CN115190482A - Vehicle door lock state synchronization method, server and synchronization system based on mobile phone screen - Google Patents

Abstract

The invention provides a mobile phone screen-based vehicle door lock state synchronization method, a server and a synchronization system, wherein the synchronization system comprises a vehicle TBOX and a vehicle networking server, when the distance between a mobile phone and the vehicle TBOX is lower than a preset distance, the vehicle TBOX sends an authentication request to the vehicle TBOX, the vehicle TBOX receives feedback mobile phone information and authenticates the mobile phone information, and if the authentication is passed, the mobile phone is considered as a user mobile phone; the vehicle TBOX sends a request of 'whether to control the vehicle door' to the mobile phone through the vehicle networking server, if so, the vehicle networking server sends a determination control signal to the vehicle TBOX, and the vehicle TBOX receives a corresponding vehicle door control signal obtained by identifying the current screen state of the mobile phone through the vehicle networking server to operate the vehicle door lock. The invention adopts the mode of combining the mobile phone number with the Bluetooth address to ensure the unique safe matching relation between the mobile phone of the user and the vehicle TBOX, controls the opening and closing of the vehicle door through the screen state of the mobile phone, does not need to download another client for control, and is convenient for the user to operate.

Description

Vehicle door lock state synchronization method, server and synchronization system based on mobile phone screen

Technical Field

The invention relates to the technical field of automobiles, in particular to a method, a server and a system for synchronizing the lock state of a vehicle door based on a mobile phone screen.

Background

With the rapid development of smart phones, mobile phone applications become important components of life, and meanwhile, rapid progress in the fields of embedded technologies, wireless communication technologies, electronic technologies and the like greatly promote the intelligent process of automobiles, so that realization of remote monitoring and control of automobiles by using mobile phones becomes inevitable. At present, based on cell-phone car door intelligent control need download special APP and control more, need accomplish door control operation in APP, increased user's operation. In addition, the connection between the vehicle and the mobile phone adopts general Bluetooth connection, so that the safety is not high, and in addition, if the mobile phone is bound with the vehicle, a user cannot randomly replace a new mobile phone or a new number.

Disclosure of Invention

In view of the above drawbacks of the prior art, an object of the present invention is to provide a method, a server, and a system for synchronizing a lock status of a vehicle door based on a mobile phone screen, which are used to solve the problem that a user cannot freely change a mobile phone or a number while controlling the vehicle door through a special APP in the prior art.

In order to achieve the above and other related objects, the present invention provides a method for synchronizing a lock status of a vehicle door based on a mobile phone screen, which comprises:

step S1, when the distance between a mobile phone and a vehicle TBOX is lower than a preset distance, the vehicle TBOX sends an authentication request to the mobile phone, when the vehicle TBOX receives mobile phone information fed back by the mobile phone, the mobile phone information is authenticated, if the authentication is passed, the mobile phone is confirmed to be a user mobile phone, and step S2 is carried out;

s2, the vehicle TBOX sends a request of 'whether to control the vehicle door' to the mobile phone through the vehicle networking server, if so, the vehicle networking server determines that a control signal is sent to the vehicle TBOX, and the step S3 is carried out; otherwise, the opening and closing of the vehicle door is controlled by the original vehicle key;

and S3, the vehicle TBOX receives a corresponding vehicle door control signal obtained by identifying the current screen state of the mobile phone by the vehicle networking server, and the vehicle TBOX performs operation on a vehicle door lock according to the vehicle door control signal.

In an embodiment of the present invention, the mobile phone information includes a mobile phone number and a bluetooth address.

In an embodiment of the present invention, before step S1, a unique secure matching relationship is established by matching the vehicle TBOX with a user mobile phone, and after the matching relationship is established, mobile phone information is stored in the vehicle TBOX as preset mobile phone information, where the preset mobile phone information is used to authenticate a mobile phone, and at the same time, a TBOX device identification number and the mobile phone information are sent to the internet of vehicles server by the vehicle TBOX for storage.

In an embodiment of the present invention, the specific operation of establishing the matching relationship between the vehicle TBOX and the user mobile phone includes:

the vehicle TBOX receives a connection request containing user mobile phone information sent to the user mobile phone actively;

and the vehicle TBOX detects whether the mobile phone information of the user is stored or not, if not, the vehicle TBOX performs adaptation operation, and if so, the vehicle TBOX directly connects.

In an embodiment of the present invention, the adapting operation includes:

the vehicle TBOX provides a mobile phone registration interface for a user through a vehicle-mounted machine interface, wherein the mobile phone registration interface comprises a mobile phone number input box and a verification code input box;

when a user successfully inputs a user mobile phone number in a registration interface, the vehicle TBOX sends the user mobile phone number and a TBOX equipment identification number to the vehicle networking server, and the vehicle TBOX and the user mobile phone receive a verification code sent by the vehicle networking server;

and when the user finishes inputting the verification code on the registration interface, if the verification code received by the vehicle TBOX is consistent with the input verification code, the Bluetooth is successfully adapted, and the matching relationship between the mobile phone and the vehicle TBOX is established, otherwise, the mobile phone is not adapted.

In an embodiment of the present invention, in step S2, after the mobile phone confirms to control the car door, the car TBOX receives a key failure signal from the car networking server, and the car TBOX controls the electronic switch module to be disconnected from the vehicle controller according to the key failure signal, so as to disconnect the connection between the car lock ECU and the receiver of the original car remote control door lock system, thereby disabling the original car key remote control function; and when the recovery condition is reached, the original vehicle key has the remote control function.

In an embodiment of the present invention, the recovery condition includes: in step S3, if the unlocking fails, the vehicle TBOX receives the unlocking failure information sent by the internet of vehicles server, or after the vehicle door is opened, the vehicle TBOX receives the vehicle door opening signal, controls the vehicle controller to close the electronic switch module, and recovers the original vehicle key remote control function.

The invention also provides a vehicle networking server which is characterized by comprising a controller, a central memory and a random verification code generator, wherein the controller is respectively connected with the central memory and the random verification code generator, the central memory is used for storing mobile phone information and TBOX equipment identification numbers sent by the vehicle TBOX, and the mobile phone information and the TBOX equipment identification numbers are in one-to-one correspondence; the random verification code generator is used for generating a random verification code through a mobile phone number and a TBOX equipment identification number which are sent to the Internet of vehicles server through a registration interface; the controller is used for receiving signals of the mobile phone or the vehicle TBOX and executing corresponding operations.

The invention also provides a mobile phone screen-based vehicle door lock synchronization system, which comprises a vehicle TBOX and a vehicle networking server, wherein the vehicle TBOX is respectively in communication connection with a mobile phone and the vehicle networking server, and the innovation points are as follows: the vehicle TBOX comprises a positioning module, a vehicle sending module, a vehicle receiving module, a vehicle machine Bluetooth module, a processor and a storage module; the processor is respectively connected with the positioning module, the vehicle sending module, the vehicle receiving module, the vehicle Bluetooth module and the storage module;

the positioning module is used for measuring the distance between the mobile phone and the vehicle and sending a signal to the processor when the distance is smaller than a preset distance;

the vehicle-mounted machine Bluetooth module is used for sending an authentication request to the mobile phone by the vehicle TBOX when the mobile phone enters a preset distance, receiving mobile phone information and transmitting the mobile phone information to the processor;

the vehicle sending module is used for sending mobile phone information, a TBOX equipment identification number and a vehicle door control request signal to the vehicle networking server;

the vehicle receiving module is used for receiving the verification code sent by the Internet of vehicles server, a feedback signal of the mobile phone on whether to control the vehicle door or not and a vehicle door control signal;

the storage module is used for storing the verification code and the preset mobile phone information.

In an embodiment of the invention, the positioning system adopted by the positioning module is one of a global positioning system GPS, an assisted global positioning system AGPS, or a wireless ethernet Wifi.

As described above, the method, the server and the system for synchronizing the lock status of the vehicle door based on the mobile phone screen have the following advantages:

the invention adopts the mobile phone number and the Bluetooth address to ensure the unique safe matching relation between the mobile phone of the user and the vehicle TBOX, improves the connection safety between the mobile phone and the vehicle TBOX, and simultaneously ensures that the mobile phone can control the opening and closing of the vehicle door through the mobile phone screen within the preset distance, thereby being not specially controlled by downloading another client side, and being not specially controlled by taking out a key from a bag, thereby being convenient for the user to operate.

Drawings

Fig. 1 is a flowchart illustrating a method for synchronizing a lock status of a vehicle door based on a mobile phone screen according to the present invention.

Fig. 2 shows a flow chart of the matching relationship between the mobile phone and the vehicle TBOX according to the present invention.

Fig. 3 is a block diagram illustrating a vehicle door lock state synchronization system based on a mobile phone lock screen state according to the present invention.

Fig. 4 is a block diagram showing the configuration of the car networking server of the present invention.

Description of the element reference numerals

1. Mobile phone

2. Internet of vehicles server

21. Controller

22. Central storage

23. Random verification code generator

3. Vehicle TBOX

31. Positioning module

32. Vehicle transmission module

33. Vehicle receiving module

34. Vehicle bluetooth module

35. Processor with a memory having a plurality of memory cells

36. Memory module

37. Vehicle control unit

38. Electronic switch module

S1 to S3

S111-S113 step

Detailed Description

The following embodiments of the present invention are provided by way of specific examples, and other advantages and effects of the present invention will be readily apparent to those skilled in the art from the disclosure herein. The invention is capable of other and different embodiments and of being practiced or of being carried out in various ways, and its several details are capable of modification in various respects, all without departing from the spirit and scope of the present invention. It is to be noted that the features in the following embodiments and examples may be combined with each other without conflict.

It should be noted that the drawings provided in the following embodiments are only for illustrating the basic idea of the present invention, and the components related to the present invention are only shown in the drawings rather than drawn according to the number, shape and size of the components in actual implementation, and the type, quantity and proportion of the components in actual implementation may be changed freely, and the layout of the components may be more complicated.

First embodiment

Referring to fig. 1, the present invention provides a method for synchronizing a lock status of a vehicle door based on a mobile phone screen, including:

step S1, when the distance between a mobile phone and a vehicle TBOX3 is less than a preset distance, the vehicle TBOX3 sends an authentication request to the mobile phone, when the vehicle TBOX3 receives mobile phone information fed back by the mobile phone 1, the mobile phone information is authenticated, if the authentication is passed, the mobile phone 1 is confirmed to be a user mobile phone, and step S2 is carried out;

step S2, the vehicle TBOX3 sends a request of 'whether to control the vehicle door' to the mobile phone 1 through the vehicle networking server 2, if so, the vehicle networking server 2 sends a control signal to the vehicle TBOX3, and the step S3 is carried out; otherwise, the opening and closing of the car door is controlled by the original car key.

Wherein, the selection operation is carried out on the request information of 'whether to control the vehicle door' sent by the Internet of vehicles server 2, and the screen state of the mobile phone 1 is not influenced. For example, when the mobile phone 1 locks the screen, the mobile phone 1 may light up the screen when receiving the request message, and display yes and no on the screen of the mobile phone 1, and the user clicks one of the options to perform an operation, and at this time, the mobile phone 1 does not need to be unlocked, and the communication between the mobile phone 1 and the car networking server 2 is completed through the radio frequency module in the mobile phone 1.

In addition, the vehicle TBOX3 comprises a positioning unit for measuring the distance between the mobile phone 1 and the vehicle, and the positioning system adopted by the positioning unit is one of a global positioning system GPS, an assisted global positioning system AGPS, a wireless ethernet Wifi, or a Cell identification Cell ID positioning. Of course, the monitoring range of the positioning unit is the preset distance, and the preset distance can be adjusted according to the actual situation.

Wherein, in the preset distance between the mobile phone 1 and the vehicle TBOX3, the vehicle TBOX3 sends an authentication request to the mobile phone 1, and the specific operation steps are as follows:

detecting whether a mobile phone 1 is around the vehicle by a positioning unit; if the mobile phone 1 appears in the periphery, the vehicle TBOX3 sends an authentication request to the mobile phone 1;

the mobile phone 1 feeds back the mobile phone information to the vehicle TBOX3 for authentication after receiving the authentication request, and if the sent mobile phone information is the same as the mobile phone information preset in the vehicle TBOX3, the authentication is passed; otherwise, the authentication fails.

Further, before step S1, the user mobile phone 1 needs to be matched with the vehicle TBOX3 to establish a unique secure matching relationship, after the matching relationship is established, the mobile phone information is stored in the vehicle TBOX3 as preset mobile phone information, and the TBOX device identification number and the mobile phone information are sent to the internet of vehicles server 2 by the vehicle TBOX3 to be stored.

Further, the specific operation of establishing the matching relationship between the user mobile phone 1 and the vehicle TBOX3 includes:

s11, the vehicle TBOX3 receives a connection request which is sent by the user mobile phone 1 to the user mobile phone actively, wherein the connection request comprises user mobile phone information, and the user mobile phone information comprises a user mobile phone number and a Bluetooth address. The user mobile phone 1 can be provided with a mobile phone client, the mobile phone number and the Bluetooth address of the user mobile phone 1 can be recorded in the mobile phone client, and the mobile phone number and the Bluetooth address are sent to the vehicle TBOX3 through the mobile phone client. Or the Bluetooth of the mobile phone 1 can be opened, after the Bluetooth of the vehicle TBOX3 is searched, the Bluetooth address of the vehicle TBOX3 is clicked to send mobile phone information.

And S12, detecting whether the mobile phone information is stored or not by the vehicle TBOX3, if not, performing adaptation operation, and if so, directly connecting.

In addition, when the vehicle TBOX3 detects that the bluetooth address is not saved, it indicates that the user mobile phone 1 connects to the vehicle TBOX3 for the first time, and needs to perform a complete adaptation operation, please refer to fig. 2, which includes:

s111, the vehicle TBOX3 provides a mobile phone registration interface for a user through a vehicle-mounted interface, wherein the mobile phone registration interface comprises a mobile phone number input box and a verification code input box;

s112, the user successfully inputs the user mobile phone number in the registration interface, the vehicle TBOX3 sends the user mobile phone number and the TBOX equipment identification number to the vehicle networking server 2, and the vehicle networking server 2 sends the verification code to the vehicle TBOX3 and the user mobile phone 1;

and S113, the user completes verification code input on the registration interface, and if the input verification code is consistent with the verification code received by the vehicle TBOX3, the Bluetooth adaptation is successful. And after the Bluetooth adaptation is successful, completing the establishment of the unique safe matching relation between the mobile phone 1 and the vehicle TBOX3.

Wherein the bluetooth adaptation may be the provision of a vehicle bluetooth matching number by the vehicle TBOX3 to the user; the bluetooth matching number of the vehicle TBOX3 is set at the time of factory shipment, and belongs to a fixed matching number. The user inputs the Bluetooth matching number on the mobile phone 1 to complete Bluetooth adaptation, and the Bluetooth address of the mobile phone 1 is stored in the vehicle TBOX3. Or the pairing code with the same number can be input on the car machine and the mobile phone 1 at the same time to complete the connection.

The Bluetooth address of the mobile phone 1 is composed of LAP (lower part of 24 bit address), UAP (upper part of 8 bit address) and NAP (16 bit nonsense address), wherein NAP and UAP are unique identification codes of manufacturers, and must be distributed to different manufacturers by Bluetooth authorities, and LAP is freely distributed from the inner part of manufacturers. Therefore, for a certain model of mobile phone 1, all the individual NAPs and UAPs are fixed, and the variable is LAP, and the LAP has 24 bits in total, and generally, the manufacturer assigns addresses from 0 to 24 powers of 2 in manufacturing to ensure the address difference between individuals. However, when the number of products is too large, the 24 th power of 2 is used up, or a problem occurs when an address is written, the address can be reused, but due to the large number of products, although the bluetooth addresses may have the same situation in general, the probability of two identical bluetooth addresses appearing in the same scene is very small; in addition, even if the same Bluetooth address appears in the same scene, the mobile phone numbers matched with each Bluetooth address cannot be the same, so that the unique safe matching relation is established by adopting the combination of the mobile phone numbers and the mobile phone Bluetooth addresses in the process of adaptation operation, and the connection relation between the vehicle TBOX3 and the mobile phone 1 is prevented from being tampered by other mobile phones 1 at will. Certainly, when the user changes the mobile phone 1 or the number and sends a connection request to the car machine, the mobile phone information is different from the originally stored mobile phone information and belongs to the first connection at the moment, the matching relation between the mobile phone 1 and the vehicle TBOX3 is reestablished, and the originally stored mobile phone information is replaced by the existing mobile phone information.

And 3, receiving a corresponding vehicle door control signal obtained by identifying the current screen state of the mobile phone by the vehicle networking server through the vehicle TBOX, and operating the vehicle door lock through the vehicle TBOX according to the vehicle door control signal.

In the step S3, the screen states of the mobile phone 1 are respectively an open state and a lock state, and the opening and closing of the car door are correspondingly controlled in sequence; the vehicle networking server 2 sends the screen state of the mobile phone 1 to the vehicle TBOX3, and when the initial state of the vehicle door detected by the vehicle TBOX3 corresponds to the screen state of the mobile phone 1, the vehicle door state is kept unchanged; when the initial state of the door detected by the vehicle TBOX3 is opposite to the screen state of the cellular phone 1, the door state is changed.

In the process of controlling the state of the car door through the screen state of the mobile phone 1, the original key remote control function can still be used, and certainly, the original key remote control function can also be set to be in a failure state in the process, and the failure operation can be as follows: in step S2, after the mobile phone 1 confirms "control door", the vehicle TBOX3 sends a key failure signal to the vehicle controller 37, the vehicle controller 37 controls the electronic switch module 38 to be disconnected, and disconnects the connection between the door lock ECU and the receiver of the original vehicle remote control door lock system, so that the original vehicle key remote control function is disabled; and when the recovery condition is reached, the original vehicle key has the remote control function.

The recovery process of the original key function is as follows: one situation is that in step S3, when the screen of the mobile phone 1 is in the screen locking state, and when the car door is opened, the user unlocks the mobile phone 1 by using a password, a gesture, or a fingerprint, if the unlocking fails, the mobile phone 1 sends unlocking failure information to the vehicle TBOX3 through the internet of vehicles server 2, the vehicle control unit 37 receives the unlocking failure information through the vehicle TBOX3, the vehicle control unit 37 controls the electronic switch module 38 to be closed, the connection between the door lock ECU and the receiver of the original car remote control door lock system is closed, and the original car key remote control function is recovered. In another case, in step S3, after the vehicle TBOX3 opens the vehicle door, the vehicle controller 37 controls the electronic switch module 38 to be closed by a vehicle door opening signal, the connection between the door lock ECU and the receiver is closed, and the original vehicle key remote control function is recovered.

Second embodiment

The invention also provides a vehicle networking server, which comprises a controller 21, a central memory 22 and a random verification code generator 23, wherein the controller 21 is respectively connected with the central memory 22 and the random verification code generator 23, the central memory 22 is used for storing the mobile phone information and the TBOX equipment identification number sent by the vehicle TBOX3, and the mobile phone information and the TBOX equipment identification number are in one-to-one correspondence; the random verification code generator 23 is configured to generate a random verification code according to the mobile phone number and the TBOX device identification number sent by the registration interface to the internet-of-vehicles server 2; the controller 21 is configured to receive a signal from the cellular phone 1 or the vehicle TBOX3 and perform a corresponding operation.

The invention also provides a mobile phone screen-based vehicle door lock synchronization system, which comprises the vehicle TBOX3 and the vehicle networking server 2, wherein the vehicle TBOX3 is respectively in communication connection with the mobile phone 1 and the vehicle networking server 2, please refer to FIG. 3, wherein modules in a dotted line frame are optional modules

Vehicle TBOX3 comprises a location module 31, a vehicle transmit module 32, a vehicle receive module 33, a vehicle Bluetooth module 34, a processor 35, and a storage module 36; the processor 35 is respectively connected with the positioning module 31, the vehicle sending module 32, the vehicle receiving module 33, the vehicle bluetooth module and the storage module 36;

the positioning module 31 is configured to measure a distance between the mobile phone 1 and the vehicle, and send a signal to the processor 35 when the distance is smaller than a preset distance;

the vehicle machine Bluetooth module is used for sending an authentication request to the mobile phone 1 by the vehicle TBOX3 when the mobile phone 1 enters a preset distance, receiving mobile phone information and transmitting the mobile phone information to the processor 35;

the vehicle sending module 32 is configured to send a request signal of mobile phone information, a TBOX device identification number, and "whether to control a vehicle door" to the vehicle networking server 2;

the vehicle receiving module 33 is used for receiving the verification code sent by the internet of vehicles server 2, a feedback signal of the mobile phone 1 on whether to control the vehicle door or not and a vehicle door control signal;

the storage module 36 is used for storing the verification code and the preset mobile phone information.

When the mobile phone 1 enters a preset distance, the positioning module 31 sends a detection signal to the processor 35, and the processor 35 sends an authentication request to the mobile phone 1 through the vehicle-mounted bluetooth module and receives mobile phone information fed back by the mobile phone 1; the processor 35 compares the received mobile phone information with preset mobile phone information in the memory, if the comparison result is the same, the authentication is passed, and at this time, the processor 35 sends a request of 'whether to control the vehicle door' to the vehicle networking server 2 by the vehicle sending module 32; when the internet of vehicles server 2 receives the confirmation control signal, the vehicle receiving module 33 acquires the control signal sent by the internet of vehicles server 2, and the processor 35 controls the shape of the vehicle door according to the control signal.

In the invention, an electronic switch module 38 is arranged between a door lock ECU of an original automobile remote control door lock system and a receiver, and the connection between the door lock ECU and the receiver is controlled by the whole automobile controller 37 through the on/off of the electronic switch module 38, so that the remote control function of an original key is invalid when the mobile phone 1 controls the unlocking process of the door. Of course, if the remote control function of the original key is still valid in the process of controlling the unlocking of the vehicle door by the mobile phone 1, the electronic switch module 38 is not arranged, and the vehicle door is directly controlled by the electronic controller ECU.

Further, the vehicle networking server 2 includes a controller 21, a central storage 22, and a random verification code generator 23, referring to fig. 4, the controller 21 is respectively connected to the central storage 22 and the random verification code generator 23, the central storage 22 is configured to store the mobile phone information and the TBOX device identification number sent by the vehicle TBOX3, and the mobile phone information and the TBOX device identification number are in one-to-one correspondence. The random verification code generator 23 is configured to generate a random verification code for the mobile phone number and the TBOX device identification number sent by the internet-of-vehicles server 2 through the registration interface. The controller 21 is used for receiving signals of the mobile phone 1 or the vehicle TBOX3 and executing corresponding operations.

In summary, the invention adopts the mobile phone number and the bluetooth address to ensure the unique safe matching relationship between the mobile phone 1 of the user and the vehicle TBOX3, improves the connection safety between the mobile phone 1 and the vehicle TBOX3, and simultaneously enables the mobile phone 1 to control the opening and closing of the vehicle door through the screen of the mobile phone 1 within the preset distance, thus, the control is not required to be specially controlled by downloading another client, and the control is not required to be specially taken out from the bag, thereby facilitating the operation of the user. The invention effectively overcomes various defects in the prior art and has high industrial utilization value.

The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the invention. Those skilled in the art can modify or change the above-described embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and scope of the present invention as defined in the appended claims.

Claims (10)

1. A method for synchronizing the state of a vehicle door lock based on a mobile phone screen is characterized by comprising the following steps:

establishing a unique safe matching relation between the mobile phone and the vehicle to send a TBOX equipment identification number and mobile phone information to a vehicle networking server for storage;

when the mobile phone is within a preset distance from the vehicle TBOX, the vehicle TBOX sends an authentication request to the mobile phone;

if the authentication is passed, sending a request of 'whether to control the vehicle door' through the vehicle networking server, and when the vehicle networking server receives a confirmation control signal, acquiring the control signal sent by the vehicle networking server by a receiving module of the vehicle TBOX so as to control the vehicle door lock state according to the control signal, wherein the corresponding vehicle door lock control signal is acquired by identifying the screen state of the mobile phone.

2. The mobile phone screen-based vehicle door lock state synchronization method according to claim 1, characterized in that: the mobile phone information comprises a mobile phone number and a Bluetooth address.

3. The mobile phone screen-based vehicle door lock state synchronization method according to claim 1, characterized in that: after the vehicle TBOX is matched with a user mobile phone to establish a unique safe matching relation, mobile phone information is stored in the vehicle TBOX to serve as preset mobile phone information, and the preset mobile phone information is used for authenticating the mobile phone.

4. The mobile phone screen-based vehicle door lock state synchronization method according to claim 3, characterized in that: the specific operation of sending the authentication request to the mobile phone by the vehicle TBOX comprises the following steps:

detecting whether mobile phones are around the vehicle or not; if mobile phones appear in the periphery, the vehicle TBOX sends an authentication request to the mobile phones;

after receiving the authentication request, the mobile phone feeds back the mobile phone information to the vehicle TBOX for authentication, and if the sent mobile phone information is the same as the mobile phone information preset in the vehicle TBOX, the authentication is passed; otherwise, the authentication fails.

5. The mobile phone screen-based vehicle door lock state synchronization method according to claim 1, characterized in that: the mobile phone screen states are respectively an opening state and a screen locking state so as to sequentially correspond to control signals for controlling the opening and closing of the car door lock.

6. The mobile phone screen-based vehicle door lock state synchronization method according to claim 5, characterized in that: the vehicle networking server sends the mobile phone screen state to the vehicle TBOX.

7. The mobile phone screen-based vehicle door lock state synchronization method according to claim 6, wherein: when the initial state of the door lock detected by the vehicle TBOX corresponds to the state of the mobile phone screen, the state of the door lock is kept unchanged; when the initial state of the door lock detected by the vehicle TBOX is opposite to the state of the mobile phone screen, the door lock state is changed.

8. The mobile phone screen-based vehicle door lock state synchronization method according to claim 5, characterized in that: and the vehicle TBOX receives a corresponding vehicle door lock control signal obtained by identifying the current screen state of the mobile phone through the vehicle networking server, and performs operation on a vehicle door lock according to the vehicle door lock control signal.

9. The mobile phone screen-based vehicle door lock state synchronization method according to claim 5, characterized in that: when a screen of the mobile phone is in a screen locking state and a door lock of the vehicle is opened, after the mobile phone is unlocked by using a password, a gesture or a fingerprint, if the unlocking fails, the mobile phone sends unlocking failure information to the vehicle TBOX through the Internet of vehicles server.

10. The mobile phone screen-based vehicle door lock state synchronization method according to claim 1, characterized in that: the establishing of the unique safe matching relation between the mobile phone and the vehicle comprises the following steps:

s111, the vehicle TBOX provides a mobile phone registration interface for a user through a vehicle-mounted interface, wherein the mobile phone registration interface comprises a mobile phone number input box and a verification code input box;

s112, the user successfully inputs the user mobile phone number in the registration interface, the vehicle TBOX sends the user mobile phone number and the TBOX equipment identification number to the vehicle networking server, and the vehicle networking server sends the verification code to the vehicle TBOX and the user mobile phone;

and S113, the user finishes inputting the verification code on the registration interface, if the input verification code is consistent with the verification code received by the vehicle TBOX, the Bluetooth adaptation is successful, and after the Bluetooth adaptation is successful, the establishment of the unique safe matching relation between the mobile phone and the vehicle TBOX is finished.

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