list L to be complemented.

In one embodiment, the terminal identification set X is obtained by the near field communication device through an RSSI distance detection technique or a bluetooth technique search and provided to the gate terminal. RSSI distance detection techniques are generally applied to distance measurements between transmitters and receivers. The technology utilizes ranging theory (i.e., the principle that radio waves or acoustic waves are transmitted in a medium, and the signal power decays with the propagation distance) to determine the distance according to the received signal energy intensity. According to the transmission power of the known signals of the beacon nodes and the signal power received by the nodes, the distance between the nodes can be calculated through an attenuation model between the signals and the distance.

In one embodiment, the recording unit is configured to: matching corresponding user registration mobile phone numbers U according to all terminal identification information in the terminal identification set X; and forming a first user information list L, the first user information list L including one or more records corresponding to the terminal identification information, each record including: the user terminal identification, the user registration mobile phone number U, the site where the gate terminal is located and the current time stamp.

In one embodiment, the deletion unit is configured to: after the gate terminal verifies that the first user enters and exits successfully, receiving a first terminal identifier corresponding to the first user from the gate terminal; and deleting a record corresponding to the first terminal identifier from the first user information list.

In one embodiment, the lookup device 220 includes: the second receiving unit is used for receiving a second terminal identifier corresponding to a second user from the gate terminal when the gate terminal recognizes that the last site information of the second user is missing; the searching unit is used for searching the recorded sites in the user information list L to be complemented based on the second terminal identification; and a determining unit configured to determine, when the recorded site is a unique site, the unique site as the missing site information s by the server.

Turning to fig. 3, a schematic structural diagram of a gate terminal 3000 according to an embodiment of the present application is shown. As shown in fig. 3, the gate terminal 3000 includes: near field communication device 310, transmitting device 320, and receiving device 330. The near field communication device 310 is configured to obtain a terminal identifier set X through an RSSI distance detection technique or a bluetooth technique, where the terminal identifier set includes all user terminal identifier information within a certain range of the near field communication device; the sending device 320 is configured to provide the terminal identifier set X to a background server; after successful entering and exiting of a first user is verified, a first terminal identifier corresponding to the first user is sent to the background server so as to form a user information list L to be complemented; when the last site information of a second user is identified to be missing, a second terminal identifier corresponding to the second user is sent to the background server; and receiving means 330 for receiving, from the background server, missing station information s corresponding to the second terminal identifier.

In one embodiment, the transmitting device 320 may include a plurality of transmitting units, for example, a first transmitting unit for providing the terminal identification set X to a background server; the second sending unit is used for sending a first terminal identifier corresponding to the first user to the background server after the success of the first user in-and-out is verified, so as to form a user information list L to be complemented; and the third sending unit is used for sending a second terminal identifier corresponding to the second user to the background server when the last site information of the second user is identified to be missing.

FIG. 4 is a system interaction diagram for obtaining a list of information of passengers to be complemented according to one embodiment of the application. In the whole process of acquiring the passenger information list to be complemented shown in fig. 4, the near field communication device in the subway gate searches for nearby passenger equipment, and acquires all terminal equipment identification information within 2 meters through an RSSI distance detection technology to form a terminal identification set X. Then, the gate terminal transmits the terminal identification set X to the subway back-end server. Subsequently, the subway back-end server matches the user registration mobile phone numbers U corresponding to all the terminal identifiers in the X, records the subway station S where the gate is located and the current time stamp T, and forms a data table L; subsequently, passengers use the equipment x to enter or exit the gate and the subway gate verifies that the entering and exiting is successful; at this time, the subway gate sends the device identifier x to the subway back-end server, so that the subway back-end server deletes the passenger related riding information record corresponding to the device x from the data table L.

FIG. 5 is a system interaction diagram of automatic occupant boarding in accordance with one embodiment of the present application. As shown in fig. 5, a passenger uses a terminal device y to perform a station entering and exiting operation at a gate; at the moment, the subway gate performs station entering and exiting verification, and the information loss of the last station is identified; in order to perform automatic compensation, the subway gate sends the equipment identifier y to a subway back-end server. After receiving the terminal identifier y, the subway back-end server searches a unique user registration mobile phone number u and a unique site s corresponding to the equipment identifier y from a data table L; the subway back-end server complements the missing station s on the passenger and sends the missing station s to the subway gate so that the subway gate can continuously finish station entering and exiting verification for the user. The whole automatic top-up process has extremely short time (the user cannot perceive), and the user experience can be greatly improved.

In one or more embodiments, the automatic compensation scheme may collect passenger equipment terminal identifiers within a certain range by a near field communication device (e.g., bluetooth, UWB equipment tag) in a subway gate, and dynamically update passenger information that may want to be compensated for site information in combination with the gate recording of successful in-and-out station equipment terminal identifiers. When a passenger tries to enter and exit the gate ticket checking and last-time station information is not recorded, the user terminal identification is matched from a plurality of stations to-be-complemented list, if the matching is successful, the station information is automatically complemented, the current station entering and exiting operation is synchronously completed, the automatic complemented of the passenger during the gate ticket checking is realized, manual operation is not needed, and the accuracy is high.

In one or more embodiments, the auto-top scheme may be implemented as a function of the APP application and a function switch may be set. For example, an "auto-top" function switch is set on the APP ride code interface. After the start, when the user uses the APP to take advantage of the subway, the automatic access can be realized, thereby being beneficial to attracting new users to use the APP and enhancing the viscosity of the users.

In summary, according to the automatic top-up scheme of one or more embodiments of the present application, a list L of user information to be top-up is obtained, and when a notification that a user to be top-up is going on a station entering and exiting verification is received from a gate terminal, missing station information s corresponding to the user to be top-up is searched from the list L and provided to the gate terminal. Therefore, when the absence of the passenger journey information is identified, the server can automatically make up, the gate can synchronously complete the current station entering and exiting operation, station entering and exiting failure can not be prompted, gate port congestion is avoided, and the time of nearby passengers is delayed. In addition, the whole process does not need manual complement of passengers in the APP or complete complement by staff when going to a service desk in a station, so that time and labor cost of the passengers and staff are saved. According to the automatic top-up scheme of one or more embodiments, the passenger in-out information is recorded through the near field communication technology, and compared with the fact that passengers or staff manually input the top-up information, the automatic top-up scheme is higher in accuracy and does not need an audit verification step later.

It will be appreciated by those skilled in the art that embodiments of the present application may be provided as a method, apparatus, or computer program product. Accordingly, the present application may take the form of hardware, software, or a combination of hardware and software. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, magnetic disk storage, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (platform systems) and computer program products according to embodiments of the application. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable processing apparatus to produce a sequence of instructions that perform the specified operations.

The above examples mainly illustrate various embodiments of the technical solutions of the present application in a subway scenario. Those of ordinary skill in the art will appreciate that the present application may be embodied in many other forms and applied in different contexts, such as airport contexts, shopping contexts, office building contexts, and the like, without departing from the spirit and scope thereof. Accordingly, the illustrated examples and embodiments are to be considered as illustrative and not restrictive, and the application is intended to cover various modifications and substitutions without departing from the spirit and scope of the application as defined by the appended claims.

Claims (23)

1. An automatic information supplementing method, comprising:

the method comprises the steps that a server obtains a to-be-complemented user information list L, wherein the list L comprises one or more to-be-complemented users;

the server searches missing site information s corresponding to the user to be complemented from the list L when receiving a notification that the user to be complemented performs station entering and exiting verification from a gate terminal; and

the server provides the missing site information s to the gate terminal.

2. The method of claim 1, wherein the server obtaining the list L of user information to be complemented comprises:

the server receives a terminal identification set X from the gate terminal, wherein the terminal identification set comprises all user terminal identification information within a certain range of the gate terminal;

the server records the identification information of all the user terminals, the stations corresponding to the gate terminals and time stamps to form a first user information list; and

after the first user successfully enters and exits, the server deletes the information record corresponding to the first user from the first user information list, so as to form a user information list L to be complemented.

3. The method of claim 1 or 2, wherein the gate terminal is a subway gate.

4. The method of claim 2, wherein the set of terminal identifications X is obtained by a near field communication device through an RSSI distance detection technique or a bluetooth technique search and provided to the gate terminal.

5. The method of claim 2, wherein the server recording the all user terminal identification information, the sites corresponding to the gate terminals, and the time stamps, and forming the first user information list comprises:

the server matches corresponding user registration mobile phone numbers U according to all terminal identification information in the terminal identification set X; and

the server forms a first user information list L, wherein the first user information list L comprises one or more records corresponding to the terminal identification information, and each record comprises: the user terminal identification, the user registration mobile phone number U, the site where the gate terminal is located and the current time stamp.

6. The method of claim 5, wherein after the first user successfully enters and exits, the server deletes the information record corresponding to the first user from the first user information list, so as to form a user information list L to be complemented, which includes:

After the gate terminal verifies that the first user enters and exits successfully, the server receives a first terminal identifier corresponding to the first user from the gate terminal; and

and deleting the record corresponding to the first terminal identifier from the first user information list by the server.

7. The method of claim 1, wherein the server, when receiving a notification of the entry and exit authentication of the user to be complemented from the gate terminal, searching the list L for missing site information s corresponding to the user to be complemented includes:

when the gate terminal recognizes that the last site information of a second user is missing, the server receives a second terminal identifier corresponding to the second user from the gate terminal;

the server searches the recorded site in the user information list L to be complemented based on the second terminal identifier; and

when the recorded site is the unique site, the server determines the unique site as the missing site information s.

8. A background server, the background server comprising:

the system comprises an acquisition device, a storage device and a storage device, wherein the acquisition device is used for acquiring a to-be-complemented user information list L, and the list L comprises one or more to-be-complemented users;

The searching device is used for searching the missing site information s corresponding to the user to be complemented from the list L when receiving the notification of the user to be complemented for entering and exiting verification from the gate terminal; and

and the transmitting device is used for providing the missing station information s for the gate terminal.

9. The backend server of claim 8, wherein the obtaining means comprises:

a first receiving unit, configured to receive a terminal identification set X from the gate terminal, where the terminal identification set includes all user terminal identification information within a certain range of the gate terminal;

the recording unit is used for recording the identification information of all the user terminals, the stations corresponding to the gate terminals and the time stamps to form a first user information list; and

and the deleting unit is used for deleting the information record corresponding to the first user from the first user information list after the first user successfully enters and exits, so as to form a user information list L to be complemented.

10. A backend server according to claim 8 or 9, wherein the gate terminal is a subway gate.

11. The background server of claim 9, wherein the terminal identification set X is obtained by a near field communication device through an RSSI distance detection technique or a bluetooth technique search and provided to the gate terminal.

12. The background server of claim 9, wherein the recording unit is configured to:

matching corresponding user registration mobile phone numbers U according to all terminal identification information in the terminal identification set X; and

forming a first user information list L, wherein the first user information list L comprises one or more records corresponding to the terminal identification information, and each record comprises: the user terminal identification, the user registration mobile phone number U, the site where the gate terminal is located and the current time stamp.

13. The background server of claim 12, wherein the deletion unit is configured to:

after the gate terminal verifies that the first user enters and exits successfully, receiving a first terminal identifier corresponding to the first user from the gate terminal; and

and deleting the record corresponding to the first terminal identifier from the first user information list.

14. The backend server of claim 8, wherein the lookup means comprises:

the second receiving unit is used for receiving a second terminal identifier corresponding to a second user from the gate terminal when the gate terminal recognizes that the last site information of the second user is missing;

the searching unit is used for searching the recorded sites in the user information list L to be complemented based on the second terminal identification; and

And the determining unit is used for determining the unique site as the missing site information s by the server when the recorded site is the unique site.

15. A gate terminal, the gate terminal comprising:

the near field communication device is used for searching and obtaining a terminal identification set X through an RSSI distance detection technology or a Bluetooth technology, wherein the terminal identification set comprises all user terminal identification information within a certain range of the near field communication device;

transmitting means for providing the set of terminal identifications X to a background server according to any one of claims 8 to 14; after successful entering and exiting of a first user is verified, a first terminal identifier corresponding to the first user is sent to the background server so as to form a user information list L to be complemented; when the last site information of a second user is identified to be missing, a second terminal identifier corresponding to the second user is sent to the background server; and

and the receiving device is used for receiving the missing site information s corresponding to the second terminal identifier from the background server.

16. An automatic information supplementing method for a gate terminal, the method comprising:

Collecting a terminal identification set X, wherein the terminal identification set comprises all user terminal identification information within a certain range of the gate terminal;

the terminal identification set is sent to a server, so that the server maintains a user information list L;

sending a notice to the server, wherein the notice indicates that one or more users to be complemented are in-and-out station verification, so that the server searches missing station information s corresponding to the users to be complemented from the list L; and

the missing site information s is received from the server.

17. The method of claim 16, wherein transmitting the set of terminal identifications to a server such that the server maintains a list of user information L comprises:

the terminal identification set is sent to a server, so that the server records all user terminal identification information, stations corresponding to the gate terminal and time stamps so as to form a first user information list; and

and after the first user successfully enters and exits, sending a notification to the server, so that the server deletes the information record corresponding to the first user from the first user information list, thereby forming the user information list L.

18. The method of claim 16 or 17, wherein the gate terminal is a subway gate.

19. The method of claim 16, wherein the set of terminal identifications X is obtained by a near field communication device through an RSSI distance detection technique or a bluetooth technique search and provided to the gate terminal.

20. The method of claim 17, wherein after the first user successfully enters and exits, sending a notification to the server, so that the server deletes an information record corresponding to the first user from the first user information list, thereby forming the user information list L includes:

and after the gate terminal verifies that the first user enters and exits successfully, a first terminal identifier corresponding to the first user is sent to the server, so that the server deletes a record corresponding to the first terminal identifier from the first user information list.

21. The method of claim 16, wherein sending a notification to the server indicating that one or more users to be complemented are in-and-out authenticated, such that the server looking up missing site information s corresponding to the users to be complemented from the list L comprises:

The gate terminal identifies that the last site information of the second user is missing; and

and sending a second terminal identifier corresponding to the second user to the server, so that the server searches the recorded site in the user information list L based on the second terminal identifier, and when the recorded site is the unique site, the server determines the unique site as the missing site information s.

22. A computer storage medium comprising instructions that, when executed, perform the method of automatic information replacement of any one of claims 1 to 7, 16 to 21.

23. A computer program product comprising a computer program, characterized in that the computer program, when executed by a processor, implements the method of automatic information replacement according to any one of claims 1 to 7, 16 to 21.

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