CN110366152B - Method and system for realizing far-field communication connection of equipment based on near-field communication identity recognition - Google Patents

Abstract

The invention discloses a method and a system for realizing far-field communication connection of equipment based on near-field communication identity recognition, which solve the problems that the existing near-field communication can only realize point-to-point identity authentication of the equipment and cannot realize dynamic judgment and safety control of the access of far-field communication equipment to be accessed. The invention discloses a far-field communication connection method for equipment based on near-field communication identity recognition, which comprises the following steps: s1: the near field communication module acquires an equipment identity identification code of the equipment to be accessed and sends the equipment identity identification code to the far field communication module; s2: adding the received equipment identity identification code into an allowed far-field communication white list according to the far-field communication module in the step S1, and simultaneously returning a far-field communication access rule to the near-field communication module by the far-field communication module; s3: returning the received far-field communication access rule to the equipment to be accessed according to the step S2 near-field communication module; s4: and the device to be accessed performs dynamic connection with the far-field communication module by using the far-field communication admission rule returned in the step S3.

Description

Method and system for realizing far-field communication connection of equipment based on near-field communication identity recognition

Technical Field

The invention relates to the technical field of communication, in particular to a method and a system for realizing far-field communication connection of equipment based on near-field communication identity recognition.

Background

In different application scene ranges, the existing far-field communication connection (including WIFI, 3G, 4G, and 5G) is controlled to be allowed through a password, an IMEI number, an equipment Mac address, or a unique identification code. The equipment access verification is carried out through the password, and the verification password is easy to acquire, crack and share; the mode of carrying out equipment access verification through the Mac address, the IMEI number or the unique identification code has the defects of complicated manual operation and incapability of dynamically carrying out access control on the equipment.

In addition, the existing near field communication can only realize point-to-point dynamic identity authentication of equipment, and cannot realize the rapid transmission of data with large data volume for a long time.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the invention provides a method and a system for realizing far-field communication connection of equipment based on near-field communication identity recognition, which solve the problems, combines the advantages of near-field communication point-to-point identity verification and far-field communication data quick transmission, and realizes dynamic identification and safety control of far-field communication equipment access in an application scene range.

The invention is realized by the following technical scheme:

a method for realizing far-field communication connection of equipment based on near-field communication identity recognition comprises the following steps:

s1: the near field communication module acquires an equipment identity identification code of equipment to be accessed and sends the equipment identity identification code to the far field communication module;

s2: adding the received equipment identity identification code into an allowed far-field communication white list according to the far-field communication module in the step S1, and simultaneously returning a far-field communication access rule to the near-field communication module by the far-field communication module;

s3: returning the received far-field communication access rule to the equipment to be accessed according to the step S2 near-field communication module;

s4: and the device to be accessed performs dynamic connection with the far-field communication module by using the far-field communication admission rule returned in the step S3.

Further, in the state that the device to be accessed and the nfc module are connected through the default open channel, in step S1, the nfc module obtains the device identification code of the device to be accessed.

Preferably, the device to be accessed and the near field communication module are connected through an open channel in an NFC near field communication default mode, NFC is a close-range high-frequency wireless communication technology, the available distance is about 10 cm, electronic identity recognition or data transmission can be achieved, and the device to be accessed and the near field communication module are low in cost, convenient to use and richer in intuition.

Further, in a state where the near field communication module and the far field communication module are connected by the default open channel, the near field communication module sends the device identification code of the device to be accessed to the far field communication module in step S1, and the far field communication module returns the far field communication access rule to the near field communication module in step S2.

Preferably, the near-field communication module and the far-field communication module are connected through a default open channel in a WIFI or 3G or 4G or 5G far-field communication mode.

Further, the device identification code in steps S1 to S4 is a code that can uniquely identify the device to be accessed, and if the device to be accessed is a mobile phone, the device identification code includes any one of a Mac address, a mobile phone number, an IMEI device serial number, or a unique code of a user-defined device; the unique identification code of the user-defined equipment is a code which can uniquely identify the mobile phone and is defined by a user.

Further, the far field communication access rule includes an equipment identification code of the equipment to be accessed, an upper limit of the access number of the far field communication modules, and connection duration of each time the equipment to be accessed is accessed to the far field communication modules.

Further, under different application scenarios, according to different far-field communication access rules, the far-field communication module is aligned to a list of connected devices for periodic cleaning.

The system for realizing the far-field communication connection of the equipment based on the near-field communication identity recognition supports the system constructed by the method for realizing the far-field communication connection of the equipment based on the near-field communication identity recognition and comprises a near-field communication module, a far-field communication module, equipment to be accessed, a far-field communication white list module and a far-field communication access rule module;

the near field communication module is used for acquiring the far field equipment identity identification code of the equipment to be accessed and sending the far field equipment identity identification code to the far field communication module; the near field communication module is also used for returning the far field communication access rule to the equipment to be accessed;

the far field communication module is used for adding the acquired equipment identity identification code of the equipment to be accessed into the far field communication white name single module, and simultaneously returning the far field communication access rule of the far field communication access rule module to the near field communication module;

the far field communication white list module is used for storing the equipment identity identification code of far field communication;

the far field communication access rule module is used for guiding the equipment to be accessed to dynamically access the far field communication module;

the device to be accessed is any one of a mobile phone, a cluster mobile phone, a notebook computer, a PDA or a device with far-field communication function (such as 3G \4G \5G \ Wifi function).

The invention has the following advantages and beneficial effects:

1. the scheme of the invention aims at that when the equipment to be accessed needs to be accessed into a remote communication module, a conventional manual setting mode of the equipment to be accessed is not adopted to connect a far-field communication module, but the equipment to be accessed is matched with a near-field communication module, the near-field communication module acquires a unique equipment identity identification code of the equipment to be accessed and sends the unique equipment identity identification code to the far-field communication module under the condition that the equipment to be accessed and the near-field communication module are connected by default open channels in a near-field communication NFC mode and the near-field communication module and the far-field communication module are connected by default open channels in a far-field communication WIFI mode, the far-field communication module adds the equipment identity identification code into an allowed far-field communication white list and establishes a far-field communication access rule on the basis of the communication white list, and simultaneously, the far-field communication module returns the far-field communication access rule to the equipment to be accessed through a relay near-field communication module, the device to be accessed is matched with the far field communication white list according to the far field communication access rule, if the device to be accessed is matched with the far field communication white list, automatic dynamic connection between the device to be accessed and the far field communication module is realized, otherwise, automatic connection between the device to be accessed and the far field communication module cannot be performed; therefore, the complexity of frequent manual setting of the far-field communication module connected with the equipment to be accessed by the conventional manual means is avoided;

2. the method is simple and reasonable, combines the advantages of near-field communication point-to-point identity authentication and far-field communication data rapid transmission, realizes dynamic discrimination and safety control of far-field communication equipment access in an application scene range, realizes safe dynamic access of far-field communication of the communication equipment in the application scene range, and realizes safe dynamic networking of the communication equipment in the application scene range.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments 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 principles of the invention. In the drawings:

fig. 1 is a schematic flow chart of a method for realizing far-field communication connection of equipment based on near-field communication identity recognition according to the present invention.

Fig. 2 is a schematic diagram of a method for implementing far-field communication connection of a device based on near-field communication identification according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to examples and the accompanying drawings, and the exemplary embodiments and descriptions thereof are only used for explaining the present invention and are not used as limiting the present invention.

Example 1

As shown in fig. 1 and 2, a method for implementing far-field communication connection of a device based on near-field communication identification includes the following specific steps:

s0: the method comprises the steps that equipment to be accessed sends a far-field identification code to a near-field communication module, wherein the equipment identification code is a code capable of uniquely identifying the equipment to be accessed;

s1: according to the step S0, the near field communication module sends the acquired equipment identity identification code of the equipment to be accessed to the far field communication module;

s2: adding the received equipment identity identification code into an allowed far-field communication white list according to the far-field communication module in the step S1, and simultaneously returning a far-field communication access rule to the near-field communication module by the far-field communication module;

s3: returning the received far-field communication access rule to the equipment to be accessed according to the step S2 near-field communication module;

s4: and the device to be accessed performs dynamic connection with the far-field communication module by using the far-field communication admission rule returned in the step S3.

In a state where the device to be accessed and the near field communication module are connected by an NFC default open channel, in step S1, the near field communication module obtains the device identification code of the device to be accessed; NFC is a close-range high-frequency wireless communication technology, the available distance is about 10 cm, electronic identity recognition or data transmission can be achieved, and the NFC antenna is low in cost, convenient to use, easy to use and richer in intuition.

In the state that the near-field communication module and the far-field communication module are connected through a WIFI default open channel, in step S1, the near-field communication module sends an equipment identity identification code of equipment to be accessed to the far-field communication module, and in step S2, the far-field communication module returns a far-field communication access rule to the near-field communication module.

The device to be accessed in steps S1-S4 includes any one of a mobile phone, a cluster mobile phone, a notebook computer, a PDA, or a device with far-field communication function.

In this embodiment, the device to be accessed is a mobile phone, and the device identification code includes any one of a Mac address, a mobile phone number, an IMEI device serial number, and a user-defined device unique identification code. The unique identification code of the user-defined equipment is a code which can uniquely identify the mobile phone and is defined by a user.

The far-field communication access rule comprises an equipment identity identification code of equipment to be accessed, an upper limit of the access quantity of far-field communication modules and connection duration of the equipment to be accessed to the far-field communication modules each time; the far field communication access rule is subjected to applicability adjustment according to the actual needs of a user; and finally, the equipment to be accessed performs dynamic access of the far field communication module according to a far field communication access rule returned by combining the near field communication module and the far field communication module.

In this embodiment, it is assumed that the device identification code of the device to be accessed is an IMEI device serial number, the upper limit of the number of far-field communication modules accessed is 1000, the connection duration of each time the device to be accessed is accessed to a far-field communication module is 1 hour, the device to be accessed performs dynamic secure connection according to the far-field communication access rules, and if the upper limit of the number of far-field communication modules accessed at this time reaches 1000, the device to be accessed is not allowed to be accessed; if the connection time of the equipment to be accessed to the far-field communication module reaches 1 hour, the equipment to be accessed is disconnected; therefore, the safety and controllability of the equipment to be accessed to the far-field communication module are ensured.

And under different application scenes, according to different far-field communication access rules, the far-field communication module is aligned to a list of connected equipment to be regularly cleaned.

As shown in fig. 2, fig. 2 is a schematic diagram of a method for implementing far-field communication connection of a device based on near-field communication identification according to the present invention.

The working principle is as follows: based on different application scene ranges, the existing far-field communication connection (including WIFI, 3G and 4G) is subjected to access control through a password, an equipment Mac address or a unique identification code, and equipment access verification is carried out through the password, so that the verification password is easily acquired, cracked and shared; the method of equipment access verification through the Mac address or the unique identification code has the defects of complicated manual operation and incapability of dynamically controlling the equipment access; the existing near field communication can only realize point-to-point dynamic identity authentication of equipment, and cannot realize the rapid transmission of data with large data volume for a long time. According to the scheme, when the equipment to be accessed needs to be accessed into the remote communication module, the remote communication module is not connected in a conventional manual setting mode of the equipment to be accessed, but is matched with the near field communication module, the near field communication equipment acquires the unique equipment identity identification code of the equipment to be accessed and sends the unique equipment identity identification code to the far field communication module under the condition that the equipment to be accessed and the near field communication module are connected by an NFC default open channel and the near field communication module and the far field communication module are connected by a WIFI default open channel, the far field communication module adds the equipment identity identification code into an allowable far field communication white list, and a far field communication access rule is established on the basis of the communication white list, wherein the far field communication access rule comprises the equipment identity identification code of the equipment to be accessed, the upper limit of the access number of the far field communication module, the remote communication module is connected with the equipment to be accessed, And the connection duration of the equipment to be accessed into the far field communication module each time, meanwhile, the far field communication module returns the far field communication access rule to the equipment to be accessed through the relay near field communication module, the equipment to be accessed is matched with the far field communication white list according to the far field communication access rule, if the equipment to be accessed is matched with the far field communication white list, automatic dynamic connection between the equipment to be accessed and the far field communication module is realized, and otherwise, the equipment to be accessed and the far field communication module cannot be automatically connected.

The method is simple and reasonable, and avoids the complexity of frequent manual setting of the device to be accessed for connecting the far field communication module by conventional manual means; the advantages of near field communication point-to-point identity authentication and far field communication data rapid transmission are combined, dynamic judgment and safety control of far field communication equipment access within an application scene range are achieved, safe dynamic access of far field communication of the communication equipment within the application scene range is achieved, and safe dynamic networking of the communication equipment within the application scene range is achieved.

Example 2

As shown in fig. 1, the difference between this embodiment and embodiment 1 is that a far-field communication connection system of a device is implemented based on near-field communication identification, and a system configured to support the above far-field communication connection method of the device based on near-field communication identification includes a near-field communication module, a far-field communication module, a device to be accessed, a far-field communication white list module, and a far-field communication access rule module;

the near field communication module is used for acquiring the far field equipment identity identification code of the equipment to be accessed and sending the far field equipment identity identification code to the far field communication module; the near field communication module is also used for returning the far field communication access rule to the equipment to be accessed;

the far field communication module is used for adding the acquired equipment identity identification code of the equipment to be accessed into the far field communication white name single module, and simultaneously returning the far field communication access rule of the far field communication access rule module to the near field communication module;

the far field communication white list module is used for storing the equipment identity identification code of far field communication;

the far field communication access rule module is used for guiding the equipment to be accessed to dynamically access the far field communication module;

the equipment to be accessed is any one of a mobile phone, a cluster mobile phone, a notebook computer, a PDA or equipment with a far-field communication function, wherein the mobile phone, the cluster mobile phone, the notebook computer and the PDA are required to be accessed into the far-field communication module.

The above-mentioned embodiments, objects, technical solutions and advantages of the present invention are further described in detail, it should be understood that the above-mentioned embodiments are only examples of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (7)

1. The method for realizing the far-field communication connection of the equipment based on the near-field communication identity recognition is characterized by comprising the following steps:

s1: the near field communication module acquires an equipment identity identification code of the equipment to be accessed and sends the equipment identity identification code to the far field communication module;

s2: adding the received equipment identity identification code into an allowed far-field communication white list according to the far-field communication module in the step S1, and establishing a far-field communication access rule on the basis of the communication white list; meanwhile, the far field communication module returns the far field communication access rule to the near field communication module;

s3: returning the received far-field communication access rule to the equipment to be accessed according to the step S2 near-field communication module;

s4: the equipment to be accessed is dynamically connected with the far-field communication module by using the far-field communication access rule returned in the step S3;

s4 specifically includes: the device to be accessed is matched with the far field communication white list according to the far field communication access rule, if the device to be accessed is matched with the far field communication white list, the automatic dynamic connection of the device to be accessed and the far field communication module is realized, otherwise, the automatic connection of the device to be accessed and the far field communication module cannot be carried out;

the far field communication access rule comprises an equipment identity identification code of equipment to be accessed, an upper limit of the access quantity of the far field communication modules and the connection time length of the equipment to be accessed to the far field communication modules each time;

in a state that the near field communication module and the far field communication module are connected through a default open channel, the near field communication module sends an equipment identity identification code of equipment to be accessed to the far field communication module in step S1, and the far field communication module returns a far field communication access rule to the near field communication module in step S2;

and under different application scenes, according to different far-field communication access rules, the far-field communication module is aligned to a list of connected equipment to be regularly cleaned.

2. The method as claimed in claim 1, wherein in the state where the device to be accessed and the nfc module are connected through a default open channel, the nfc module obtains the device id of the device to be accessed in step S1.

3. The near field communication identification-based far field communication connection method for realizing equipment according to claim 2, wherein the equipment to be accessed is connected with the near field communication module through a default open channel.

4. The near field communication identification-based far field communication connection method for realizing equipment according to claim 3,

and the equipment to be accessed and the near field communication module are connected by an open channel defaulted in an NFC near field communication mode.

5. The near-field communication identification-based far-field communication connection method for realizing the equipment according to claim 1, wherein the near-field communication module and the far-field communication module are connected through a default open channel in a WIFI or 3G or 4G or 5G far-field communication mode.

6. The method for realizing far-field communication connection of equipment based on near-field communication identification as claimed in claim 1, wherein the equipment identification code in steps S1-S4 is a code capable of uniquely identifying the equipment to be accessed, and when the equipment to be accessed is a mobile phone, the equipment identification code includes any one of Mac address, mobile phone number, IMEI equipment serial number or custom equipment unique code.

7. The far-field communication connection system for realizing the equipment based on the near-field communication identification is characterized by supporting the system which is constructed by the method for realizing the far-field communication connection of the equipment based on the near-field communication identification according to any one of claims 1 to 6 and comprises a near-field communication module, a far-field communication module, equipment to be accessed, a far-field communication white list module and a far-field communication access rule module;

the near field communication module is used for acquiring the far field equipment identity identification code of the equipment to be accessed and sending the far field equipment identity identification code to the far field communication module; the near field communication module is also used for returning the far field communication access rule to the equipment to be accessed;

the far field communication module is used for adding the acquired equipment identity identification code of the equipment to be accessed into the far field communication white name single module, and simultaneously returning the far field communication access rule of the far field communication access rule module to the near field communication module;

the far field communication white list module is used for storing the equipment identity identification code of far field communication;

the far field communication access rule module is used for guiding the equipment to be accessed to dynamically access the far field communication module;

the equipment to be accessed is any one of a mobile phone, a cluster mobile phone, a notebook computer, a PDA or equipment with a far-field communication function, wherein the mobile phone, the cluster mobile phone, the notebook computer and the PDA are required to be accessed into the far-field communication module.

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