Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
The embodiments of the present invention will be described in detail with reference to the accompanying drawings.
The first embodiment:
fig. 1 is a flowchart illustrating a vehicle control method according to a first embodiment of the present invention. For a clear description of the vehicle control method provided by the first embodiment of the present invention, please refer to fig. 1.
A vehicle control method provided in a first embodiment of the invention includes the steps of:
and S11, reading the vehicle-mounted NFC module to acquire the download address and the dynamic authorization information of the vehicle control application.
In an embodiment, the vehicle-mounted NFC module may be integrated in the vehicle-mounted control terminal, or may be externally connected to the vehicle-mounted control terminal, and it should be understood that the setting manner of the vehicle-mounted NFC module includes, but is not limited to, the above two manners. The vehicle-mounted control terminal is externally connected with the vehicle-mounted NFC module, and the mounting position of the vehicle-mounted NFC module is, for example, the back of a seat in a vehicle, a center console of the vehicle, a door handle in the vehicle, and the like.
In one embodiment, the download address and the dynamic authorization information of the vehicle control application in the vehicle NFC module may be written by the vehicle control terminal.
In one embodiment, the dynamic authorization information may include at least one of a dynamic username, a dynamic login account, a dynamic login password, and the like, with the understanding that the dynamic authorization information includes, but is not limited to, a dynamic username, a dynamic login account, a dynamic login password.
In an embodiment, the dynamic authorization information may be refreshed by the vehicle-mounted control terminal according to a certain time frequency and written into the vehicle-mounted NFC module, so that the obtained authorization information for logging in the vehicle control application is different after the vehicle-mounted NFC module is read at different times, and therefore, the dynamic authorization information in the vehicle-mounted NFC module needs to be obtained again each time the vehicle control application is logged in again, so that the vehicle control method provided by the embodiment has higher security.
And S12, downloading and installing the vehicle control application according to the download address of the vehicle control application.
In one embodiment, in step S12: before the step of downloading and installing the vehicle control application according to the download address of the vehicle control application, the steps may include, but are not limited to: and acquiring the downloading information of the vehicle control application according to the downloading address of the vehicle control application so as to detect whether the vehicle control application is installed or not according to the downloading information of the vehicle control application. If the vehicle control application is not installed, the step S12 is carried out, and the vehicle control application is downloaded and installed according to the download address of the vehicle control application. And if the vehicle control application is installed, directly entering a step of automatically logging in the vehicle control application according to the dynamic authorization information and establishing wireless connection with the vehicle-mounted control terminal so as to control the vehicle through the vehicle control application. Therefore, the vehicle control method provided by the embodiment can realize intelligent downloading of the vehicle control application, prevent repeated downloading and further save time.
S13: and automatically logging in the vehicle control application according to the dynamic authorization information, and establishing wireless connection with the vehicle-mounted control terminal, so that the vehicle is controlled through the vehicle control application.
In one embodiment, in step S13, the vehicle control application is automatically logged in according to the dynamic authorization information, and a wireless connection is established with the vehicle-mounted control terminal, so as to control the vehicle through the vehicle control application, which may include, but is not limited to: and establishing temporary connection of near field wireless communication with the vehicle-mounted control terminal according to temporary communication authentication information acquired from the vehicle-mounted NFC module, wherein the temporary communication authentication information comprises wireless communication identification information and a temporary connection password.
The wireless communication identification information includes, for example, bluetooth identification information (e.g., bluetooth name, bluetooth address, device name, device code, etc.), wiFi identification information, and the like. In a real-time manner, the short-range wireless communication may be bluetooth communication, wiFi communication, etc., but the short-range wireless communication includes, but is not limited to, bluetooth communication, wiFi communication.
The temporary communication authentication information in the vehicle-mounted NFC module may be refreshed by the vehicle-mounted control terminal according to a certain time frequency and written into the vehicle-mounted NFC module, so that the temporary communication authentication information read from the vehicle-mounted NFC module at each time may be different. In addition, the temporary communication authentication information may have a use time limit, and for example, when the use time limit of the temporary communication authentication information is satisfied after the connection of the short-range wireless communication with the in-vehicle terminal is established using the temporary communication authentication information, the in-vehicle control terminal may disconnect. It should be understood that the temporary communication authentication information includes, but is not limited to, the above two cases.
In an embodiment, after the temporary communication authentication message in the vehicle-mounted NFC module is read, whether the own communication module is turned on may be detected, and when the own communication module is not turned on, the own communication module (e.g., a bluetooth module, a WiFi module, etc.) is automatically turned on.
In one embodiment, when acquiring a signal that temporary communication authentication information in the vehicle-mounted NFC module is acquired, the vehicle-mounted control terminal detects whether its own communication module is turned on, and when its own communication module is not turned on, automatically turns on its own communication module.
In other embodiments, the wireless connection with the vehicle-mounted control terminal may also be established through the server.
In one embodiment, the step of controlling the vehicle by the vehicle control application may include, but is not limited to: and receiving an air conditioner control instruction aiming at the vehicle control application, and generating and sending air conditioner control information to the vehicle-mounted control terminal according to the air conditioner control instruction. And the vehicle-mounted control terminal acquires the position information of the user, selects the air conditioner corresponding to the position information and correspondingly controls the selected air conditioner according to the air conditioner control information. The vehicle-mounted control terminal acquires the position information of the user, for example, the image acquisition device acquires the position information of the user, the infrared sensor acquires the position information of the user, the gravity sensor under the seat acquires the position information of the user, and the like. The air conditioning control information may include, but is not limited to, temperature control information, wind direction control information, humidity control information, and the like. Therefore, the vehicle control method provided by this embodiment can control the air conditioner corresponding to the location information in a targeted manner by acquiring the location information of the user, thereby implementing more intelligent control of the air conditioner on the vehicle.
In one embodiment, the step of controlling the vehicle by the vehicle control application may include, but is not limited to: and receiving an automatic driving control instruction aiming at an automatic driving control option in the vehicle control application, and generating and sending automatic driving control information to the vehicle-mounted control terminal according to the automatic driving control instruction, wherein the automatic driving control information comprises destination selection information and driving route selection information. And the vehicle-mounted control terminal selects a destination and a driving route according to the automatic driving control information so as to control the vehicle to automatically drive. Therefore, the vehicle control method provided by the embodiment can realize automatic driving of the vehicle. For example, when the vehicle control method provided in this embodiment is applied to an unmanned shared vehicle, a user can reserve a vehicle by using a mobile phone, and then can open a vehicle door after acquiring a door-opening key (including a virtual mobile phone key or an entity key), and then can set automatic driving control information after downloading, installing, and logging in the vehicle control application in the manner described above, so as to implement intelligent vehicle automatic driving.
In an embodiment, after the step of controlling the vehicle by the vehicle control application, may include, but is not limited to: after the information of the user for getting off the vehicle is acquired, if the signal of getting on the vehicle by the user is not received or the vehicle control instruction input by the vehicle control application is not received in the preset time period, the user automatically quits the login of the vehicle control application. In one embodiment, after logging out of the vehicle control application, if the vehicle control application is to be logged in again, the dynamic authorization information and/or the temporary communication authentication information in the vehicle-mounted NFC module need to be acquired again. Therefore, when the vehicle control method provided by the present embodiment is applied to a shared vehicle, the timeliness of the use of the vehicle can be ensured.
In one implementation, the vehicle control method provided in the embodiment of the present invention may further include, but is not limited to: the vehicle-mounted control terminal receives control authority information about the vehicle-mounted device. Specifically, prior to the step of controlling the vehicle by the vehicle control application, there may be, but is not limited to including: and receiving control authority information about the vehicle-mounted equipment sent by the vehicle-mounted control terminal, and displaying control option information corresponding to the control authority information through a vehicle control application. It should be understood that the vehicle-mounted control terminal receives the control authority information about the vehicle-mounted device, and may be before any one of steps S11-S13, or in any one of steps S11-S13. For example, the vehicle control method provided by the embodiment is applied to a network car booking, and a vehicle booking driver can set the control authority about the vehicle-mounted device through the vehicle-mounted control terminal.
The control authority information about the vehicle-mounted device may include the type of the vehicle-mounted device, the number of controllable vehicle-mounted devices, the control authority for a certain vehicle-mounted device, and the like. And vehicle-mounted equipment such as electronic seats, windows, interior lights, air conditioners, vehicle-mounted playing devices and the like.
A vehicle control method according to a first embodiment of the present invention includes: and reading the vehicle-mounted NFC module to acquire a download address and dynamic authorization information of the vehicle control application. And downloading and installing the vehicle control application according to the download address of the vehicle control application. And automatically logging in the vehicle control application according to the dynamic authorization information, and establishing wireless connection with the vehicle-mounted control terminal, so that the vehicle is controlled through the vehicle control application. Therefore, the vehicle control method provided by the embodiment can automatically download, install and log in the vehicle control application after reading the download address and the dynamic authorization information of the vehicle control application in the vehicle-mounted NFC module, so that the vehicle control application can be conveniently and quickly downloaded, installed and logged in, and the vehicle can be further quickly controlled through the vehicle control application.
Second embodiment:
fig. 2 is a flowchart illustrating a vehicle control method according to a second embodiment of the present invention. For a clear description of the vehicle control method according to the second embodiment of the present invention, please refer to fig. 2.
A vehicle control method according to a second embodiment of the present invention includes the steps of:
and S21, the vehicle-mounted control terminal receives control authority information about the vehicle-mounted equipment.
And S22, the mobile terminal reads the vehicle-mounted NFC module to acquire the download address and the dynamic authorization information of the vehicle control application.
And S23, the mobile terminal acquires the downloading information of the vehicle control application according to the downloading address of the vehicle control application so as to detect whether the vehicle control application is installed or not according to the downloading information of the vehicle control application.
If the vehicle control application is not installed in the mobile terminal, step S24 is executed, in which the mobile terminal downloads and installs the vehicle control application according to the download address of the vehicle control application.
S25: and the mobile terminal automatically logs in the vehicle control application according to the dynamic authorization information and establishes wireless connection with the vehicle-mounted control terminal.
S26: and the mobile terminal receives control authority information about the vehicle-mounted equipment sent by the vehicle-mounted control terminal and displays control option information corresponding to the control authority information through the vehicle control application.
S27: the mobile terminal controls the vehicle through the vehicle control application.
And in the step S23, the mobile terminal acquires the download information of the vehicle control application according to the download address of the vehicle control application so as to detect whether the vehicle control application is installed or not according to the download information of the vehicle control application, and if the vehicle control application is installed, the mobile terminal directly enters the step S25, automatically logs in the vehicle control application according to the dynamic authorization information and establishes wireless connection with the vehicle control terminal.
In one embodiment, the mobile terminal includes, but is not limited to, a mobile phone, a tablet computer, a smart watch, and the like.
In an embodiment, the vehicle-mounted control terminal may include or be connected to an automatic driving module, so that the vehicle control method provided in this embodiment can implement automatic driving.
In an embodiment, for specific implementation and beneficial effects of the vehicle control method provided in this embodiment, reference may be made to the vehicle control method described in the first embodiment of the present invention, which will not be described herein again.
The vehicle control method provided by the embodiment comprises the following steps: the vehicle-mounted control terminal receives control authority information about the vehicle-mounted device. The mobile terminal reads the vehicle-mounted NFC module to acquire the download address and the dynamic authorization information of the vehicle control application. The mobile terminal acquires the download information of the vehicle control application according to the download address of the vehicle control application, and detects whether the vehicle control application is installed according to the download information of the vehicle control application. And if the vehicle control application is not installed on the mobile terminal, the mobile terminal downloads and installs the vehicle control application according to the download address of the vehicle control application. And the mobile terminal automatically logs in the vehicle control application according to the dynamic authorization information and establishes wireless connection with the vehicle-mounted control terminal. The mobile terminal receives control authority information about the vehicle-mounted equipment sent by the vehicle-mounted control terminal, and control option information corresponding to the control authority information is displayed through the vehicle control application. The mobile terminal controls the vehicle through the vehicle control application. If the vehicle control application is installed on the mobile terminal, the mobile terminal directly automatically logs in the vehicle control application according to the dynamic authorization information and establishes wireless connection with the vehicle-mounted control terminal. The vehicle control method provided by the invention can realize convenient, quick and intelligent downloading, installation and login of the vehicle control application, and in addition, the vehicle-mounted terminal can receive control authority information about the vehicle-mounted equipment, so that the mobile terminal can control the vehicle or the vehicle-mounted equipment in the vehicle according to the control authority information of the vehicle-mounted equipment.
The third embodiment:
fig. 3 is a schematic structural diagram of a vehicle control system according to a third embodiment of the present invention. For a clear description of a vehicle control system according to a third embodiment of the present invention, please refer to fig. 3.
Referring to fig. 3, a vehicle control system according to a third embodiment of the present invention includes a mobile terminal 1 and a vehicle-mounted control terminal 2.
The mobile terminal 1 is used for reading the vehicle-mounted NFC module to acquire a download address and dynamic authorization information of the vehicle control application, downloading and installing the vehicle control application according to the download address of the vehicle control application, automatically logging in the vehicle control application according to the dynamic authorization information, and establishing wireless connection with the vehicle-mounted control terminal 2, so that the vehicle is controlled through the vehicle control application.
In one embodiment, the mobile terminal 1 may be configured to obtain the download information of the vehicle control application according to the download address of the vehicle control application, so as to detect whether the vehicle control application is installed according to the download information of the vehicle control application. If the vehicle control application is not installed, the mobile terminal 1 downloads and installs the vehicle control application according to the download address of the vehicle control application. And if the vehicle control application is installed, the mobile terminal 1 automatically logs in the vehicle control application directly according to the dynamic authorization information and establishes wireless connection with the vehicle-mounted control terminal 2, so that the vehicle is controlled through the vehicle control application.
In one embodiment, the mobile terminal 1 may be configured to establish a temporary connection for the short-range wireless communication with the in-vehicle control terminal 2 according to temporary communication authentication information acquired from the in-vehicle NFC module, where the temporary communication authentication information includes wireless communication identification information and a temporary connection password. The wireless communication identification information includes, for example, bluetooth identification information (e.g., name of bluetooth, bluetooth address, device name, device code, etc.), wiFi identification information, and the like. In a real-time manner, the short-range wireless communication may be bluetooth communication, wiFi communication, etc., but the short-range wireless communication includes, but is not limited to, bluetooth communication, wiFi communication. The temporary communication authentication information in the vehicle-mounted NFC module may be refreshed by the vehicle-mounted control terminal 2 according to a certain time frequency and written into the vehicle-mounted NFC module, so that the temporary communication authentication information read from the vehicle-mounted NFC at each time may be different. Further, the provisional communication authentication information may also have a use time limit, and for example, when the use time limit of the provisional communication authentication information is satisfied after the connection of the proximity wireless communication is established with the in-vehicle terminal using the provisional communication authentication information, the in-vehicle control terminal 2 disconnects the connection. It should be understood that the temporary communication authentication information includes, but is not limited to, the above two cases.
In an embodiment, the mobile terminal 1 may be configured to detect whether the own communication module is turned on after reading the temporary communication authentication message in the vehicle-mounted NFC module, and automatically turn on the own communication module (for example, a bluetooth module, a WiFi module, or the like) when the own communication module is not turned on. In addition, the vehicle-mounted control terminal 2 may be configured to detect whether the own communication module is started when acquiring the signal that the temporary communication authentication information in the vehicle-mounted NFC module is acquired, and automatically start the own communication module when the own communication module is not started.
In another embodiment, the mobile terminal 1 and the vehicle-mounted control terminal 2 may establish a wireless connection through the server 3 and the vehicle-mounted control terminal 2. Wherein, the in-vehicle control terminal 2 can set a security level of the mobile terminal 1 connected through the server.
In one embodiment, the mobile terminal 1 may be configured to receive an air conditioning control instruction for a vehicle control application, and generate and send air conditioning control information to the in-vehicle control terminal 2 according to the air conditioning control instruction. The vehicle-mounted control terminal 2 acquires the position information of the user, and selects the air conditioner corresponding to the position information, so as to correspondingly control the selected air conditioner according to the air conditioner control information. The vehicle-mounted control terminal 2 acquires the position information of the user, for example, the image acquisition device acquires the position information of the user, the infrared sensor acquires the position information of the user, the gravity sensor under the seat acquires the position information of the user, and the like. The air conditioning control information may include, but is not limited to, temperature control information, wind direction control information, humidity control information, and the like. Therefore, after receiving the air conditioner control information sent by the mobile terminal 1 through the vehicle control application, the vehicle control system provided in this embodiment may control the air conditioner corresponding to the location information in a targeted manner by acquiring the location information of the user, so as to implement more intelligent control on the air conditioner in the vehicle.
In one embodiment, the mobile terminal 1 may be configured to receive an automatic driving control instruction for an automatic driving control option in the vehicle control application, and generate and send automatic driving control information to the vehicle-mounted control terminal 2 according to the automatic driving control instruction, where the automatic driving control information includes destination selection information and driving route selection information. The vehicle-mounted control terminal 2 selects a destination and a travel route according to the automatic driving control information to control the vehicle to perform automatic driving. Therefore, the vehicle control system provided by the embodiment can realize automatic driving of the vehicle.
In an embodiment, the mobile terminal 1 may be configured to automatically log out of the vehicle control application when a user getting-on signal or a vehicle control instruction is not received within a preset time period after obtaining the getting-off information of the user. In one embodiment, after logging out of the vehicle control application, if the vehicle control application is to be logged in again, the dynamic authorization information and/or the temporary communication authentication information in the vehicle-mounted NFC module need to be acquired again. Therefore, when the vehicle control system provided by the embodiment is applied to the sharing field, the timeliness of the vehicle use can be ensured.
The vehicle-mounted NFC module may be integrated in the vehicle-mounted control terminal 2, or may be externally connected to the vehicle-mounted control terminal 2, and the setting mode of the vehicle-mounted NFC module should be understood to include, but is not limited to, the above two modes. The vehicle-mounted control terminal 2 is externally connected with a vehicle-mounted NFC module, and the mounting position of the vehicle-mounted NFC module is, for example, the back of a seat in a vehicle, a center console of the vehicle, a door handle in the vehicle, and the like.
In one embodiment, the download address and the dynamic authorization information of the vehicle control application in the vehicle NFC module may be written by the vehicle control terminal 2. In one embodiment, the dynamic authorization information may include at least one of a dynamic username, a dynamic login account, a dynamic login password, and the like, with the understanding that the dynamic authorization information includes, but is not limited to, a dynamic username, a dynamic login account, a dynamic login password. The dynamic authorization information can be refreshed by the vehicle-mounted control terminal 2 according to a certain time frequency and written into the vehicle-mounted NFC module, so that the acquired authorization information for logging in the vehicle control application is different after the vehicle-mounted NFC module is read at different times, and therefore the dynamic authorization information in the vehicle-mounted NFC module needs to be acquired again when the vehicle control application is logged in again each time, so that the vehicle control system provided by the embodiment has higher security, and further when the vehicle control system provided by the embodiment is applied to a shared vehicle, the security of the shared vehicle can be realized, and it is ensured that the vehicle can be controlled only by a user who logs in the vehicle-mounted control terminal 2 of the shared vehicle recently.
In one embodiment, the in-vehicle control terminal 2 may be configured to receive control authority information about the in-vehicle device. Specifically, the mobile terminal 1 may be further configured to receive control authority information about the vehicle-mounted device sent by the vehicle-mounted control terminal 2 before being configured to control the vehicle through the vehicle control application, and to display control option information corresponding to the control authority information through the vehicle control application.
In an implementation manner, for a specific implementation manner and beneficial effects of the vehicle control system provided in this embodiment, reference may be made to the vehicle control methods provided in the first embodiment and the second embodiment, which will not be described herein again.
The vehicle control system provided by the embodiment comprises a mobile terminal 1 and a vehicle-mounted control terminal 2, wherein the mobile terminal 1 is used for reading a vehicle-mounted NFC module to acquire a download address and dynamic authorization information of a vehicle control application, automatically logging in the vehicle control application according to the dynamic authorization information after the vehicle control application is downloaded and installed according to the download address of the vehicle control application, and establishing wireless connection with the vehicle-mounted control terminal 2, so that a vehicle is controlled through the vehicle control application. Therefore, the vehicle control system provided by this embodiment can automatically download, install, and log in the vehicle control application after the mobile terminal 1 reads the download address and the dynamic authorization information of the vehicle control application in the vehicle-mounted NFC module, so that the vehicle control application can be conveniently and quickly downloaded, installed, and logged in, and the vehicle can be further quickly controlled by using the mobile terminal 1 through the vehicle control application.
The present embodiment also provides a vehicle that uses the vehicle control system described above or the vehicle control methods provided in the first and second embodiments described above. Therefore, the vehicle provided by the embodiment can enable the mobile terminal to conveniently and quickly download, install and log in the vehicle control application, and further enable the mobile terminal to quickly control the vehicle through the vehicle control application.
The fourth embodiment:
fig. 4 is a schematic structural diagram of a mobile terminal according to a fourth embodiment of the present invention. For a clear description of the mobile terminal provided in the fourth embodiment of the present invention, please refer to fig. 4.
A mobile terminal 1 according to a fourth embodiment of the present invention includes: a processor a101 and a memory a201, wherein the processor a101 is configured to execute a computer program A6 stored in the memory a201 to implement the steps of the vehicle control method as described in the first embodiment or the second embodiment.
In an embodiment, the mobile terminal 1 provided in this embodiment may include at least one processor a101 and at least one memory a201. Among them, at least one processor a101 may be referred to as a processing unit A1, and at least one memory a201 may be referred to as a storage unit A2. Specifically, the storage unit A2 stores a computer program A6, and when the computer program A6 is executed by the processing unit A1, the mobile terminal 1 provided by the present embodiment is caused to implement the steps of the vehicle control method as described above, for example, the step S11 shown in fig. 1 of reading the vehicle-mounted NFC module to acquire the download address and the dynamic authorization information of the vehicle control application.
In an embodiment, the mobile terminal 1 provided in this embodiment may include a plurality of memories a201 (referred to as a storage unit A2 for short), and the storage unit A2 may include, for example, a Random Access Memory (RAM) and/or a cache memory and/or a Read Only Memory (ROM), and the like.
In one embodiment, the mobile terminal 1 further includes a bus connecting different components (e.g., the processor a101 and the memory a201, the touch display screen A3, etc.).
In an embodiment, the mobile terminal 1 in this embodiment may further include a communication interface (e.g., I/O interface A4), which may be used for communication with an external device.
In an embodiment, the mobile terminal 1 provided in this embodiment may further include a communication device A5.
The mobile terminal 1 according to the fourth embodiment of the present invention includes a memory a101 and a processor a201, and the processor a101 is configured to execute a computer program A6 stored in the memory a201 to implement the steps of the vehicle control method according to the first embodiment or the second embodiment, so that the mobile terminal 1 according to this embodiment can implement downloading, installing, and logging in the vehicle control application conveniently and quickly, and further can implement control of the vehicle through the vehicle control application quickly.
The fourth embodiment of the invention also provides a computer-readable storage medium that stores a computer program A6, the computer program A6 implementing the steps of the vehicle control method described in the first embodiment or the second embodiment when executed by the processor a101, for example, the steps shown in fig. 1 are step S11 to step S13.
In an embodiment, the computer readable storage medium provided by the embodiment may include any entity or device capable of carrying computer program code, a recording medium, such as ROM, RAM, magnetic disk, optical disk, flash memory, and the like.
When the computer program A6 stored in the computer-readable storage medium provided by the fourth embodiment of the present invention is executed by the processor a101, the terminal using the computer-readable storage medium can conveniently and quickly download, install, and log in the vehicle control application, and further can quickly control the vehicle through the vehicle control application.
The present invention is not limited to the above preferred embodiments, and any modifications, equivalents or improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.