CN117978843A - Automobile control method, device and equipment based on automobile data recorder and storage medium - Google Patents

Abstract

The application discloses a vehicle control method, a device, equipment and a storage medium based on a vehicle recorder, which are characterized in that the vehicle recorder receives a key program corresponding to a vehicle or a control instruction sent by a platform server and transmits the key program corresponding to the vehicle or the control instruction to a digital key chip; and controlling the vehicle through the digital key chip based on a key program or the control instruction corresponding to the vehicle. Through the scheme, a user can realize real-time monitoring of the vehicle and various control operations on the vehicle by sending instructions to the automobile data recorder through Bluetooth or 4G on the mobile equipment without carrying the vehicle key.

Description

Automobile control method, device and equipment based on automobile data recorder and storage medium

Technical Field

The present invention relates to the field of vehicle-mounted devices, and in particular, to a vehicle control method, device, equipment and storage medium based on a vehicle recorder.

Background

With the continuous progress and innovation of technology, the automobile data recorder is used as intelligent vehicle-mounted equipment and is widely applied and developed in the automobile industry.

At present, the traditional automobile data recorder mainly records, i.e. records, records and photographs the audio and video in the driving process, and can be used as audio and video evidence of law enforcement claims under the conditions of traffic accidents, porcelain collision and the like.

However, the current automobile data recorder does not support the mobile phone APP automobile control function, and cannot monitor the automobile in real time and conduct remote control.

Disclosure of Invention

The invention mainly aims to provide a vehicle control method, device, equipment and storage medium based on a vehicle recorder, aiming at solving the technical problem that a vehicle cannot be monitored in real time and remote control is performed.

In order to achieve the above object, the present invention provides a vehicle control method based on a vehicle recorder, the vehicle control method based on the vehicle recorder is applied to a vehicle control platform, the vehicle control platform comprises the vehicle recorder and a platform server, and the vehicle control method based on the vehicle recorder comprises the following steps:

integrating a digital key chip through a vehicle recorder;

Receiving a key program corresponding to a vehicle operated by mobile equipment or a control instruction sent by a platform server through the automobile data recorder, and transmitting the key program corresponding to the vehicle or the control instruction to the digital key chip;

And controlling the vehicle through the digital key chip based on a key program or the control instruction corresponding to the vehicle.

Optionally, the step of receiving, by the tachograph, a key program corresponding to a vehicle running on a mobile device or a control instruction sent by a platform server, and transmitting the key program or the control instruction to the digital key chip includes:

Based on the Bluetooth function, issuing a key program corresponding to a vehicle to the automobile data recorder through mobile equipment, and transmitting the key program corresponding to the vehicle to a digital key chip through the automobile data recorder; or (b)

Based on a mobile communication technology, a control instruction is sent to the automobile data recorder through a platform server, and the control instruction is transmitted to the digital key chip through the automobile data recorder.

Optionally, before the step of receiving, by the tachograph, a key program corresponding to a vehicle running on a mobile device or a manipulation instruction sent by a platform server, and transmitting the key program corresponding to the vehicle or the manipulation instruction to the digital key chip, the method further includes:

user identity authentication is carried out through mobile equipment;

if the user authentication is successful, establishing an encrypted connection;

And sending a request for issuing a key program or a control instruction of a corresponding vehicle to an Internet of vehicles platform through the mobile device or the platform server based on the encrypted connection.

Optionally, the step of controlling the vehicle by the digital key chip based on the key program or the control instruction corresponding to the vehicle includes:

writing a key program or the control instruction corresponding to the vehicle into the digital key chip through the automobile data recorder;

Judging whether the information in the digital key chip is matched with the vehicle or not according to a key program or the control instruction corresponding to the vehicle;

And if the matching is successful, executing corresponding control actions on the vehicle through the digital key chip.

Optionally, if the matching is successful, the step of executing the corresponding control action on the vehicle through the digital key chip includes:

acquiring the actual distance between a user and a vehicle and the preset vehicle control distance;

Comparing the actual distance between the user and the vehicle with the preset vehicle control distance;

if the actual distance between the user and the vehicle does not exceed the preset vehicle control distance, executing corresponding control actions on the vehicle based on a key program corresponding to the vehicle through a digital key chip;

And if the actual distance between the user and the vehicle exceeds the preset vehicle control distance, executing corresponding control actions on the vehicle based on the control instruction through the digital key chip.

Optionally, the step of executing, by the digital key chip, the corresponding control action on the vehicle based on the corresponding key program of the vehicle includes:

The digital key chip is used for controlling the opening and closing of the vehicle door, controlling the lifting of the vehicle window, controlling the double flashing of the vehicle lamp, controlling the horn whistle and controlling the opening and closing of the trunk.

Optionally, the step of executing the corresponding control action on the vehicle based on the manipulation instruction through the digital key chip includes:

The digital key chip is used for controlling the opening and closing of the vehicle door, controlling the lifting of the vehicle window, controlling the double flashing of the vehicle lamp, controlling the whistle of the horn and controlling the opening and closing of the trunk.

The embodiment of the application also provides a vehicle control device based on the automobile data recorder, which comprises:

the integrated module is used for integrating the digital key chip through the automobile data recorder;

The transmission module is used for receiving a key program corresponding to a vehicle operated by the mobile equipment or a control instruction sent by the platform server through the automobile data recorder and transmitting the key program corresponding to the vehicle or the control instruction to the digital key chip;

And the control module is used for controlling the vehicle through the digital key chip based on a key program or the control instruction corresponding to the vehicle.

The embodiment of the application also provides vehicle control equipment based on the automobile data recorder, which comprises: the system comprises a memory, a processor and a vehicle control program based on a vehicle recorder, wherein the vehicle control program based on the vehicle recorder is stored in the memory and can run on the processor, and the vehicle control program based on the vehicle recorder is configured to realize the steps of the vehicle control method based on the vehicle recorder.

The embodiment of the application also provides a storage medium, wherein the storage medium is stored with a vehicle control program based on the vehicle recorder, and the vehicle control program based on the vehicle recorder realizes the steps of the vehicle control method based on the vehicle recorder when being executed by a processor.

According to the vehicle control method, device and equipment based on the vehicle data recorder and the storage medium, the vehicle data recorder receives a key program corresponding to a vehicle or a control instruction sent by the platform server and the key program corresponding to the vehicle or the control instruction is transmitted to the digital key chip; and controlling the vehicle through the digital key chip based on a key program or the control instruction corresponding to the vehicle. Through the scheme, a user can realize real-time monitoring of the vehicle and various control operations on the vehicle only through Bluetooth or 4G on the mobile device without carrying a vehicle key.

Drawings

Fig. 1 is a schematic diagram of functional modules of a device to which a vehicle control device based on a vehicle event data recorder of the present application belongs;

Fig. 2 is a schematic flow chart of a first exemplary embodiment of a vehicle control method based on a vehicle recorder according to the present application;

fig. 3 is a schematic flow chart of a second exemplary embodiment of a vehicle control method based on a vehicle recorder according to the present application;

Fig. 4 is a schematic flow chart of a third exemplary embodiment of a vehicle control method based on a vehicle recorder according to the present application;

fig. 5 is a schematic flow chart of a fourth exemplary embodiment of a vehicle control method based on a vehicle recorder according to the present application;

fig. 6 is a flowchart of a fifth exemplary embodiment of a vehicle control method based on a vehicle recorder according to the present application;

Fig. 7 is a schematic diagram of a hardware architecture of a 4G vehicle recorder in a vehicle B according to an embodiment of the vehicle control method based on the vehicle recorder of the present application;

fig. 8 is a schematic software architecture diagram of a vehicle control system in a vehicle B according to an example of a specific scenario of a vehicle control method based on a vehicle recorder of the present application.

The achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

The main solutions of the embodiments of the present application are: receiving a key program corresponding to a vehicle or a control instruction sent by the platform server and sent by the mobile equipment through the automobile data recorder, and transmitting the key program corresponding to the vehicle or the control instruction to the digital key chip; and controlling the vehicle through the digital key chip based on a key program or the control instruction corresponding to the vehicle. Through the scheme, a user can realize real-time monitoring of the vehicle and various control operations on the vehicle by sending instructions to the automobile data recorder through Bluetooth or 4G on the mobile equipment without carrying the vehicle key.

The application relates to the technical terms:

digital key chip: is an integrated circuit chip for storing and processing digital key information. It is commonly used in the fields of vehicles, access control systems, smart homes, etc. for implementing wireless authentication and access control.

According to the embodiment of the application, the traditional automobile data recorder can only record the audio and video in the running process, but cannot control other automobiles, so that inconvenience is brought to users.

Based on the above, the embodiment of the application provides a solution, and a user can realize real-time monitoring of the vehicle and various control operations on the vehicle by sending a command to the automobile data recorder through the mobile device, bluetooth or 4G without carrying the vehicle key.

Specifically, referring to fig. 1, fig. 1 is a schematic diagram of functional modules of a device to which a vehicle control device based on a vehicle recorder belongs. The vehicle control device based on the automobile data recorder can be a device which is independent of equipment and can perform data processing, and can be loaded on the equipment in a form of hardware or software. The device can be a device with a display function such as a mobile phone, a tablet personal computer and the like. The application is exemplified by a mobile phone.

In this embodiment, the device of the vehicle control apparatus based on the vehicle recorder at least includes a transmission module 110, a processor 120, a memory 130, and a communication module 140.

The memory 130 stores an operating system and the following steps are implemented when the vehicle control program based on the automobile data recorder is executed by the processor:

integrating a digital key chip through a vehicle recorder;

Receiving a key program corresponding to a vehicle operated by mobile equipment or a control instruction sent by a platform server through the automobile data recorder, and transmitting the key program corresponding to the vehicle or the control instruction to the digital key chip;

And controlling the vehicle through the digital key chip based on a key program or the control instruction corresponding to the vehicle.

Further, the memory 130 stores an operating system and the following steps are implemented when the vehicle control program based on the automobile data recorder is executed by the processor:

Based on the Bluetooth function, issuing a key program corresponding to a vehicle to the automobile data recorder through mobile equipment, and transmitting the key program corresponding to the vehicle to a digital key chip through the automobile data recorder; or (b)

Based on a mobile communication technology, a control instruction is sent to the automobile data recorder through a platform server, and the control instruction is transmitted to the digital key chip through the automobile data recorder.

Further, the memory 130 stores an operating system and the following steps are implemented when the vehicle control program based on the automobile data recorder is executed by the processor:

user identity authentication is carried out through mobile equipment;

if the user authentication is successful, establishing an encrypted connection;

And sending a request for issuing a key program or a control instruction of a corresponding vehicle to an Internet of vehicles platform through the mobile device or the platform server based on the encrypted connection.

Further, the memory 130 stores an operating system and the following steps are implemented when the vehicle control program based on the automobile data recorder is executed by the processor:

writing a key program or the control instruction corresponding to the vehicle into the digital key chip through the automobile data recorder;

Judging whether the information in the digital key chip is matched with the vehicle or not according to a key program or the control instruction corresponding to the vehicle;

And if the matching is successful, executing corresponding control actions on the vehicle through the digital key chip.

Further, the memory 130 stores an operating system and the following steps are implemented when the vehicle control program based on the automobile data recorder is executed by the processor:

acquiring the actual distance between a user and a vehicle and the preset vehicle control distance;

Comparing the actual distance between the user and the vehicle with the preset vehicle control distance;

if the actual distance between the user and the vehicle does not exceed the preset vehicle control distance, executing corresponding control actions on the vehicle based on a key program corresponding to the vehicle through a digital key chip;

And if the actual distance between the user and the vehicle exceeds the preset vehicle control distance, executing corresponding control actions on the vehicle based on the control instruction through the digital key chip.

Further, the memory 130 stores an operating system and the following steps are implemented when the vehicle control program based on the automobile data recorder is executed by the processor:

The digital key chip is used for controlling the opening and closing of the vehicle door, controlling the lifting of the vehicle window, controlling the double flashing of the vehicle lamp, controlling the horn whistle and controlling the opening and closing of the trunk.

Further, the memory 130 stores an operating system and the following steps are implemented when the vehicle control program based on the automobile data recorder is executed by the processor:

The digital key chip is used for controlling the opening and closing of the vehicle door, controlling the lifting of the vehicle window, controlling the double flashing of the vehicle lamp, controlling the whistle of the horn and controlling the opening and closing of the trunk.

According to the technical scheme, the automobile data recorder receives a key program corresponding to the automobile or a control instruction sent by the platform server and the key program corresponding to the automobile or the control instruction is transmitted to the digital key chip; and controlling the vehicle through the digital key chip based on a key program or the control instruction corresponding to the vehicle. Through the scheme, a user can realize real-time monitoring of the vehicle and various control operations on the vehicle by sending instructions to the automobile data recorder through Bluetooth or 4G on the mobile equipment without carrying the vehicle key.

Based on the above device architecture, but not limited to the above architecture, the method embodiments of the present application are presented.

Referring to fig. 2, fig. 2 is a flowchart of a first exemplary embodiment of a vehicle control method based on a vehicle recorder according to the present application. The vehicle control method based on the automobile data recorder comprises the following steps:

Step S10, integrating a digital key chip through a vehicle recorder.

The automobile data recorder is equipment installed in a vehicle and is used for recording video and audio in the running process of the vehicle. It typically includes one or more cameras for capturing views in front of, behind, or around the vehicle and storing the video data in a built-in storage medium, such as an SD card or a solid state disk.

Because at present, the automobile key is required to be controlled for controlling the automobile and entering and exiting the automobile, the automobile key is used for controlling the automobile and the operations such as insertion, rotation and pressing are required to be carried out, the automobile key is relatively complicated, the traditional automobile key cannot realize remote control of the automobile, and the automobile key is required to be close to the automobile for operation.

In order to realize the automobile remote control key function and the automobile control function, in the embodiment, a vehicle control method based on a 4G automobile data recorder is provided, and the method not only can realize the traditional audio and video recording function through the automobile data recorder, but also can realize real-time checking of the running condition of the vehicle and remote control of the automobile through a digital key chip integrated with the automobile data recorder.

Based on this, in the present embodiment, it is necessary to integrate the digital key chip through the automobile data recorder first.

Specifically, first, it is necessary to select suitable digital key chips, which generally have a wireless communication function such as 4G, 5G, or bluetooth.

Then, the selected digital key chip can be integrated into the hardware of the automobile data recorder in a circuit design and wiring mode, and the digital key chip and other components of the automobile data recorder can be ensured to be normally connected.

After integration, testing and debugging are needed to ensure that the functions of the digital key chip and the automobile data recorder are normally operated, including testing the stability of wireless communication, the accuracy of key identification and the like.

Through the steps, the automobile data recorder integrated digital key chip can provide a more convenient, safe and intelligent automobile control mode, and the use experience of an automobile owner and the automobile management efficiency are improved.

Step S20, receiving, by the tachograph, a key program corresponding to a vehicle running on the mobile device or a control instruction sent by the platform server, and transmitting the key program corresponding to the vehicle or the control instruction to the digital key chip.

Wherein the key program refers to a software program for controlling and managing a digital key. It is usually run on the electronic control unit of the vehicle or on the control system of the vehicle for implementing the functions and operations of the digital key;

Platform servers refer to computer servers that host and run various applications and services.

Specifically, when a user needs to control a vehicle, the user can select the vehicle to be controlled on the mobile phone APP through the mobile device, such as the mobile phone APP, and issue a corresponding key program to a vehicle recorder carried by the vehicle. Or transmitting a control instruction to the automobile data recorder through the platform server. The mobile device can be used for carrying out wireless connection on the automobile data recorder based on Bluetooth or WIFI, or the mobile device APP is used for transmitting the control instruction to the platform server based on a mobile communication technology, and the platform server transmits the control instruction to the automobile data recorder.

And after the automobile data recorder receives the control instruction of the key program or the platform server from the mobile equipment, analyzing and verifying the control instruction. It will check the validity and integrity of the key program or verify the legitimacy of the command.

If the key program or the control command passes the verification, the automobile data recorder transmits the key program or the control command to a digital key chip mounted in the automobile. The transmission between the automobile data recorder and the digital key chip CAN be realized through a physical interface, such as a CAN (Controller Area Network ) bus, or wireless communication, such as RFID (Radio Frequency Identification ).

Through the steps, the automobile data recorder can receive a key program sent by the mobile device or a control instruction sent by the platform server, and transmits the key program or the control instruction to the digital key chip. Thus, remote control and operation of the vehicle can be realized, and the safety and convenience of the vehicle are improved.

And step S30, controlling the vehicle through the digital key chip based on a key program or the control instruction corresponding to the vehicle.

Firstly, the automobile data recorder can match information in the digital key chip according to a key program or a control instruction corresponding to the automobile. This may ensure that only key programs or instructions matching the vehicle can be executed.

If the information in the digital key chip is successfully matched with the vehicle, the automobile data recorder can use the digital key chip to execute corresponding control actions on the vehicle.

For example, the vehicle owner wants to perform remote door unlocking control on the automobile A, and the vehicle owner sends a key program or a control instruction to the automobile data recorder through the mobile phone App. The automobile data recorder writes the information into the digital key chip of the automobile A.

The automobile data recorder can match information in the digital key chip according to a key program or a control instruction of the automobile A. If the information in the digital key chip matches car A successfully, it is indicated that the key program or instruction is legal.

If the matching is successful, the corresponding control action is executed on the vehicle through the digital key chip: if the information in the digital key chip is successfully matched with the automobile A, the automobile recorder can unlock the automobile A by using the digital key chip.

Through the steps, the automobile data recorder can write the key program or the control instruction corresponding to the automobile into the digital key chip, and correspondingly control the automobile according to the matching result. The remote control and the operation of the vehicle can be realized, and the safety and the convenience of the vehicle are improved.

Further, referring to fig. 3, fig. 3 is a flowchart of a second exemplary embodiment of the vehicle control method based on a vehicle recorder according to the present application. In this embodiment, based on the step S20, before receiving, by the tachograph, a key program corresponding to a vehicle operated by a mobile device or a control instruction sent by a platform server, and transmitting the key program corresponding to the vehicle or the control instruction to the digital key chip, the method further includes:

step S201, user identity authentication is performed through mobile equipment;

step S202, if the user authentication is successful, establishing encryption connection;

Step S203, sending, by the mobile device or the platform server, a request for issuing a key program or a manipulation instruction of a corresponding vehicle to the internet of vehicles platform based on the encrypted connection.

Compared with the embodiment, the method further comprises the steps of user identity authentication and encryption connection establishment, so that the safety of the system is improved, and the privacy of a user is protected.

Specifically, first, a user needs to use a mobile device for authentication. Authentication may be performed by entering a user name and a password, using a fingerprint or facial recognition, or the like. The mobile device may send the user provided to the internet of vehicles platform for authentication.

If the user authentication is successful, the Internet of vehicles platform can send an authentication passing message to the mobile device.

An encrypted connection is then established between the mobile device and the internet of vehicles platform to ensure data security and confidentiality during communications.

Finally, after establishing the encrypted connection, the mobile device or the platform server may send a request to the internet of vehicles platform, requesting to issue a key program or a control instruction of the corresponding vehicle. This request contains identification information of the vehicle and the required key program or operating instructions. The vehicle control platform generates a corresponding key program or control instruction according to the information in the request and sends the key program or control instruction to the mobile device or the platform server through the encrypted connection.

By the method of the embodiment, only authorized users can be ensured to remotely control the vehicle. This prevents unauthorized persons from performing illegal operations on the vehicle. The remote vehicle control system can realize safe and convenient remote vehicle control, and improves the safety of vehicles and the use experience of users.

Further, referring to fig. 4, fig. 4 is a flowchart of a third exemplary embodiment of the vehicle control method based on a vehicle recorder according to the present application. In this embodiment, based on the step S30, the controlling the vehicle by the digital key chip based on the key program or the control command corresponding to the vehicle further includes:

step S31, acquiring the actual distance between a user and a vehicle and the preset vehicle control distance;

step S32, comparing the actual distance between the user and the vehicle with a preset vehicle control distance;

Step S33, if the actual distance between the user and the vehicle does not exceed the preset vehicle control distance, executing corresponding control actions on the vehicle based on a key program corresponding to the vehicle through a digital key chip;

and step S34, if the actual distance between the user and the vehicle exceeds the preset vehicle control distance, executing corresponding control actions on the vehicle based on the control instruction through the digital key chip.

Because a traditional automobile key cannot realize remote control of a vehicle, the automobile key needs to be close to the vehicle to operate.

The embodiment can realize near-field control of the vehicle and remote control of the vehicle.

Specifically, first, when a user opens an application of the mobile device, the actual distance between the user and the vehicle may be transmitted to a tachograph on the vehicle through wireless communication.

After the actual distance information of the user and the vehicle is received by the automobile data recorder, the actual distance information is compared with a preset automobile control distance, and the preset automobile control distance is a preset distance threshold value used for judging whether the distance between the user and the vehicle meets control conditions or not.

If the actual distance between the user and the vehicle does not exceed the preset vehicle control distance as a result of comparison by the automobile data recorder, the digital key chip is used, and corresponding control actions are executed on the vehicle based on the key program corresponding to the vehicle sent by the mobile device.

If the actual distance between the user and the vehicle exceeds the preset vehicle control distance as a result of comparison by the automobile data recorder, the digital key chip is used, and corresponding control actions are executed on the vehicle based on the control instructions sent by the platform server.

Suppose user a owns a smart car and is equipped with a digital key chip. User a now wants to remotely control the start and stop of the vehicle.

Firstly, comparing the actual distance between a user and a vehicle with a preset vehicle control distance, and detecting the actual distance between the user A and the vehicle by a vehicle recorder and comparing the actual distance with the preset vehicle control distance. Assume that the preset vehicle control distance is 10 meters.

If the automobile data recorder detects that the actual distance between the user A and the automobile is not more than 10 meters, the automobile data recorder receives a key program corresponding to the automobile sent by the user through the mobile equipment, and the key program is written into the digital key chip. The digital key chip executes control actions of starting or flameout on the vehicle based on a key program corresponding to the vehicle.

If the system detects that the actual distance between the user A and the vehicle exceeds 10 meters, the automobile data recorder receives a control instruction sent by the platform server and transmits the control instruction to the digital key chip. The digital key chip executes corresponding control actions on the vehicle based on the control instruction.

By the method, the automobile data recorder can determine whether to use a key program or a control instruction to control the automobile according to the distance between the user and the automobile, so that the automobile control in long-distance and short-distance is realized.

Further, referring to fig. 5, fig. 5 is a flowchart of a fourth exemplary embodiment of the vehicle control method based on a vehicle recorder according to the present application. In this embodiment, based on the step S33, if the actual distance between the user and the vehicle exceeds the preset vehicle control distance, the corresponding control action is further refined on the vehicle by the digital key chip based on the key program corresponding to the vehicle, including:

step S331, performing door opening and closing control, window lifting control, lamp double flashing control, horn whistle control and trunk opening and closing control on the vehicle based on a key program corresponding to the vehicle through the digital key chip.

When the actual distance between the user and the vehicle exceeds the preset vehicle control distance, a key program corresponding to the vehicle issued by the mobile device can be received through the digital key chip, and corresponding control is performed on the vehicle in a wireless communication mode based on the key program corresponding to the vehicle.

Specifically, when the user wants to perform an operation of locking or unlocking the door of the vehicle, only a key program regarding locking or unlocking the door of the vehicle needs to be issued to the event data recorder through bluetooth using the mobile terminal device.

When the automobile data recorder receives a key program for locking or unlocking the automobile door, the key program is transmitted to the digital key chip, and then the digital key chip can control the automobile door to lock or unlock based on the key program through wireless remote control. This means that the locking or unlocking of the door can be controlled by means of a digital key chip.

Or when the user wants to control the lifting of the window of the vehicle, only a key program for controlling the lifting of the window of the vehicle is required to be issued to the automobile data recorder through Bluetooth by using the mobile terminal device.

When the automobile data recorder receives a key program for controlling the lifting of the automobile window, the key program is transmitted to the digital key chip, and then the digital key chip can execute the lifting action of the automobile window through wireless remote control. This means that the opening and closing of the window can be controlled by a digital key chip.

Or when the user wants to perform double-flash control on the car lamp of the vehicle, only a key program for performing double-flash control on the car lamp of the vehicle is required to be issued to the automobile data recorder through Bluetooth by using the mobile terminal device.

When the automobile data recorder receives a key program for performing double-flash control on the automobile lamp of the automobile, the key program is transmitted to the digital key chip, and then the digital key chip can execute double-flash action on the automobile lamp of the automobile based on the key program and through wireless remote control. This means that the front and rear lights of the vehicle can be blinked through the digital key chip, which plays a role in reminding other vehicles and pedestrians.

Or when the user wants to perform the whistle control on the horn of the vehicle, only a key program for performing the whistle control on the horn of the vehicle is required to be issued to the automobile data recorder through Bluetooth by using the mobile terminal device.

When the automobile data recorder receives a key program for controlling the horn of the automobile to blast, the key program is transmitted to the digital key chip, and then the digital key chip can execute the action of the horn of the automobile to blast based on the key program and through wireless remote control.

Or when the user wants to switch and control the trunk of the vehicle, only a key program for whistle control on the horn of the vehicle is issued to the automobile data recorder through Bluetooth by using the mobile terminal device.

When the automobile data recorder receives a key program for controlling the opening and closing of the trunk of the automobile, the key program is transmitted to the digital key chip, and then the digital key chip can execute the opening and closing action of the trunk of the automobile based on the key program and through wireless remote control. This means that the vehicle can be opened or closed by means of a digital key chip.

In summary, the digital key chip can remotely perform door opening and closing control, window lifting control, lamp double flashing control, horn whistle control and trunk opening and closing control on the vehicle based on a key program corresponding to the vehicle, so that safety and convenience of the vehicle are improved.

Further, referring to fig. 6, fig. 6 is a flowchart of a fifth exemplary embodiment of a vehicle control method based on a vehicle recorder according to the present application. In this embodiment, based on the step S34, if the actual distance between the user and the vehicle does not exceed the preset vehicle control distance, the corresponding control action is further refined by the digital key chip based on the control instruction, including:

Step S341, a digital key chip is used for controlling the opening and closing of a vehicle door, the lifting of a vehicle window, the double flashing control of a vehicle lamp, the horn whistle control and the opening and closing control of a vehicle tail box on the basis of the control instruction.

When the actual distance between the user and the vehicle does not exceed the preset vehicle control distance, the digital key chip can receive the control instruction sent by the platform server, and corresponding control is performed on the vehicle in a wireless communication mode based on the control instruction.

Specifically, when the user wants to perform an operation of locking or unlocking the door of the vehicle, it is only necessary to send an instruction of locking or unlocking the door to a platform server in the vehicle control platform through the mobile terminal device.

When the platform server receives the command for locking or unlocking the vehicle door, the platform server sends a control command for locking or unlocking the vehicle door to the automobile data recorder through the 4G function.

When the automobile data recorder receives an operation instruction for locking or unlocking the automobile door, the operation instruction is transmitted to the digital key chip, and then the digital key chip can be remotely controlled by wireless, so that the automobile door of the automobile can be controlled to be locked or unlocked.

Or when the user wants to control the lifting of the window of the vehicle, the mobile terminal equipment only needs to send a command for controlling the lifting of the window of the vehicle to a platform server in a vehicle control platform.

When the platform server receives a control instruction for controlling the lifting of the vehicle window, the control instruction for controlling the lifting of the vehicle window is sent to the automobile data recorder through the 4G function.

When the automobile data recorder receives an operation command for lifting and controlling the automobile window, the operation command is transmitted to the digital key chip, and then the digital key chip can execute lifting and controlling actions of the automobile window through wireless remote control. This means that the opening and closing of the window can be controlled by a digital key chip.

Or when the user wants to perform double-flash control on the car lights of the vehicle, the mobile terminal equipment only needs to send a car door locking or unlocking instruction to a platform server in a vehicle control platform.

When the platform server receives a control instruction for performing double-flash control on the vehicle lamp, the control instruction for performing double-flash control on the vehicle lamp is sent to the automobile data recorder through the 4G function.

When the automobile data recorder receives an operation instruction for performing double-flash control on the automobile lamp of the automobile, the operation instruction is transmitted to the digital key chip, and then the digital key chip can perform double-flash action on the automobile lamp of the automobile through wireless remote control. This means that the front and rear lights of the vehicle can be blinked through the digital key chip, which plays a role in reminding other vehicles and pedestrians.

Or when the user wants to perform the whistle control on the horn of the vehicle, the user only needs to send a control instruction for the horn of the vehicle to perform the whistle to a platform server in the vehicle control platform through the mobile terminal equipment.

When the platform server receives a control instruction for controlling the horn of the vehicle to perform the whistle, the platform server sends the control instruction for controlling the horn of the vehicle to the automobile data recorder through the 4G function.

When the automobile data recorder receives an operation instruction for whistling control on the horn of the automobile, the operation instruction is transmitted to the digital key chip, and then the digital key chip can perform the action of whistling on the horn of the automobile through wireless remote control. This means that the digital key chip can make the vehicle make a horn sound to play a role of reminding or warning.

Or when the user wants to switch and control the trunk of the vehicle, the user only needs to send a control instruction for switching and controlling the trunk of the vehicle to a platform server in the vehicle control platform through the mobile terminal equipment.

When the platform server receives a control instruction for controlling the opening and closing of the trunk of the vehicle, the control instruction for controlling the opening and closing of the trunk of the vehicle is sent to the automobile data recorder through the 4G function.

When the automobile data recorder receives an operation instruction for controlling the opening and closing of the trunk of the automobile, the operation instruction is transmitted to the digital key chip, and then the digital key chip can be remotely controlled by wireless to execute the opening and closing action of the trunk of the automobile. This means that the vehicle can be opened or closed by means of a digital key chip.

In summary, the digital key chip can perform door opening and closing control, window lifting control, lamp double flashing control, horn whistle control and trunk opening and closing control on the vehicle in a short distance based on the control instruction, so that the safety and convenience of the vehicle are improved.

The following describes the method according to the embodiment of the present application in detail with reference to a specific scenario.

For example, the user wants to perform a door unlock operation of the vehicle B.

The vehicle B is loaded with a 4G automobile data recorder, wherein a hardware architecture diagram of the 4G automobile data recorder is shown in fig. 7.

The hardware architecture of the 4G automobile data recorder on the vehicle B mainly comprises the following parts:

1. main control CPU: processing service logic of the automobile data recorder to realize video recording and automobile control;

2. Digital key chip: the key function of the vehicle is realized, and the vehicle is controlled;

3. 4G module: uploading the video and data of the automobile data recorder to a platform, and receiving a platform server instruction;

4. bluetooth: the mobile phone APP can be connected, the key program sent by the mobile phone is received, the digital key chip is controlled, and the vehicle control function is completed.

A software architecture diagram for a vehicle control system in vehicle B is shown in fig. 8.

Specifically, the system software architecture mainly comprises a platform server, automobile data recorder software and a mobile phone APP.

1. Platform server: the method is mainly used for improving the function service of the automobile data recorder and the data key management and automobile control service;

2. Automobile data recorder software: the method mainly realizes video real-time monitoring, and realizes remote or near-field vehicle control by receiving a platform server instruction through 4G or receiving a mobile phone APP instruction through Bluetooth.

3. Cell phone APP: the automobile data recorder video can be checked in real time. Or the vehicle is controlled by communicating with the platform through the 4G and remotely sending a command to the automobile data recorder. Or the automobile data recorder is connected with the automobile data recorder through Bluetooth, and the near field sends instructions to the automobile data recorder to control the automobile.

Firstly, a user needs to carry out identity authentication through a program application of a mobile phone, for example, identity confirmation is carried out by inputting a corresponding user name and a corresponding password on an application interface.

If the user authentication is successful, the mobile phone APP establishes an encrypted connection with the Internet of vehicles platform. The encrypted connection can ensure the security of communication and prevent data from being stolen or tampered with. The encrypted connection uses an encryption protocol to protect the transmission of data.

The user can send a request to the internet of vehicles platform through the mobile phone APP. This request is a request to issue a key program or a manipulation instruction for unlocking the vehicle door. The requested content will be securely transmitted to the vehicle control platform over the encrypted connection.

When the car networking platform receives a request for issuing a key program or a control instruction for unlocking the car door of the car, the key program or the control instruction for unlocking the car door of the car is transmitted to the car recorder.

Before the automobile data recorder receives a key program or a control instruction for unlocking the automobile door, the automobile data recorder can also judge whether the actual distance between a user and the automobile B exceeds a preset distance in a wireless communication mode.

If the actual distance between the user and the vehicle B exceeds the preset distance, the mobile phone APP is communicated with the platform server through the 4G module, and the platform server can remotely send an operation instruction for unlocking the door of the vehicle B to the automobile data recorder.

After the automobile data recorder receives an operation instruction for unlocking the automobile door of the automobile B, which is sent by the platform server, the operation instruction is written into the built-in digital key chip. And then the digital key chip analyzes the instruction and executes corresponding operation to unlock the door of the vehicle.

If the actual distance between the user and the vehicle B does not exceed the preset distance, the mobile phone APP is directly connected with the automobile data recorder through Bluetooth, and a key program of the vehicle B is issued, wherein the key program comprises unlocking the door of the vehicle B.

After the automobile data recorder receives a key program sent by the mobile phone APP, the key program is written into the built-in digital key chip. The digital key chip then unlocks the doors of the vehicle based on the contents of the key program. Let the driving recorder become the authorized key of the vehicle B.

Besides, the user can also check the running condition of the vehicle B in real time through the mobile phone APP or monitor the vehicle B in real time when the vehicle B is parked, so that the safety of the vehicle is ensured.

In summary, the user can not carry the car key any more, and can control the car remotely or closely through the mobile phone APP, and more convenient, safe and personalized travel experience is brought to the user.

By the method, the vehicle event data recorder specifically receives a key program corresponding to a vehicle sent by a mobile device or a control instruction sent by the platform server, and transmits the key program corresponding to the vehicle or the control instruction to the digital key chip; and controlling the vehicle through the digital key chip based on a key program or the control instruction corresponding to the vehicle. Through the scheme, a user can realize real-time monitoring of the vehicle and various control operations on the vehicle by sending instructions to the automobile data recorder through Bluetooth or 4G on the mobile equipment without carrying the vehicle key.

In addition, this embodiment also provides a vehicle control device based on vehicle event data recorder, vehicle control device based on vehicle event data recorder includes:

the integrated module is used for integrating the digital key chip through the automobile data recorder;

The transmission module is used for receiving a key program corresponding to a vehicle operated by the mobile equipment or a control instruction sent by the platform server through the automobile data recorder and transmitting the key program corresponding to the vehicle or the control instruction to the digital key chip;

And the control module is used for controlling the vehicle through the digital key chip based on a key program or the control instruction corresponding to the vehicle.

The present embodiment realizes the principle and implementation process of vehicle control based on the vehicle recorder, please refer to the above embodiments, and the description thereof is omitted herein.

In addition, the embodiment of the application also provides a vehicle control terminal device based on the automobile data recorder, which comprises: the system comprises a memory, a processor and a vehicle control program which is stored in the memory and can run on the processor and is based on a vehicle recorder, wherein the vehicle control program based on the vehicle recorder is configured to realize the steps of the error log analysis method.

Because all the technical schemes of all the embodiments are adopted when the automobile control program based on the automobile data recorder is executed by the processor, the automobile control program at least has all the beneficial effects brought by all the technical schemes of all the embodiments and is not described in detail herein.

In addition, the embodiment of the application also provides a storage medium, wherein the storage medium is stored with a vehicle control program based on the vehicle recorder, and the vehicle control program based on the vehicle recorder realizes the steps of the vehicle control method based on the vehicle recorder when being executed by a processor.

Because all the technical schemes of all the embodiments are adopted when the automobile control program based on the automobile data recorder is executed by the processor, the automobile control program at least has all the beneficial effects brought by all the technical schemes of all the embodiments and is not described in detail herein.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

The foregoing embodiment numbers of the present invention are merely for the purpose of description, and do not represent the advantages or disadvantages of the embodiments.

From the above description of the embodiments, it will be clear to those skilled in the art that the above-described embodiment method may be implemented by means of software plus a necessary general hardware platform, but of course may also be implemented by means of hardware, but in many cases the former is a preferred embodiment. Based on such understanding, the technical solution of the present invention may be embodied essentially or in a part contributing to the prior art in the form of a software product stored in a storage medium (e.g. ROM/RAM, magnetic disk, optical disk) as described above, comprising instructions for causing a terminal device (which may be a mobile phone, a computer, a server, or a network device, etc.) to perform the method according to the embodiments of the present invention.

The foregoing description is only of the preferred embodiments of the present invention, and is not intended to limit the scope of the invention, but rather is intended to cover any equivalents of the structures or equivalent processes disclosed herein or in the alternative, which may be employed directly or indirectly in other related arts.

Claims (10)

1. The automobile control method based on the automobile data recorder is characterized by being applied to an automobile control platform, and comprises the following steps of:

integrating a digital key chip through a vehicle recorder;

Receiving a key program corresponding to a vehicle operated by mobile equipment or a control instruction sent by a platform server through the automobile data recorder, and transmitting the key program corresponding to the vehicle or the control instruction to the digital key chip;

And controlling the vehicle through the digital key chip based on a key program or the control instruction corresponding to the vehicle.

2. The vehicle control method based on a vehicle recorder according to claim 1, wherein the step of receiving, by the vehicle recorder, a control command sent by a key program or a platform server corresponding to a vehicle running on a mobile device, and transmitting the key program or the control command to the digital key chip comprises:

Based on the Bluetooth function, issuing a key program corresponding to a vehicle data recorder through mobile equipment, and transmitting the key program corresponding to the vehicle to a digital key chip through the vehicle data recorder; or (b)

Based on a mobile communication technology, a control instruction is sent to the automobile data recorder through a platform server, and the control instruction is transmitted to the digital key chip through the automobile data recorder.

3. The vehicle control method based on a vehicle recorder according to claim 1, wherein before the step of receiving, by the vehicle recorder, a control instruction sent by a key program or a platform server corresponding to a vehicle running on a mobile device, and transmitting the key program or the control instruction corresponding to the vehicle to the digital key chip, the method further comprises:

user identity authentication is carried out through mobile equipment;

if the user authentication is successful, establishing an encrypted connection;

And sending a request for issuing a key program or a control instruction of a corresponding vehicle to an Internet of vehicles platform through the mobile device or the platform server based on the encrypted connection.

4. The vehicle control method based on a vehicle recorder according to claim 1, wherein the step of controlling the vehicle by the digital key chip based on the key program or the manipulation instruction corresponding to the vehicle comprises:

writing a key program or the control instruction corresponding to the vehicle into the digital key chip through the automobile data recorder;

Judging whether the information in the digital key chip is matched with the vehicle or not according to a key program or the control instruction corresponding to the vehicle;

And if the matching is successful, executing corresponding control actions on the vehicle through the digital key chip.

5. The vehicle control method based on a vehicle recorder according to claim 4, wherein the step of executing the corresponding control action on the vehicle by the digital key chip if the matching is successful comprises:

acquiring the actual distance between a user and a vehicle and the preset vehicle control distance;

Comparing the actual distance between the user and the vehicle with the preset vehicle control distance;

if the actual distance between the user and the vehicle does not exceed the preset vehicle control distance, executing corresponding control actions on the vehicle based on a key program corresponding to the vehicle through a digital key chip;

And if the actual distance between the user and the vehicle exceeds the preset vehicle control distance, executing corresponding control actions on the vehicle based on the control instruction through the digital key chip.

6. The vehicle control method based on a vehicle recorder according to claim 5, wherein the step of executing the corresponding control action on the vehicle based on the corresponding key program of the vehicle by the digital key chip comprises:

The digital key chip is used for controlling the opening and closing of the vehicle door, controlling the lifting of the vehicle window, controlling the double flashing of the vehicle lamp, controlling the horn whistle and controlling the opening and closing of the trunk.

7. The vehicle control method based on a vehicle recorder according to claim 5, wherein the step of executing the corresponding control action on the vehicle based on the manipulation instruction by the digital key chip comprises:

The digital key chip is used for controlling the opening and closing of the vehicle door, controlling the lifting of the vehicle window, controlling the double flashing of the vehicle lamp, controlling the whistle of the horn and controlling the opening and closing of the trunk.

8. Vehicle control device based on vehicle event data recorder, its characterized in that, vehicle control device based on vehicle event data recorder includes:

the integrated module is used for integrating the digital key chip through the automobile data recorder;

The transmission module is used for receiving a key program corresponding to a vehicle operated by the mobile equipment or a control instruction sent by the platform server through the automobile data recorder and transmitting the key program corresponding to the vehicle or the control instruction to the digital key chip;

And the control module is used for controlling the vehicle through the digital key chip based on a key program or the control instruction corresponding to the vehicle.

9. Vehicle control equipment based on vehicle event data recorder, its characterized in that, vehicle control equipment based on vehicle event data recorder includes: a memory, a processor and a vehicle recorder based vehicle control program stored on the memory and executable on the processor, the vehicle recorder based vehicle control program configured to implement the steps of the vehicle recorder based vehicle control method of any one of claims 1 to 7.

10. A storage medium, wherein a vehicle control program based on a vehicle recorder is stored on the storage medium, and the vehicle control program based on the vehicle recorder realizes the steps of the vehicle control method based on the vehicle recorder according to any one of claims 1 to 7 when being executed by a processor.