CN114615323A

CN114615323A - User approach pushing method and terminal

Info

Publication number: CN114615323A
Application number: CN202210105584.3A
Authority: CN
Inventors: 邱熠龙
Original assignee: Fuzhou Huisibo Information Technology Co ltd
Current assignee: Fuzhou Huisibo Information Technology Co ltd
Priority date: 2022-01-28
Filing date: 2022-01-28
Publication date: 2022-06-10
Anticipated expiration: 2042-01-28
Also published as: CN114615323B

Abstract

The invention discloses a user approach pushing method and a terminal, wherein network connection information is transmitted to mobile equipment through NFC or two-dimensional codes, network connection is established with the mobile equipment according to the network connection information, and user information of the mobile equipment is input, so that the user information is stored in advance. Monitoring a mobile device which initiates a connection request through wireless communication, and if the mobile device contains the entered user information, pushing a push message corresponding to the user information to the mobile device. Because the mobile device initiates the connection request through wireless communication, the mobile device can send the connection request without networking, and compared with the prior art that the message needs to be pushed through positioning or networking, the message can be pushed to the user quickly and conveniently in an offline state.

Description

User approach pushing method and terminal

Technical Field

The present invention relates to the field of mobile communications technologies, and in particular, to a user entry pushing method and a terminal.

Background

With the continuous development of the Android system, the equipment of the Android system is increasingly used in scenes such as merchant receipt, such as POS (point of sale) machines and cash registers. For merchants, a lot of cash register equipment at present are based on an Android system, and a lot of mobile phones of users are also based on the Android system; in practical scenarios, the need for information exchange between the merchant and the customer is more and more frequent.

As used herein, a user approach refers to a user entering or approaching a merchant service area, such as a user entering a mall, passing through a doorway of a merchant, etc. At present, a merchant accurately pushes a user to whom information needs to be promoted, namely, the merchant acquires positioning information of a user mobile phone and pushes the information according to the user positioning information through various small programs, APP (application) and the like through a platform; the other is offline manual pushing, specifically, offline advertisement and leaflet distribution, information promotion and publicity around merchants and the like are carried out. In the traditional modes, a set of complex platform system is required to be relied on like an online mode, or extra manpower or popularization cost is required to be input offline.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: a user approach pushing method and a terminal are provided, which can quickly and conveniently push a message to a user.

In order to solve the technical problems, the invention adopts the technical scheme that:

a user approach pushing method comprises the following steps:

transmitting network connection information to mobile equipment through NFC or providing a two-dimensional code, establishing network connection with the mobile equipment according to the network connection information, and inputting user information of the mobile equipment;

monitoring a mobile device initiating a connection request through wireless communication, judging whether the mobile device initiating the connection request contains the entered user information, and if so, pushing a push message corresponding to the entered user information to the mobile device.

In order to solve the technical problem, the invention adopts another technical scheme as follows:

a user approach push terminal comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the following steps when executing the computer program:

The invention has the beneficial effects that: the network connection information is transmitted to the mobile equipment through NFC or two-dimensional codes, network connection is established with the mobile equipment according to the network connection information, and user information of the mobile equipment is input, so that the user information is stored in advance. Monitoring a mobile device which initiates a connection request through wireless communication, and if the mobile device contains the entered user information, pushing a push message corresponding to the user information to the mobile device. Because the mobile device initiates the connection request through wireless communication, the mobile device can send the connection request without networking, and compared with the prior art that the message needs to be pushed through positioning or networking, the message can be pushed to the user quickly and conveniently in an offline state.

Drawings

Fig. 1 is a flowchart of a user approach pushing method according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a user approach pushing terminal according to an embodiment of the present invention;

fig. 3 is a model diagram of a user approach pushing method according to an embodiment of the present invention;

fig. 4 is a timing diagram of access information of a mobile device in a user approach pushing method according to an embodiment of the present invention;

fig. 5 is a timing diagram illustrating a mobile device discovery procedure of a user approach push terminal according to an embodiment of the present invention;

description of reference numerals:

1. a user approach push terminal; 2. a memory; 3. a processor.

Detailed Description

In order to explain technical contents, achieved objects, and effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1, fig. 3 to fig. 5, an embodiment of the present invention provides a user approach pushing method, including the steps of:

From the above description, the beneficial effects of the present invention are: the network connection information is transmitted to the mobile equipment through NFC or two-dimensional codes, network connection is established with the mobile equipment according to the network connection information, and user information of the mobile equipment is input, so that the user information is stored in advance. Monitoring a mobile device which initiates a connection request through wireless communication, and if the mobile device contains the entered user information, pushing a push message corresponding to the user information to the mobile device. Because the mobile device initiates the connection request through wireless communication, the mobile device can send the connection request under the condition of no networking, and compared with the prior art that the message needs to be pushed through positioning or networking, the message can be pushed to the user quickly and conveniently in an offline state.

Further, the transmitting the network connection information to the mobile device through the NFC or providing the two-dimensional code includes:

reading network connection information, wherein the network connection information comprises an address and a port of wireless communication;

sending the address and the port of the wireless communication to a mobile device through NFC;

or generating a two-dimensional code from the address and the port of the wireless communication, so that the mobile terminal obtains the address and the port of the wireless communication by scanning the two-dimensional code.

As can be seen from the above description, the network connection information can be quickly and conveniently transmitted to the mobile device by means of NFC or scanning the two-dimensional code, so as to access the mobile device of the user, thereby facilitating subsequent establishment of network connection with the mobile device and discovery of the mobile device.

Further, establishing a network connection with a mobile device according to the network connection information, and entering user information of the mobile device includes:

selecting a networking mode available between the mobile equipment and the mobile equipment according to the network connection information;

selecting a networking mode with the highest priority from the available networking modes according to the preset priority determined by the transmission rate and the stability of networking connection, and establishing a connection channel with the mobile equipment;

and acquiring and inputting the user information of the mobile equipment through the connecting channel.

According to the description, the networking priority is determined according to the transmission rate and the networking connection stability, so that after the networking modes available between the mobile equipment and the mobile equipment are determined, the networking mode with the highest priority in the available networking modes is selected according to the priority, and the networking efficiency can be improved.

Further, the mobile device listening for the connection request initiated by the wireless communication comprises:

monitoring network connection information broadcasted by the mobile equipment through wireless communication, wherein the wireless communication comprises a wireless local area network or Bluetooth;

and establishing network connection with the mobile equipment according to the monitored network connection information of the mobile equipment.

As can be seen from the above description, the mobile device broadcasts the network connection information in a wireless lan or bluetooth manner, so that the network connection information can be propagated without networking, and compared with a networking push message in the prior art, the mobile device can quickly and conveniently push the message to the user in an offline state.

Further, the determining whether the mobile device initiating the connection request includes the entered user information, and if so, pushing a push message corresponding to the entered user information to the mobile device includes:

and acquiring the user information of the mobile equipment initiating the connection request, judging whether the user information is the input user information, if so, pushing a push message corresponding to the input user information to the mobile equipment, and otherwise, pushing the information to the mobile equipment according to a default push requirement.

According to the description, the corresponding message pushing is carried out on the mobile terminal with the user information input, and the message pushing is carried out on the strange mobile terminal without the user information input according to the default pushing requirement, so that the message can be pushed adaptively according to the found mobile terminal.

Referring to fig. 2, another embodiment of the present invention provides a user approach pushing terminal, including a memory, a processor, and a computer program stored in the memory and executable on the processor, where the processor implements the following steps when executing the computer program:

As can be seen from the above description, the network connection information is transmitted to the mobile device through NFC or by providing a two-dimensional code, the network connection is established with the mobile device according to the network connection information, and the user information of the mobile device is entered, so that the user information is stored in advance. Monitoring a mobile device which initiates a connection request through wireless communication, and if the mobile device contains the entered user information, pushing a push message corresponding to the user information to the mobile device. Because the mobile device initiates the connection request through wireless communication, the mobile device can send the connection request under the condition of no networking, and compared with the prior art that the message needs to be pushed through positioning or networking, the message can be pushed to the user quickly and conveniently in an offline state.

According to the description, the networking priority is determined according to the transmission rate and the networking connection stability, so that after the available networking modes with the mobile device are determined, the networking mode with the highest priority in the available networking modes is selected according to the priority, and the networking efficiency can be improved.

The user approach pushing method and the terminal are suitable for a scene that a merchant needs to quickly sense the approach of a target customer and pushes information to the customer, and can quickly and conveniently push the information to the user, and the following description is given by a specific implementation mode:

example one

Referring to fig. 1, fig. 3 to fig. 5, a method for pushing a user to enter a field, where an execution main body of the method is a terminal, and in this embodiment, the execution main body terminal is a merchant terminal a, and a mobile device is a user terminal B, includes the steps of:

s1, transmitting the network connection information to the mobile equipment through NFC or providing the two-dimensional code, establishing network connection with the mobile equipment according to the network connection information, and inputting user information of the mobile equipment.

Specifically, when a user does not interact with a merchant through any terminal, the merchant cannot accurately correspond to the device of an unfamiliar user even if the merchant can find the user device, so that the user mobile device needs to access the device in a way of touching one touch pad by NFC or scanning a two-dimensional code of the merchant terminal when interacting with the merchant terminal for the first time.

S11, reading network connection information, wherein the network connection information comprises addresses and ports of wireless communication.

In this embodiment, the ad hoc network service in the terminal a is started when the merchant applies the binding service, or the monitoring system starts up and broadcasts the start. And the user application of the user application layer in the terminal A calls an equipment discovery interface provided by the ad hoc network adaptation service according to the service requirement, and waits for the discovery of the target equipment. The ad hoc network service of the terminal a reads the IP and port of the terminal a, which includes the IP and port of the WiFi local area network, the bluetooth address and port, etc., so as to transmit to the terminal B.

And S121, sending the address and the port of the wireless communication to the mobile equipment through NFC.

Specifically, in this embodiment, if the user selects to touch a merchant terminal with NFC of the mobile device, the ad hoc network service of the terminal a receives a call request of an application layer of the terminal a, starts an NFC card reading function using an Android native NFC interface, and waits for a card reading of the terminal B.

And the ad hoc network service of the terminal B is started after monitoring the system startup broadcast, and the ad hoc network service of the terminal B uses the Android native NFC simulation card function to simulate the terminal B equipment as an NFC card.

When the terminal A reads the device B which is simulated to be the NFC card and the AID is the appointed AID, information such as the IP, the port and the Bluetooth address of the terminal A is sent to the terminal B through the NFC channel.

And after the terminal B receives the NFC information sent by the terminal A, verifying the designated AID, and if the verification is passed, receiving the terminal information, the IP address and other information sent by the terminal A through the NFC channel.

S122, or generating a two-dimensional code by the address and the port of the wireless communication, so that the mobile terminal obtains the address and the port of the wireless communication by scanning the two-dimensional code.

Specifically, in this embodiment, if the user selects to scan the two-dimensional code of the merchant terminal by using the mobile device, the ad hoc network service of the terminal a generates the two-dimensional code from the previously read information of the IP and the port of the terminal a, including the IP and the port of the WiFi local area network, the bluetooth address, the port, and the like, displays a two-dimensional code interface on the terminal a, and waits for the terminal B to scan the two-dimensional code;

the user opens the application of the terminal B, calls a code scanning connection interface in the ad hoc network service of the terminal B, pops up a two-dimensional code of the code scanning interface scanning terminal A, and the ad hoc network service of the terminal B analyzes the terminal information, WiFi information, Bluetooth information and the like contained in the two-dimensional code.

And S13, selecting the networking mode available between the mobile equipment according to the network connection information.

S14, selecting the networking mode with the highest priority from the available networking modes according to the preset priority determined by the transmission rate and the stability of networking connection, and establishing a connection channel with the mobile equipment.

Specifically, in this embodiment, the ad hoc network service of the terminal B decides an optimal connection channel according to the network connection information sent by the terminal a:

the preset priority determined according to the transmission rate and the stability of the networking connection is as follows: USB communication-bluetooth networking-WiFi P2P networking-WiFi AP networking-NFC networking; the USB communication transmission rate is fastest and most stable; the transmission efficiency of the Bluetooth networking is slightly lower than that of a WiFi channel, but the WiFi channel usually acts on other services at the same time, and the interference on other services can be reduced by preferentially using the Bluetooth channel; the NFC channel has the lowest transmission efficiency and exclusivity, and occupation affects other services, so the priority is the lowest.

And selecting the networking mode with the highest priority from the available networking modes according to the networking modes available for the current terminal A and the terminal B. And when the used networking mode is not reachable, the information of the terminal A is acquired again, and the optimal connection channel is established by re-decision.

And S15, acquiring and inputting the user information of the mobile equipment through the connecting channel.

Specifically, in this embodiment, a network connection channel is established when networking between the terminal a and the terminal B is successful, and service interaction data required by subsequent applications can be transmitted through the established channel;

and the user selects whether to automatically receive the message pushed by the merchant on the application interface of the terminal B, and the message is stored by the ad hoc network adaptation service of the terminal B. The merchant inputs remark user information on the application of the terminal A, so that the information is pushed to the user terminal next time the user approaches the merchant terminal.

S2, monitoring the mobile equipment initiating the connection request through wireless communication, judging whether the mobile equipment initiating the connection request contains the recorded user information, and if so, pushing a push message corresponding to the recorded user information to the mobile equipment.

And S21, monitoring network connection information broadcast by the mobile equipment through wireless communication, wherein the wireless communication comprises a wireless local area network or Bluetooth.

Specifically, in this embodiment, the ad hoc network service of the terminal a is started when the user applies the binding service, or the monitoring system starts up to broadcast; the ad hoc network service of the terminal A reads the IP and the port of the terminal A, including the IP and the port of the WiFi local area network, the Bluetooth address and the port, and starts to monitor the broadcast information of other surrounding terminals, namely to discover surrounding equipment.

The terminal B ad hoc network service broadcasts the network connection information of the terminal B by using a CoAP protocol; the CoAP protocol supports IP multicast, namely, the CoAP protocol can simultaneously send requests to a plurality of devices, and based on the characteristic, the efficient discovery of the target terminal can be realized; CoAP is a lightweight web protocol which can be used on resource-limited Internet of things equipment and supports reliable transmission, and equipment discovery based on the protocol can be used for both common Android equipment and Internet of things equipment.

The discovery device is in a local area network or in a Bluetooth opening state depending on two devices; the terminal B broadcasts the address of the terminal B in the local area network or the Bluetooth address through the CoAP protocol, and the terminal A monitors the broadcast sent by the terminal B and discovers the terminal B. Thus, discovery of devices is essentially because both devices are in a local area network or bluetooth on state, thereby enabling device discovery in an offline state.

S22, establishing network connection with the mobile equipment according to the monitored network connection information of the mobile equipment.

Specifically, in this embodiment, the terminal B ad hoc network service creates a TCP Socket session server and waits to be discovered and connected;

after the terminal A monitors the service and discovers the terminal B, the terminal A is used as a socket client to establish TCP connection with a socket server session server established by the terminal B.

S23, obtaining the user information of the mobile equipment initiating the connection request, and judging whether the user information is the recorded user information, if so, pushing a push message corresponding to the recorded user information to the mobile equipment, otherwise, pushing the information to the mobile equipment according to a default push requirement.

Specifically, the terminal a acquires the information of the terminal B, the IP address port, and the like through the channel, and matches the information of the user entered by the previous user access to associate the found terminal with the information of the user; if the found terminal is not connected before and the user information is not input, the terminal is a strange device, and whether to push information to the device can be determined according to the requirements of merchants.

The application of a merchant at a terminal A calls an equipment interconnection interface of the ad hoc network service as required, initiates an interconnection request with equipment B, and sends information of the terminal A, wherein the information comprises current WiFi information, Bluetooth information, USB port information, Ethernet information and NFC information of the terminal A;

the terminal B decides whether to approve the establishment of the connection and whether to establish the silent connection or pop up a prompt box when establishing the connection according to the information sent by the terminal A, and the user of the terminal B authorizes the establishment of the connection;

if the terminal A is a merchant terminal which is authorized by the terminal B user and allows automatic message pushing, connection establishment is allowed, and a connection authorization prompt does not need to be popped up at the terminal B;

if the terminal A is not the terminal authorized by the user B, connection establishment is allowed, and a connection authorization prompt pops up at the terminal B;

if the terminal A is a terminal which the user B does not allow to push the message, the connection is not allowed and the terminal A is informed of the result.

When the terminal B allows to establish connection, the ad hoc network service decides an optimal connection channel according to WiFi information, Bluetooth information, USB port information, Ethernet information and NFC information sent by the terminal A, the networking mode is according to the current networking mode available for the terminal A and the terminal B, and the priority is as follows: USB communication-bluetooth networking-Wifi P2P networking-Wifi AP networking-NFC networking. And when the networking mode is not reachable, the information of the terminal A is acquired again, and the optimal connection channel is established by re-decision.

Successfully networking the terminal A and the terminal B, and establishing an equipment interconnection channel; service interaction data required by subsequent applications can be transmitted through the established channel; the merchant selects the content needing to be pushed in the terminal A and sends the content to the terminal B, and the application of the terminal B receives and displays the message pushed by the merchant.

Wherein when carrying out data transmission, can be according to data security level, when the data transmission interface of transferring unified network interface, introduce into data security level, in this embodiment, data security level divide into three kinds: encrypting the data type, wherein encryption is required in the transmission process; general data, which is directly transmitted; specific data types, IP and equipment authentication is required during transmission;

for the encrypted data, generating a PIN code by a terminal B, and inputting the PIN code into a terminal A; negotiating a session key based on the PIN code and PAKE protocol handshake; the encrypted type data is transmitted encrypted by the key.

For specific type data, IP and equipment authentication are required, a terminal B designates the IP which can be transmitted by user application, and when a terminal A initiates a data transmission request, whether the IP is legal or not is verified; authentication of the device may be selected by the user application to be authenticated by the terminal owner information or by the designated terminal information (e.g., designating a device ID, designating a logged-in user, etc.).

For data which does not need to be encrypted, the data can be directly transmitted after the connection is established.

Therefore, the user approach pushing method in this embodiment has the following advantages over the conventional discovery means of some approach devices:

1. compared with a WiFi probe mode, the WiFi probe mode only supports machines with the versions below 6.0 of Android, but the embodiment is not limited by the Android versions;

2. the device near WiFi P2P is used for triggering device discovery, WiFi direct connection is opened by both sides and the device is in a device searching state, the device discovery has high power consumption on the device, and the networking communication protocol is complex; the embodiment supports IP multicast and automatic discovery, has low energy consumption, can be in a state of discovering equipment in real time, and is more suitable for detecting the scene of the approach of the target equipment in real time.

Example two

Referring to fig. 2, a user approach push terminal includes a memory, a processor, and a computer program stored in the memory and executable on the processor, where the processor executes the computer program to implement the steps of a user approach push method according to an embodiment.

In summary, according to the user approach pushing method and the user approach pushing terminal provided by the present invention, network connection information is transmitted to the mobile device through NFC or two-dimensional codes, network connection is established with the mobile device according to the network connection information, and user information of the mobile device is entered, so that the user information is stored in advance, wherein when the user device accesses, the merchant terminal and the mobile device are discovered by using the characteristic that NFC touches quickly and conveniently, and by using an AID that is pre-specified by both parties. Monitoring a mobile device which initiates a connection request through wireless communication, and if the mobile device contains the entered user information, pushing a push message corresponding to the user information to the mobile device. Because the mobile device initiates the connection request through wireless communication, the mobile device can send the connection request without networking, and compared with the prior art that the message needs to be pushed through positioning or networking, the message can be pushed to the user quickly and conveniently in an offline state.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes made by using the contents of the present specification and the drawings, or applied directly or indirectly to the related technical fields, are included in the scope of the present invention.

Claims

1. A user approach pushing method is characterized by comprising the following steps:

2. The user approach pushing method according to claim 1, wherein the transmitting the network connection information to the mobile device through NFC or providing a two-dimensional code comprises:

3. The user approach pushing method according to claim 1, wherein establishing a network connection with a mobile device according to the network connection information, and entering user information of the mobile device comprises:

4. The user approach pushing method according to claim 1, wherein the listening to the mobile device initiating the connection request through wireless communication comprises:

5. The method according to claim 1, wherein the step of determining whether the mobile device that initiates the connection request includes the entered user information is performed, and if yes, the step of pushing a push message corresponding to the entered user information to the mobile device includes:

6. A user approach push terminal comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the processor implements the following steps when executing the computer program:

monitoring mobile equipment initiating a connection request through wireless communication, judging whether the mobile equipment initiating the connection request contains the entered user information, and if so, pushing a push message corresponding to the entered user information to the mobile equipment.

7. The user approach push terminal of claim 6, wherein the transmitting the network connection information to the mobile device through NFC or providing a two-dimensional code comprises:

8. The user approach push terminal according to claim 6, wherein establishing a network connection with a mobile device according to the network connection information, and entering user information of the mobile device comprises:

9. The user approach push terminal according to claim 6, wherein the mobile device for listening to initiate the connection request through wireless communication comprises:

10. The user approach push terminal according to claim 6, wherein the determining whether the mobile device initiating the connection request includes the entered user information, and if so, pushing a push message corresponding to the entered user information to the mobile device includes: