CN106453212A - Method and system for realizing wireless connection - Google Patents

Abstract

The invention discloses a method and a system for realizing a wireless connection. The method comprises the steps of acquiring a biological characteristic of a second terminal user by a first terminal, and generating a corresponding biological characteristic code according to the acquired biological characteristic of the second terminal user; extracting coding information of continuous bytes from the generated biological characteristic code by the first terminal as a first terminal media access control layer (MAC) address, and broadcasting the MAC address of the first terminal to a second terminal; and on the condition that the received MAC address of the first terminal received by the second terminal matches the pre-stored biological characteristic code of the second terminal user, establishing the wireless connection. According to the method and the system, the coding information of the continuous bytes are extracted from the biological characteristic code which is generated by the biological characteristic of the second terminal user acquired by the first terminal as the MAC address of the first terminal, and the MAC address of the first terminal is transmitted to the second terminal; the MAC address of the first terminal is matched with the biological characteristic code of the second terminal user for realizing the wireless connection, thereby simplifying a wireless connecting process and saving time in a wireless connecting process.

Description

Method and system for realizing wireless connection

Technical Field

The present invention relates to near field communication technologies, and in particular, to a method and system for implementing wireless connection.

Background

At present, when different mobile terminals are connected through Bluetooth or WIFI, the terminals need to be manually searched, after the terminals are searched, the terminals are displayed on a notification bar, pairing is confirmed through a determined pairing key, and the connection process is complicated and time-consuming.

Disclosure of Invention

In order to solve the above technical problems, the present invention provides a method and a system for implementing wireless connection, which can simplify the wireless connection process and reduce time consumption.

In order to achieve the object of the present invention, the present invention provides a method for implementing wireless connection, including:

the first terminal acquires the biological characteristics of the second terminal user and generates a corresponding biological characteristic code according to the acquired biological characteristics of the second terminal user;

the first terminal extracts continuous byte coding information from the generated biological feature code to be used as a first terminal media access control layer MAC address, and broadcasts and sends the coding information to the second terminal;

and when the MAC address of the first terminal received by the second terminal is matched with the pre-stored biological feature code of the second terminal user, establishing wireless connection.

Further, the method also comprises the following steps: after a first terminal and a second terminal establish wireless connection, the second terminal is allowed to send data information to the first terminal, and the first terminal is not allowed to send information to the second terminal.

Further, the biometric features include: fingerprint, face, iris or voiceprint.

Further, the wireless connection includes: bluetooth connection or wireless local area network WIFI connection.

Further, before obtaining the biometric characteristic of the second end-user, the method further comprises:

the first terminal and/or the second terminal acquire the somatosensory motion information through a preset sensor, match the acquired somatosensory motion information with preset somatosensory matching information, and enter the wireless connection process when the matching is passed.

On the other hand, the application also provides a system for realizing wireless connection, which comprises a first terminal and a second terminal; wherein,

the first terminal comprises an acquisition conversion unit and an extraction broadcast unit; wherein,

the acquisition conversion unit is used for acquiring the biological characteristics of the second terminal user and generating a corresponding biological characteristic code according to the acquired biological characteristics of the second terminal user;

an extraction broadcasting unit for extracting continuous byte coding information from the generated biological feature code as a first terminal MAC address and broadcasting to a second terminal;

the second terminal includes at least a matching connection unit for establishing a wireless connection when the MAC address of the first terminal received by the second terminal matches a pre-stored biometric code of the second terminal user.

Furthermore, the first terminal also comprises a first setting unit, which is used for disallowing the information to be sent to the second terminal after the wireless connection is established with the second terminal;

the second terminal also comprises a second setting unit which is used for setting permission to send data information to the first terminal after the wireless connection is established with the first terminal.

Further, the biometric features include: fingerprint, face, iris or voiceprint.

Further, the wireless connection includes: bluetooth connection or WIFI connection.

Further, the first terminal further comprises a first somatosensory unit, wherein the first somatosensory unit is used for acquiring the somatosensory action information through a preset sensor, matching the acquired somatosensory action information with preset somatosensory matching information, and entering a wireless connection process when the matching is passed.

Furthermore, the second terminal further comprises a second somatosensory unit, wherein the second somatosensory unit is used for acquiring somatosensory action information through a preset sensor, matching the acquired somatosensory action information with preset somatosensory matching information, and entering a wireless connection process when the matching is passed.

Compared with the prior art, the technical scheme of the application comprises the following steps: the first terminal acquires the biological characteristics of the second terminal user and generates a corresponding biological characteristic code according to the acquired biological characteristics of the second terminal user; the first terminal extracts continuous byte coding information from the generated biological feature code to be used as a first terminal Media Access Control (MAC) address, and broadcasts and sends the coding information to the second terminal; and when the MAC address of the first terminal received by the second terminal is matched with the pre-stored biological feature code of the second terminal user, establishing wireless connection. The invention extracts continuous byte coding information from the biological characteristic code generated by acquiring and converting the biological characteristics of the second terminal user from the first terminal, and sends the continuous byte coding information as the MAC of the first terminal to the second terminal, and the continuous byte coding information is matched with the biological characteristic code of the second terminal user to realize wireless connection, thereby simplifying the wireless connection process and saving the time of the wireless connection process.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

FIG. 1 is a flow chart of a method for implementing a wireless connection according to the present invention;

FIG. 2 is a block diagram of a system for implementing wireless connection according to the present invention;

FIG. 3 is a flow chart of a method of the first embodiment of the present invention;

fig. 4 is a flow chart of a method of the first embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail below with reference to the accompanying drawings. It should be noted that the embodiments and features of the embodiments in the present application may be arbitrarily combined with each other without conflict.

Fig. 1 is a flowchart of a method for implementing wireless connection according to the present invention, as shown in fig. 1, including:

step 100, the first terminal acquires the biological characteristics of the second terminal user and generates a corresponding biological characteristic code according to the acquired biological characteristics of the second terminal user;

in this step, the biological characteristics include: fingerprint, face, iris or voiceprint.

Step 101, the first terminal extracts continuous byte coding information from the generated biological feature code as a first terminal Media Access Control (MAC) layer address, and broadcasts and sends the coding information to the second terminal;

it should be noted that the biometric code is a code sequence in the form of "17 a6 c 66 b 207 f … … ff a 515 a2 d4a 6", so that the extracted continuous bytes of code information can be broadcast as MAC addresses to the second terminal, and the length of the extracted code information is the same as the MAC addresses. In addition, taking the fingerprint as the biometric characteristic as an example, the fingerprint of which finger is used for the biometric characteristic code matching in step 102 needs to be agreed manually, that is, the acquired fingerprint needs to be the fingerprint in which the biometric characteristic code of the second terminal user is stored in advance in the second terminal; the biological feature code of the second terminal user pre-stored by the second terminal is theoretically a complete biological feature code of the second terminal user; for example, if the first terminal acquires the fingerprint of the left thumb of the second terminal user to perform the wireless connection according to the method of the present invention, the second terminal should theoretically store the complete biometric code of the left thumb of the second terminal user.

And 102, when the MAC address of the first terminal received by the second terminal is matched with the pre-stored biological feature code of the second terminal user, establishing wireless connection.

Here, the matching means that the biometric code of the second terminal user stored in advance includes the same encoded information as the MAC address of the first terminal.

The method of the invention also comprises the following steps: after the first terminal and the second terminal establish wireless connection, the second terminal is allowed to send data information to the first terminal, and the first terminal is not allowed to send information to the second terminal.

It should be noted that, here, the first terminal and the second terminal are relative, and the setting for allowing the second terminal to send the data information to the first terminal is based on: inputting the biological characteristics of a first terminal user on a second terminal, converting the biological characteristics into a biological characteristic code, extracting continuous byte coding information as a first terminal MAC address, and sending the first terminal MAC address to the second terminal for matching; if the first terminal needs to send data information to the second terminal, the requirement that the biological characteristics of the second terminal user are input on the first terminal is met, the biological characteristics are converted into biological characteristic codes, and then coding information of continuous bytes is extracted and used as the MAC address of the second terminal to be sent to the first terminal for matching is met.

The wireless connection includes: bluetooth connection or wireless local area network WIFI connection.

Before obtaining the biometric characteristic of the second end user, the method of the present invention further comprises:

the first terminal and/or the second terminal acquire the somatosensory action information through a preset sensor, match the acquired somatosensory action information with preset somatosensory matching information, and enter a wireless connection process when the matching is passed.

The invention extracts continuous byte coding information from the biological characteristic code generated by acquiring and converting the biological characteristics of the second terminal user from the first terminal, and sends the continuous byte coding information as the MAC of the first terminal to the second terminal, and the continuous byte coding information is matched with the biological characteristic code of the second terminal user to realize wireless connection, thereby simplifying the wireless connection process and saving the time of the wireless connection process.

Fig. 2 is a structural diagram of a system for implementing wireless connection according to the present invention, as shown in fig. 2, including a first terminal and a second terminal; wherein,

the first terminal comprises an acquisition conversion unit and an extraction broadcast unit; wherein,

the acquisition conversion unit is used for acquiring the biological characteristics of the second terminal user and generating a corresponding biological characteristic code according to the acquired biological characteristics of the second terminal user;

an extraction broadcasting unit for extracting continuous byte coding information from the generated biological feature code as a first terminal MAC address and broadcasting to a second terminal;

the second terminal includes at least a matching connection unit for establishing a wireless connection when the MAC address of the first terminal received by the second terminal matches a pre-stored biometric code of the second terminal user and the match is passed.

The first terminal also comprises a first setting unit which is used for disallowing the information to be sent to the second terminal after the wireless connection is established with the second terminal;

the second terminal further comprises a second setting unit, which is used for setting permission to send data information to the first terminal after establishing wireless connection with the first terminal.

The biological characteristics include: fingerprint, face, iris or voiceprint.

The wireless connection includes: bluetooth connection or WIFI connection.

The first terminal further comprises a first somatosensory unit, the first somatosensory unit is used for acquiring somatosensory action information through a preset sensor, matching the acquired somatosensory action information with preset somatosensory matching information, and entering a wireless connection process when the matching is passed.

The second terminal further comprises a second somatosensory unit, the second somatosensory unit is used for acquiring somatosensory action information through a preset sensor, matching the acquired somatosensory action information with preset somatosensory matching information, and entering a wireless connection process when the matching is passed.

The process of the present invention is illustrated in clear detail below by means of specific examples, which are only intended to illustrate the invention and are not intended to limit the scope of the process of the invention.

Example 1

In this embodiment, a process of performing wireless connection by taking a first terminal of a first end user and a second terminal of a second end user as examples is described, where the wireless connection may be bluetooth, WIFI, or the like.

In the embodiment, a wireless connection of bluetooth is taken as an example for explanation, and the embodiment assumes that a first terminal of a first terminal user is provided with a sensor in advance, and can acquire somatosensory motion information; a second terminal of a second terminal user is also provided with a sensor in advance, so that somatosensory action information can be acquired; assuming that the preset somatosensory matching information is stored in the first terminal and the second terminal, the terminals move up and down for three times within a certain time, and when the somatosensory action information meets the requirement of the somatosensory matching information, the Bluetooth connection process is started. In addition, the embodiment is described with the left thumb fingerprint of the second end user as the biometric fingerprint; of course, the user may adopt other fingers as the biometric fingerprint or adopt iris, voiceprint, etc. as the biometric fingerprint according to the usage habit.

Fig. 3 is a flowchart of a method according to a first embodiment of the present invention, as shown in fig. 3, including:

step 300, the first terminal acquires somatosensory motion information of a first terminal user moving the terminal up and down three times within a certain time through a preset sensor, matches the acquired somatosensory motion information with prestored somatosensory matching information, and enters a Bluetooth connection process; here, enter the bluetooth connection procedure; by adopting the method of the embodiment, the Bluetooth connection process is fast and time-saving.

301, the second terminal acquires somatosensory motion information of a second terminal user moving the terminal up and down three times within a certain time through a preset sensor, matches the acquired somatosensory motion information with prestored somatosensory matching information, and enters a Bluetooth connection process;

step 300 and step 301 are performed on both terminals, in chronological order.

Assuming that a second terminal needs to send data information such as business cards, pictures or documents to a first terminal, and the embodiment sets that a biological fingerprint of a user of the second terminal is input into the first terminal, converted to generate a biological feature code, and the extracted MAC address is broadcasted to the second terminal to complete the matching of the biological feature code, so that the data information from the second terminal to the first terminal can be sent; step 302 is executed;

step 302, the second terminal user inputs the left thumb fingerprint on the first terminal, and the first terminal generates a corresponding biometric code according to the input left thumb fingerprint of the second terminal user.

And step 303, the first terminal extracts continuous bytes of coding information from the generated biological feature code to be used as a MAC address of the first terminal and broadcasts and transmits the coding information.

Step 304, the second terminal receives the MAC address broadcast by the first terminal, matches the received MAC address of the first terminal with the pre-stored biological feature code of the second terminal user, and establishes Bluetooth connection when the matching is passed; here, since the second terminal stores the left thumb fingerprint in advance and obtains the biometric code in the same conversion manner, the biometric code of the second terminal user necessarily contains the encoded portion contained in the MAC address broadcast-transmitted by the first terminal.

And 305, the second terminal sends data information such as business cards, pictures or documents to the first terminal through the established Bluetooth connection.

If the first terminal needs to send data information such as business cards, pictures or documents to the second terminal, according to the rule set by the embodiment, the biometric fingerprint of the first terminal user needs to be input into the second terminal, the biometric fingerprint is converted to generate a biometric code, and the extracted MAC address is broadcasted to the first terminal to complete the matching of the biometric code, so that the data information from the first terminal to the second terminal can be sent.

Example 2

In the embodiment, a wireless connection of WIFI is taken as an example for explanation, and the embodiment assumes that a first terminal of a first terminal user is provided with a sensor in advance, and can acquire somatosensory motion information; a second terminal of a second terminal user is also provided with a sensor in advance, so that somatosensory action information can be acquired; assuming that the preset somatosensory matching information is stored in the first terminal and the second terminal, the terminals move up and down for three times within a certain time, and entering a WIFI connection flow when the somatosensory action information meets the requirement of the somatosensory matching information. In addition, the embodiment is described with the left thumb fingerprint of the second end user as the biometric fingerprint; of course, the user may adopt other fingers as the biometric fingerprint or adopt iris, voiceprint, etc. as the biometric fingerprint according to the usage habit.

Fig. 4 is a flowchart of a method according to a second embodiment of the present invention, as shown in fig. 4, including:

step 400, the first terminal acquires somatosensory action information of a first terminal user moving the terminal up and down three times within a certain time through a preset sensor, matches the acquired somatosensory action information with prestored somatosensory matching information, and enters a WIFI connection process; here, enter the bluetooth connection procedure; by adopting the method, entering the WIFI connection process is quick and time-saving.

Step 401, the second terminal acquires somatosensory motion information of a second terminal user moving the terminal up and down three times within a certain time through a preset sensor, matches the acquired somatosensory motion information with prestored somatosensory matching information, and enters a WIFI connection process;

steps 400 and 401 are performed on both terminals in chronological order.

Assuming that a second terminal needs to send data information such as business cards, pictures or documents to a first terminal, and the embodiment sets that a biological fingerprint of a user of the second terminal is input into the first terminal, converted to generate a biological feature code, and the extracted MAC address is broadcasted to the second terminal to complete the matching of the biological feature code, so that the data information from the second terminal to the first terminal can be sent; step 402 is executed;

and step 402, the second terminal user inputs the left thumb fingerprint on the first terminal, and the first terminal generates a corresponding biological feature code according to the input left thumb fingerprint of the second terminal user.

And step 403, the first terminal extracts continuous bytes of coding information from the generated biological feature code as a MAC address of the first terminal and broadcasts and transmits the coding information.

Step 404, the second terminal receives the MAC address broadcast by the first terminal, matches the received MAC address of the first terminal with a pre-stored biological feature code of the second terminal user, and establishes WIFI connection when the matching is passed; here, since the second terminal is used to store the left thumb fingerprint in advance and obtain the biometric code in the same conversion manner, the biometric code of the second terminal user must contain the encoded portion contained in the MAC address broadcast by the first terminal.

And 405, the second terminal sends data information such as business cards, pictures or documents to the first terminal through the established WIFI connection.

If the first terminal needs to send data information such as business cards, pictures or documents to the second terminal, according to the rule set by the embodiment, the biometric fingerprint of the first terminal user needs to be input into the second terminal, the biometric fingerprint is converted to generate a biometric code, and the extracted MAC address is broadcasted to the first terminal to complete the matching of the biometric code, so that the data information from the first terminal to the second terminal can be sent.

It should be noted that, except for the wireless connection process of bluetooth and WIFI, the method of the present invention may be applied to other near field communications that may be connected only by matching.

Although the embodiments of the present invention have been described above, the above description is only for the convenience of understanding the present invention, and is not intended to limit the present invention. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (11)

1. A method for implementing a wireless connection, comprising:

the first terminal acquires the biological characteristics of the second terminal user and generates a corresponding biological characteristic code according to the acquired biological characteristics of the second terminal user;

the first terminal extracts continuous byte coding information from the generated biological feature code to be used as a first terminal media access control layer MAC address, and broadcasts and sends the coding information to the second terminal;

and when the MAC address of the first terminal received by the second terminal is matched with the pre-stored biological feature code of the second terminal user, establishing wireless connection.

2. The method of claim 1, further comprising, prior to the method: after a first terminal and a second terminal establish wireless connection, the second terminal is allowed to send data information to the first terminal, and the first terminal is not allowed to send information to the second terminal.

3. The method of claim 1 or 2, wherein the biometric features comprise: fingerprint, face, iris or voiceprint.

4. The method of claim 1 or 2, wherein the wireless connection comprises: bluetooth connection or wireless local area network WIFI connection.

5. The method of claim 1 or 2, wherein prior to obtaining the biometric characteristic of the second end-user, the method further comprises:

the first terminal and/or the second terminal acquire the somatosensory motion information through a preset sensor, match the acquired somatosensory motion information with preset somatosensory matching information, and enter the wireless connection process when the matching is passed.

6. A system for realizing wireless connection is characterized by comprising a first terminal and a second terminal; wherein,

the first terminal comprises an acquisition conversion unit and an extraction broadcast unit; wherein,

the acquisition conversion unit is used for acquiring the biological characteristics of the second terminal user and generating a corresponding biological characteristic code according to the acquired biological characteristics of the second terminal user;

an extraction broadcasting unit for extracting continuous byte coding information from the generated biological feature code as a first terminal MAC address and broadcasting to a second terminal;

the second terminal includes at least a matching connection unit for establishing a wireless connection when the MAC address of the first terminal received by the second terminal matches a pre-stored biometric code of the second terminal user.

7. The system according to claim 6, wherein the first terminal further comprises a first setting unit, configured to disallow sending information to the second terminal after establishing a wireless connection with the second terminal;

the second terminal also comprises a second setting unit which is used for setting permission to send data information to the first terminal after the wireless connection is established with the first terminal.

8. The system of claim 6 or 7, wherein the biometric features comprise: fingerprint, face, iris or voiceprint.

9. The system according to claim 6 or 7, wherein the wireless connection comprises: bluetooth connection or WIFI connection.

10. The system according to claim 6 or 7, wherein the first terminal further comprises a first body sensing unit, configured to acquire body sensing motion information through a preset sensor, match the acquired body sensing motion information with preset body sensing matching information, and enter a wireless connection process when the matching passes.

11. The system according to claim 6 or 7, wherein the second terminal further comprises a second body sensing unit, configured to acquire body sensing motion information through a preset sensor, match the acquired body sensing motion information with preset body sensing matching information, and enter a wireless connection process when the matching is passed.