CN114506336B - Vehicle-mounted equipment parameter adjustment method and device based on fingerprint identification and related components - Google Patents

Abstract

The application relates to a vehicle-mounted equipment parameter adjustment method and device based on fingerprint identification and a related group price, wherein the method comprises the steps of responding to a first fingerprint identification triggering operation of a driver, and timing the first fingerprint identification triggering operation to obtain a first timing time; if the first timing time reaches a first time threshold, acquiring first fingerprint information corresponding to a first fingerprint identification triggering operation; matching the first fingerprint information with user information of at least one preset driver of a first fingerprint database; if the first fingerprint information is successfully matched with one of the first preset fingerprint information, starting a vehicle engine and acquiring a preset scene mode corresponding to the first preset fingerprint information in a scene database; and adjusting corresponding first vehicle-mounted equipment parameters based on the preset scene mode. According to the vehicle-mounted device and the vehicle-mounted device, the convenience of adjusting the running parameters of the vehicle-mounted device by the driver is improved, the experience of the driver is improved, and the vehicle driving is more personalized.

Description

Vehicle-mounted equipment parameter adjustment method and device based on fingerprint identification and related components

Technical Field

The application relates to a vehicle-mounted equipment parameter adjustment method and device based on fingerprint identification and related components.

Background

With the rapid development of the automobile industry, more and more vehicles are on the road surface, and the requirements of drivers on the drivability of the vehicles are also higher and higher, so that a selective and intelligent driving mode becomes an important direction for pursuing drivers and large vehicle enterprises.

In the related art, after a driver starts a vehicle engine through a key or a key, working parameters of vehicle-mounted equipment are adjusted according to function keys, so that the vehicle is more in line with driving habits of the driver.

Aiming at the related technology, the inventor considers that the driver adjusts the parameters of the vehicle-mounted equipment one by one according to own habit after starting the vehicle engine, thereby reducing the operation simplicity of the driver and reducing the experience of the driver.

Disclosure of Invention

In order to improve the convenience of adjusting the running parameters of the vehicle-mounted equipment by a driver and improve the experience of the driver, the application provides a vehicle-mounted equipment parameter adjusting method and device based on fingerprint identification and related components.

In a first aspect, the present application provides a method for adjusting parameters of vehicle-mounted equipment based on fingerprint identification, which adopts the following technical scheme:

A vehicle-mounted equipment parameter adjustment method based on fingerprint identification comprises the following steps:

responding to a first fingerprint identification triggering operation of a driver, and timing the first fingerprint identification triggering operation to obtain a first timing time;

if the first timing time reaches a first time threshold, acquiring first fingerprint information corresponding to the first fingerprint identification triggering operation;

matching the first fingerprint information with user information of at least one preset driver of a first fingerprint database, wherein each piece of user information comprises at least one piece of first preset fingerprint information, and the first preset fingerprint information corresponds to a preset scene mode one by one;

if the first fingerprint information is successfully matched with one of the first preset fingerprint information, starting a vehicle engine and acquiring a preset scene mode corresponding to the first preset fingerprint information in a scene database, wherein the preset scene module corresponds to at least one first vehicle-mounted equipment parameter;

and adjusting corresponding first vehicle-mounted equipment parameters based on the preset scene mode.

Through adopting above-mentioned technical scheme, the driver starts the vehicle engine through the fingerprint and automatically gets into in the corresponding scene mode of predetermineeing of this fingerprint, adjusts first vehicle-mounted equipment parameter according to the scene mode of predetermineeing that first fingerprint information corresponds to improved driver's adjustment vehicle-mounted equipment operating parameter's convenience, improved driver's experience sense, user information, the scene mode of predetermineeing etc. information all can be predetermine according to driver's custom, makes the vehicle drive more individualized.

Optionally, after the starting the vehicle engine and acquiring the preset scene mode corresponding to the first fingerprint information in the scene database, the method further includes:

acquiring a preset habit pattern corresponding to the first fingerprint information in a habit database, wherein the preset habit pattern corresponds to at least one second vehicle-mounted equipment parameter;

and adjusting corresponding second vehicle-mounted equipment parameters based on the preset habit pattern.

By adopting the technical scheme, after the vehicle engine is started, the second vehicle-mounted equipment parameter is automatically adjusted according to the current driver, so that the convenience of the driver in adjusting the second vehicle-mounted equipment parameter is improved.

Optionally, the method further comprises:

if the vehicle engine is started in a non-fingerprint identification mode, entering a guest mode, wherein the non-fingerprint identification mode starting comprises key or key starting;

and disabling the privacy equipment corresponding to the guest mode.

By adopting the technical scheme, when the guest mode is entered, the opening operation of the privacy equipment is not responded, so that the current driver cannot view the privacy information related to the vehicle and the vehicle owner, and the privacy information of the vehicle and the vehicle owner is protected.

Optionally, after starting the vehicle engine and acquiring the preset scene mode corresponding to the first fingerprint information in the scene database, the method further includes:

responding to a second fingerprint identification triggering operation of a driver, and timing the second fingerprint identification triggering operation to obtain a second timing time;

if the second timing time reaches a second time threshold, acquiring second fingerprint information corresponding to the second fingerprint identification triggering operation;

matching the second fingerprint information with at least one second preset fingerprint information in a second fingerprint database, wherein the second preset fingerprint information corresponds to the vehicle-mounted equipment parameter adjustment modes one by one;

if the second fingerprint information is successfully matched with one of the second preset fingerprint information, acquiring a vehicle-mounted equipment parameter adjustment mode corresponding to the second preset fingerprint information, and starting corresponding vehicle-mounted equipment based on the vehicle-mounted equipment parameter adjustment mode;

and adjusting the third vehicle-mounted equipment parameter in the vehicle-mounted equipment parameter adjustment mode based on the add-subtract key of the steering wheel.

Through adopting above-mentioned technical scheme, in the vehicle driving or parking after the vehicle engine is opened, the third on-vehicle device that the driver adjusted as required stretches out the finger that this on-vehicle device corresponds and gathers the fingerprint, get into the on-vehicle device parameter adjustment mode that second default fingerprint information corresponds and open corresponding on-vehicle device after matching successfully, the driver adjusts third on-vehicle device parameter through the plus-minus button of steering wheel, thereby improved the convenience that the driver adjusted different third on-vehicle device parameter, improved the security that the driver drove.

Optionally, after the starting the vehicle engine and acquiring the preset scene mode corresponding to the first fingerprint information in the scene database, the method further includes:

responding to a second fingerprint identification triggering operation of a driver, and acquiring second fingerprint information corresponding to the second fingerprint identification triggering operation;

if the first touch data of the first touch pad are acquired, controlling the fingerprint identification module to withdraw from the operation of matching the second fingerprint information with at least one second preset fingerprint information in a second fingerprint database;

if second touch data of a second touch panel are acquired, matching the second fingerprint information with at least one second preset fingerprint information in a second fingerprint database, wherein the second preset fingerprint information corresponds to a vehicle-mounted device parameter adjustment mode one by one;

if the second fingerprint information is successfully matched with one of the second preset fingerprint information, acquiring a vehicle-mounted equipment parameter adjustment mode corresponding to the second preset fingerprint information, and starting corresponding vehicle-mounted equipment based on the vehicle-mounted equipment parameter adjustment mode;

acquiring third touch data fed back by the second touch panel;

acquiring corresponding relation information of the third touch data and the vehicle-mounted equipment parameter adjustment mode;

And adjusting a third vehicle-mounted device parameter in the vehicle-mounted device parameter adjustment mode based on the third touch data and the corresponding relation information.

By adopting the technical scheme, when a certain finger is placed on the fingerprint acquisition board by mistake, the finger can be slid from the fingerprint acquisition board to the first touch board, and the fingerprint identification operation is stopped at the moment; when a certain finger is placed on the fingerprint acquisition board by the driver and slides to the second touch board, the controller enters a vehicle-mounted device parameter adjustment mode corresponding to second preset fingerprint information, so that the operation that the driver can withdraw from when the driver touches the fingerprint acquisition board by mistake is increased, and the experience of the driver is improved. After entering the corresponding vehicle-mounted equipment parameter adjustment mode, the vehicle-mounted equipment parameters are adjusted according to the third touch data, so that the convenience of adjusting different third vehicle-mounted equipment parameters by a driver is improved, and the convenience of operation by the driver is improved.

Optionally, before the triggering operation in response to the second fingerprint identification of the driver, the method further includes:

responding to a third fingerprint identification triggering operation of a driver, and timing the third fingerprint identification triggering operation to obtain a third timing time;

If the third timing time reaches a third time threshold, acquiring third fingerprint information corresponding to the third fingerprint identification triggering operation;

matching the third fingerprint information with at least one third preset fingerprint information in a third fingerprint database;

and if the third fingerprint information is successfully matched with one of the third preset fingerprint information, playing the corresponding information of the vehicle-mounted equipment parameter adjustment mode and the second preset fingerprint information.

Through adopting above-mentioned technical scheme, when the third fingerprint information of driver and the third are predetermine fingerprint information and match successfully, the voice broadcast module reports the corresponding information of current driver's on-vehicle equipment parameter adjustment mode and second and predetermine fingerprint information, has reduced the possibility of driver misoperation.

In a second aspect, the present application provides a vehicle-mounted device parameter adjustment device based on fingerprint identification, which adopts the following technical scheme:

an on-vehicle equipment parameter adjustment device based on fingerprint identification includes:

the first response module is used for responding to a first fingerprint identification triggering operation of a driver, and timing the first fingerprint identification triggering operation to obtain a first timing time;

The first acquisition module is used for acquiring first fingerprint information corresponding to the first fingerprint identification triggering operation when the first timing time reaches a first time threshold;

the first matching module is used for matching the first fingerprint information with user information of at least one preset driver of a first fingerprint database, wherein each piece of user information comprises at least one piece of first preset fingerprint information, and the first preset fingerprint information corresponds to a preset scene mode one by one;

the starting acquisition module is used for starting a vehicle engine and acquiring a preset scene mode corresponding to the first fingerprint information in a scene database when the first fingerprint information is successfully matched with one of the first preset fingerprint information, wherein the preset scene module corresponds to at least one first vehicle-mounted equipment parameter;

and the first adjusting module is used for adjusting corresponding first vehicle-mounted equipment parameters based on the preset scene mode.

In a third aspect, the present application provides an electronic device, which adopts the following technical scheme:

an electronic device comprising a memory and a processor, the memory having stored thereon a computer program capable of being loaded by the processor and executing the fingerprint identification based on-vehicle device parameter adjustment method according to any one of the first aspects.

In a fourth aspect, the present application provides a vehicle-mounted device parameter adjustment system based on fingerprint identification, which adopts the following technical scheme:

the vehicle-mounted equipment parameter adjustment system based on fingerprint identification comprises the electronic equipment, a fingerprint acquisition board and at least one vehicle-mounted equipment, wherein the fingerprint acquisition board is used for acquiring fingerprint information of a driver, and the electronic equipment is used for processing the fingerprint information and adjusting vehicle-mounted equipment parameters.

In a fifth aspect, the present application provides a computer readable storage medium, which adopts the following technical scheme:

a computer-readable storage medium storing a computer program capable of being loaded by a processor and executing the in-vehicle apparatus parameter adjustment method based on fingerprint recognition as set forth in any one of the first aspects.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the convenience of the driver for adjusting the operation parameters of the vehicle-mounted equipment is improved, the experience of the driver is improved, and the user information, the preset scene mode and other information can be preset according to the habit of the driver, so that the vehicle driving is more personalized;

2. after entering a corresponding vehicle-mounted equipment parameter adjustment mode, adjusting the vehicle-mounted equipment parameters according to the third touch data, so that the convenience of adjusting different vehicle-mounted equipment parameters by a driver is improved, and the convenience of operation by the driver is improved;

3. By setting the fingerprint module, when entering the guest mode, the starting operation of the privacy equipment is not responded, so that the current driver cannot view the privacy information related to the vehicle and the vehicle owner, and the privacy information of the vehicle and the vehicle owner is protected.

Drawings

Fig. 1 is a flowchart of a method for adjusting parameters of an in-vehicle device based on fingerprint recognition according to an embodiment of the present application.

Fig. 2 is a schematic flow chart of steps Sa1 to Sa6 according to one embodiment of the present application.

FIG. 3 is a schematic flow chart of steps Sb1-Sb7 in one embodiment of the present application.

FIG. 4 is a flow chart of steps Sc1-Sc4 according to one embodiment of the present application.

Fig. 5 is a flow chart of steps S201-S202 in one embodiment of the present application.

Fig. 6 is a block diagram of a device 300 for adjusting parameters of an in-vehicle apparatus based on fingerprint recognition according to an embodiment of the present application.

Fig. 7 is a block diagram of an electronic device 400 according to one embodiment of the present application.

Fig. 8 is a block diagram of a fingerprint identification based on-vehicle device parameter adjustment system 500 according to one embodiment of the present application.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

Embodiments of the present application are described in further detail below with reference to the drawings attached hereto.

The embodiment of the application provides a vehicle-mounted equipment parameter adjustment method based on fingerprint identification, and the main flow of the method is described as follows.

As shown in fig. 1:

step S101: responding to a first fingerprint identification triggering operation of a driver, and timing the first fingerprint identification triggering operation to obtain a first timing time;

install fingerprint identification module on the steering wheel in the vehicle, fingerprint identification module includes a plurality of fingerprint collection boards, controller and a plurality of fingerprint database, and the fingerprint collection board is used for gathering driver's fingerprint, and the mounted position of fingerprint collection board can be set up by actual demand, in this embodiment, the fingerprint collection board sets up to two and about steering wheel symmetry, and the fingerprint of the left and right hands when being convenient for driver holds the steering wheel can all be gathered.

Step S102: comparing the first timing time with the first time threshold, judging whether the first timing time reaches the first time threshold, and if the first timing time is smaller than the first time threshold, turning to step S103; if the first timing time reaches the first time threshold, the step S104 is shifted to;

step S103: exiting the fingerprint identification operation;

step S104: acquiring first fingerprint information corresponding to a first fingerprint identification triggering operation;

In this embodiment, the first time threshold preset in the controller may be set to 3 seconds, if the first timing time is less than 3 seconds, it is indicated that the driver is likely to touch the fingerprint acquisition board by mistake, and when the first timing time is greater than 3 seconds, the fingerprint of the driver pressing the fingerprint acquisition board is acquired, so that the possibility that the fingerprint is acquired due to the fact that the driver touches the fingerprint acquisition board by mistake is reduced.

Step S105: matching the first fingerprint information with user information of at least one preset driver of a first fingerprint database, wherein each user information comprises at least one first preset fingerprint information, and the first preset fingerprint information corresponds to a preset scene mode one by one;

the first fingerprint database stores a plurality of user information, each user information corresponds to different drivers commonly used in vehicles respectively, each user information comprises a plurality of first preset fingerprint information of the driver, and the first preset fingerprint information can be a left thumb, a left index finger, a right thumb, a right index finger and the like of the driver.

Step S106: judging whether the first fingerprint information is consistent with one of the first preset fingerprint information matching results, if the first fingerprint information is successfully matched with one of the first preset fingerprint information, turning to step S107, otherwise, repeatedly executing step S103;

Step S107: starting a vehicle engine and acquiring a preset scene mode corresponding to first preset fingerprint information in a scene database, wherein the preset scene module corresponds to at least one first vehicle-mounted equipment parameter;

the controller is in data communication with a scene database, and the scene database stores preset scene modes corresponding to a plurality of first preset fingerprint information of a driver commonly used by each vehicle.

For example, a common driver of a vehicle presets four preset scene modes of independent driving, home trip, independent child and self-driving trip, wherein the preset scene mode of independent driving corresponds to a thumb of a right hand, the preset scene mode of home trip corresponds to an index finger of a right hand, the preset scene mode of independent child corresponds to a thumb of a left hand, and the preset scene mode of self-driving trip corresponds to an index finger of a left hand.

The preset scene mode further comprises vehicle-mounted equipment working parameters corresponding to each preset scene. For example, the preset scene mode of driving alone corresponds to music playing information of multimedia in the vehicle-mounted device, on-mode information of atmosphere lamps and the like, and song information liked by a driver is stored in the multimedia; the preset scene mode with the baby alone corresponds to locking information of vehicle-mounted equipment such as a door lock, a window lock and the like, and the first preset fingerprint information and the vehicle-mounted equipment working parameters corresponding to the preset scene are preset according to habits of a driver and are not repeated here.

Step S108: and adjusting corresponding first vehicle-mounted equipment parameters based on the preset scene mode.

Starting a vehicle engine through a fingerprint and automatically entering a preset scene corresponding to the fingerprint, and adjusting first vehicle-mounted equipment parameters according to a preset scene mode corresponding to first fingerprint information, for example, when the first fingerprint information is a preset thumb of the right hand, the controller starts the vehicle engine and simultaneously controls multimedia to play favorite songs and starts an atmosphere lamp; when the first fingerprint information is a preset thumb of the left hand, the controller starts the vehicle engine and simultaneously controls the rear row door lock and the window lock to be locked. Therefore, the convenience of the driver for adjusting the operation parameters of the first vehicle-mounted equipment is improved, the experience of the driver is improved, user information, a preset scene mode and the like can be preset according to the habit of the driver, and vehicle driving is more personalized.

In some embodiments, the vehicle engine further includes other starting modes, for example, the current driver is not a preset common driver of the vehicle, and the vehicle engine can be started directly by a key or a key after getting on the vehicle or can be started by the key or the key after the first fingerprint information fails to match with the user information.

In this embodiment, after starting the vehicle engine and acquiring the preset scene mode corresponding to the first fingerprint information in the scene database, the method includes: acquiring a preset habit pattern corresponding to the first fingerprint information in a habit database, wherein the preset habit pattern corresponds to at least one second vehicle-mounted equipment parameter; and adjusting corresponding second vehicle-mounted equipment parameters based on the preset habit mode.

The controller is in data communication with a habit database, a plurality of user information and preset habit modes corresponding to the user information are stored in the habit database, the preset habit modes comprise driving habit information of a common driver of the vehicle on second vehicle-mounted equipment, the preset habit modes comprise seat position information, air-conditioning temperature information, air quantity information and the like, and the second vehicle-mounted equipment comprises seats, air-conditioning and other vehicle-mounted equipment related to driving of the driver.

For example, if the driver corresponding to the current user information is a small white, and the preset habit pattern stored in the small white is the air-conditioning temperature of 20 ℃ and the lowest wind speed, the controller adjusts the relevant second vehicle-mounted equipment parameters according to the target value of the preset habit pattern after starting the vehicle engine.

And after the current driver is identified by the fingerprint identification module, the second vehicle-mounted equipment parameters are automatically adjusted, so that the convenience of adjusting the second vehicle-mounted equipment operation parameters by the driver is improved.

The current user information corresponds to a second fingerprint database comprising a plurality of second preset fingerprint information, and each second preset fingerprint information of a common driver of the vehicle corresponds to a vehicle-mounted device parameter adjustment mode for adjusting a related function of the third vehicle-mounted device.

As an alternative implementation manner of this embodiment, after starting the vehicle engine and acquiring the preset scene mode corresponding to the first fingerprint information in the scene database, referring to fig. 2, steps Sa1 to Sa6 are further included:

step Sa1, responding to a second fingerprint identification triggering operation of a driver, and timing the second fingerprint identification triggering operation to obtain a second timing time;

step Sa2, comparing the second timing time with a second time threshold, judging whether the second timing time reaches the first time threshold, and if so, switching to step Sa3;

step Sa3: acquiring second fingerprint information corresponding to a second fingerprint identification triggering operation;

step Sa4: matching the second fingerprint information with at least one second preset fingerprint information in a second fingerprint database, wherein the second preset fingerprint information corresponds to the vehicle-mounted equipment parameter adjustment modes one by one;

step Sa5: if the second fingerprint information is successfully matched with one of the second preset fingerprint information, acquiring a vehicle-mounted equipment parameter adjustment mode corresponding to the second preset fingerprint information, and starting corresponding vehicle-mounted equipment based on the vehicle-mounted equipment parameter adjustment mode;

Step Sa6: and adjusting the third vehicle-mounted equipment parameter in the vehicle-mounted equipment parameter adjustment mode based on the add-subtract key of the steering wheel.

During driving or parking of the vehicle after the vehicle engine is started, parameters in certain vehicle-mounted equipment may be adjusted according to own requirements. In this embodiment, the driver stretches out the finger corresponding to the third vehicle-mounted device according to the third vehicle-mounted device parameter to be adjusted, and places the finger on the fingerprint acquisition board to acquire, when the second fingerprint information is successfully matched with one of the second preset fingerprint information, the controller enters a vehicle-mounted device parameter adjustment mode corresponding to the second preset fingerprint information, and the driver adjusts the vehicle-mounted device parameter through the add-subtract key of the steering wheel, so that convenience of adjusting different third vehicle-mounted device parameters by the driver is improved.

The second preset fingerprint information comprises a right thumb, a right index finger, a left thumb, a left index finger and the like, the vehicle-mounted equipment parameter adjustment mode comprises the steps of adjusting the temperature of an air conditioner, switching the color of an atmosphere lamp, adjusting the fragrance concentration, starting a rear-row screen and the like, for example, the second fingerprint information enters the air conditioner temperature adjustment function when being the right thumb of a driver, enters the atmosphere lamp color switching function when being the right index finger, enters the fragrance concentration adjustment function when being the left thumb, enters the rear-row screen starting function when being the left index finger, and the third vehicle-mounted equipment parameter is adjusted by pressing an add-subtract key of a steering wheel or an add-subtract key of a center console.

As another alternative implementation manner of this embodiment, the fingerprint acquisition board is connected with a first touch board and a second touch board, and the first touch board and the second touch board are symmetrically arranged about the center of the fingerprint acquisition board, it is easy to understand that when the finger of the driver contacts the first touch board or the second touch board, the capacitance is changed, and the control IC of the first touch board or the second touch board detects the capacitance change, so that the first touch board or the second touch board obtains the finger movement condition through capacitance induction.

After starting the vehicle engine and acquiring the preset scene mode corresponding to the first fingerprint information in the scene database, referring to fig. 3, the method further includes steps Sb 1-Sb 7:

step Sb1: responding to a second fingerprint identification triggering operation of a driver, and acquiring second fingerprint information corresponding to the second fingerprint identification triggering operation;

step Sb2: if the first touch data of the first touch pad are acquired, controlling the fingerprint identification module to withdraw from the operation of matching the second fingerprint information with at least one second preset fingerprint information in the second fingerprint database;

step Sb3: if second touch data of the second touch panel are acquired, matching second fingerprint information with at least one second preset fingerprint information in a second fingerprint database, wherein the second preset fingerprint information corresponds to the vehicle-mounted equipment parameter adjustment modes one by one;

Step Sb4: if the second fingerprint information is successfully matched with one of the second preset fingerprint information, acquiring a vehicle-mounted equipment parameter adjustment mode corresponding to the second preset fingerprint information, and starting corresponding vehicle-mounted equipment based on the vehicle-mounted equipment parameter adjustment mode;

step Sb5: acquiring third touch data fed back by the second touch panel;

step Sb6: acquiring corresponding relation information of the third touch data and a parameter adjustment mode of the vehicle-mounted equipment;

step Sb7: and adjusting the third vehicle-mounted equipment parameter in the vehicle-mounted equipment parameter adjustment mode based on the third touch data and the corresponding relation information.

The difference from the previous embodiment is that when the driver misplaces a finger on the fingerprint acquisition board, the finger can be slid from the fingerprint acquisition board to the first touch pad, and at this time, the operation of matching the second fingerprint information with at least one second preset fingerprint information in the second fingerprint database is exited; when a certain finger is placed on the fingerprint acquisition board by a driver and slides to the first touch board, the controller enters a vehicle-mounted device parameter adjustment mode corresponding to second preset fingerprint information, so that the operation that the driver can withdraw from when the driver touches the fingerprint acquisition board by mistake is increased, and the experience of the driver is improved.

In order to facilitate the realization of the function of adjusting the parameters of the vehicle-mounted equipment, the application designs a set of corresponding relation information of third touch data and parameter adjustment of the third vehicle-mounted equipment in the controller, for example, the third touch data can be a vector value of the moving length of a finger of a driver on the second touch pad after entering a parameter adjustment mode of the vehicle-mounted equipment, and when the finger moves along the second touch pad to a direction far away from the fingerprint acquisition board, the controller controls the parameters of the vehicle-mounted equipment to be increased along with the movement length of the finger; when the finger moves along the second touch pad towards the direction approaching the fingerprint acquisition board, the controller controls the parameters of the vehicle-mounted equipment to be reduced. The third touch data may also be a touch force or a touch time detected by the second touch pad.

After matching the first fingerprint information with the plurality of user information of the first fingerprint database, further comprising: obtaining a matching result of the first fingerprint information and the first fingerprint database; and feeding back the matching result to the driver.

The feedback module can also feed back to the driver according to the matching result of the second fingerprint information and the second fingerprint database, the feedback module comprises a central control screen and an indicator lamp, the indicator lamp comprises a plurality of flickering modes, and the flickering modes comprise flickering colors, flickering frequencies and flickering combinations.

Taking a feedback module for feeding back a comparison result of the first fingerprint information and the first fingerprint database as an example, when the comparison of the first fingerprint information and one of the first preset fingerprint information in the fingerprint database is consistent, the central control screen displays the matching result, and the controller controls the indicator lamp to flash the green light at the frequency of 50 HZ; when the comparison of the first fingerprint information and any one of the first preset fingerprint information in the fingerprint database is inconsistent, the central control screen displays the matching result, and the controller controls the indicator lamp to flash the red lamp at the frequency of 50 HZ; thereby improving the convenience of the driver to learn the matching result.

In this embodiment, after the corresponding in-vehicle device is turned on based on the in-vehicle device parameter adjustment mode, the method further includes: and feeding back the operating state of the opened vehicle-mounted equipment to a driver.

The operation state of each vehicle-mounted device can be fed back to the driver through the central control screen and the indicator lamp, the central control screen displays the operated vehicle-mounted device and the operation state, and the vehicle-mounted device operated by the indicator lamp flashes in different flashing modes, so that the convenience of knowing the operation device by the driver is improved.

In this embodiment, the fingerprint database further includes at least one third preset fingerprint information, and each preset user information corresponds to one or more third preset fingerprint information. Before the triggering operation is identified in response to the second fingerprint of the driver, referring to fig. 4, steps Sc1 to Sc4 are further included:

step Sc1: responding to a third fingerprint identification triggering operation of the driver, and timing the third fingerprint identification triggering operation to obtain a third timing time;

step Sc2: if the third timing time reaches a third time threshold, acquiring third fingerprint information corresponding to a third fingerprint identification triggering operation;

step Sc3: matching the third fingerprint information with at least one third preset fingerprint information in a third fingerprint database;

step Sc4: and if the third fingerprint information is successfully matched with one of the third preset fingerprint information, playing the corresponding information of the vehicle-mounted equipment parameter adjustment mode and the second preset fingerprint information.

When the third fingerprint information of the driver is successfully matched with the third preset fingerprint information, the voice broadcasting module broadcasts corresponding information of the second preset fingerprint information and the plurality of vehicle-mounted device parameter adjustment modes of the current driver, so that the driver can know the corresponding relation between the second preset fingerprint information and the corresponding vehicle-mounted device in time through broadcasting when the corresponding relation between the second preset fingerprint information and the corresponding vehicle-mounted device parameter adjustment mode is unknown, and the possibility of misoperation of the driver is reduced.

Referring to fig. 5, step S201 to step S202 are further included before step S101 and after step S105:

step S201: judging a vehicle engine starting mode, if the vehicle engine is started in a non-fingerprint identification mode, turning to step S202, wherein the non-fingerprint identification mode comprises a key or key starting mode;

when the vehicle engine is started by a key or a key, the conditions of lending the vehicle to other people, vehicle washing and maintenance, hotel parking and the like can be possibly indicated that the current driver is not a common driver of the vehicle, and the controller controls the vehicle-mounted equipment to enter a guest mode to protect the privacy of the vehicle and the vehicle owner.

Step S202: and entering guest mode information, and disabling privacy equipment corresponding to the guest mode.

Firstly, acquiring privacy equipment in vehicle-mounted equipment, wherein the privacy equipment comprises a plurality of pieces of equipment with vehicle privacy information; specifically, the privacy device is a device that is related to privacy information of the vehicle and the owner, such as a armrest box and a vehicle profile stored in a memory, a history search record of a search engine, contact information, and the like.

When entering the guest mode, the controller does not respond to an opening operation of the privacy device, for example, the controller controls the armrest box switch to open and close the armrest box, so that the current driver cannot open the vehicle armrest box; the controller controls the central control screen not to display the vehicle driving record, the historical search record of the search engine and the contact information, so that the current driver cannot view the privacy information related to the vehicle and the vehicle owner.

In this embodiment, the driver may change the correspondence between the first preset fingerprint information and the preset scene mode, and between the second preset fingerprint information and the parameter adjustment mode of the vehicle-mounted device by dragging, matching or other modes on the central control GUI, so as to improve convenience in changing the corresponding function of the fingerprint.

Each vehicle is provided with a root authority user, the vehicle owner has the highest authority for managing the preset fingerprint information, and the vehicle owner can manage the preset fingerprint information of other common users. For example, owners of private cars have the highest authority to manage preset fingerprint information, merchants sharing rental cars have the highest authority to manage preset fingerprint information.

The embodiment of the application provides a vehicle-mounted device parameter adjustment device 300 based on fingerprint identification, referring to fig. 6, the vehicle-mounted device parameter adjustment device 300 based on fingerprint identification mainly includes:

the first response module 301 is configured to respond to a first fingerprint identification triggering operation of a driver, and time the first fingerprint identification triggering operation to obtain a first timing time;

the first obtaining module 302 is configured to obtain first fingerprint information corresponding to a first fingerprint identification triggering operation when the first timing time reaches a first time threshold;

The first matching module 303 is configured to match the first fingerprint information with user information of at least one preset driver in the first fingerprint database, where each user information includes at least one first preset fingerprint information, and the first preset fingerprint information corresponds to a preset scene mode one by one;

the starting acquisition module 304 is configured to start the vehicle engine and acquire a preset scene mode corresponding to the first fingerprint information in the scene database when the first fingerprint information is successfully matched with one of the first preset fingerprint information, where the preset scene module corresponds to at least one first vehicle-mounted device parameter;

the first adjustment module 305 adjusts the corresponding first vehicle device parameter based on the preset scene mode.

As an alternative implementation of this embodiment, the apparatus further includes:

the entry module is used for entering a guest mode when the vehicle engine is started in a non-fingerprint identification mode;

and the disabling module is used for disabling the privacy equipment corresponding to the guest mode.

As an alternative implementation of this embodiment, the apparatus further includes:

the second acquisition module is used for acquiring a preset habit mode corresponding to the first fingerprint information in the habit database after the vehicle engine is started, wherein the preset habit mode corresponds to at least one second vehicle-mounted equipment parameter;

The second adjusting module is used for adjusting corresponding second vehicle-mounted equipment parameters based on a preset habit mode;

in this alternative embodiment, the apparatus further comprises:

the second response module is used for responding to the second fingerprint identification triggering operation of the driver after starting the vehicle engine and acquiring a preset scene mode corresponding to the first fingerprint information in the scene database, and timing the second fingerprint identification triggering operation to obtain a second timing time;

the third acquisition module is used for acquiring second fingerprint information corresponding to the second fingerprint identification triggering operation when the second timing time reaches a second time threshold;

the second matching module is used for matching the second fingerprint information with at least one second preset fingerprint information in a second fingerprint database, wherein the second preset fingerprint information corresponds to the vehicle-mounted equipment parameter adjustment modes one by one;

the third matching module is used for acquiring a vehicle-mounted equipment parameter adjustment mode corresponding to the second preset fingerprint information when the second fingerprint information is successfully matched with one of the second preset fingerprint information, and starting corresponding vehicle-mounted equipment based on the vehicle-mounted equipment parameter adjustment mode;

and the third adjusting module is used for adjusting a third vehicle-mounted equipment parameter in the vehicle-mounted equipment parameter adjusting mode based on the addition and subtraction keys of the steering wheel.

In another alternative embodiment, the apparatus further comprises:

the third response module is used for responding to the second fingerprint identification triggering operation of the driver after starting the vehicle engine and acquiring a preset scene mode corresponding to the first fingerprint information in the scene database, and acquiring second fingerprint information corresponding to the second fingerprint identification triggering operation;

the exit module is used for controlling the fingerprint identification module to exit the operation of matching the second fingerprint information with at least one second preset fingerprint information in the second fingerprint database when the first touch data of the first touch panel are acquired;

the fourth matching module is used for matching the second fingerprint information with at least one second preset fingerprint information in a second fingerprint database when second touch data of the second touch panel are acquired, wherein the second preset fingerprint information corresponds to the parameter adjustment modes of the vehicle-mounted equipment one by one;

the fourth acquisition module is used for acquiring a vehicle-mounted equipment parameter adjustment mode corresponding to the second preset fingerprint information when the second fingerprint information is successfully matched with one of the second preset fingerprint information, and starting corresponding vehicle-mounted equipment based on the vehicle-mounted equipment parameter adjustment mode;

The fifth acquisition module is used for acquiring third touch data fed back by the second touch panel;

the sixth acquisition module is used for acquiring corresponding relation information of the third touch data and the vehicle-mounted equipment parameter adjustment mode;

and the fourth adjusting module is used for adjusting the third vehicle-mounted equipment parameter in the vehicle-mounted equipment parameter adjusting mode based on the third touch data and the corresponding relation information.

As an alternative implementation of this embodiment, the apparatus further includes:

a seventh obtaining module, configured to obtain a matching result of the first fingerprint information and the first fingerprint database after matching the first fingerprint information with the plurality of user information of the first fingerprint database;

and the first feedback module is used for feeding back the matching result to the driver.

As an alternative implementation of this embodiment, the apparatus further includes:

and the second feedback module is used for feeding back the operating state of the opened vehicle-mounted equipment to a driver.

As an alternative implementation of this embodiment, the apparatus further includes:

the fourth response module is used for responding to the third fingerprint identification triggering operation of the driver before responding to the second fingerprint identification triggering operation of the driver, and timing the third fingerprint identification triggering operation to obtain a third timing time;

The eighth acquisition module is used for acquiring third fingerprint information corresponding to the third fingerprint identification triggering operation when the third timing time reaches a third time threshold;

the fifth matching module is used for matching the third fingerprint information with at least one third preset fingerprint information in the third fingerprint database;

and the playing module is used for playing the corresponding information of the vehicle-mounted equipment parameter adjustment mode and the second preset fingerprint information when the third fingerprint information is successfully matched with one of the third preset fingerprint information.

An embodiment of the present application provides an electronic device 400, and fig. 7 is a block diagram of the electronic device 400, where the electronic device 400 includes a memory 401, a processor 402, and a communication bus 403, and the memory 401 and the processor 402 are connected by the communication bus 403. The memory 401 has stored thereon a vehicle-mounted device parameter adjustment method based on fingerprint identification, which can be loaded by the processor 402 and executed as provided in the above-described embodiment.

Memory 401 may be used to store instructions, programs, code, sets of codes, or sets of instructions. The memory 401 may include a storage program area and a storage data area, wherein the storage program area may store instructions for implementing an operating system, instructions for at least one function, instructions for implementing the universal path drawing data feature encoding and decoding methods provided by the above-described embodiments, and the like; the storage data area may store data and the like involved in the omnipotent path drawing data feature encoding and decoding methods provided in the above embodiments.

Processor 402 may include one or more processing cores. The processor 402 performs the various functions of the present application and processes data by executing or executing instructions, programs, code sets, or instruction sets stored in the memory 401, invoking data stored in the memory. The processor 402 may be at least one of an application specific integrated circuit (Application Specific Integrated Circuit, ASIC), a digital signal processor (Digital Signal Processor, DSP), a digital signal processing device (Digital Signal Processing Device, DSPD), a programmable logic device (Programmable Logic Device, PLD), a field programmable gate array (Field Programmable Gate Array, FPGA), a central processing unit (Central Processing Unit, CPU), a controller, a microcontroller, and a microprocessor. It will be appreciated that the electronics for implementing the functions of the processor 402 described above may be other for different devices, and embodiments of the present application are not specifically limited.

Communication bus 403 may include a pathway to transfer information between the aforementioned components. The communication bus 403 may be a PCI (Peripheral Component Interconnect, peripheral component interconnect standard) bus or an EISA (Extended Industry Standard Architecture ) bus, or the like. Communication buses may be classified as address buses, data buses, control buses, etc. For ease of illustration, only one double arrow is shown in FIG. 7, but only one bus or one type of bus is not shown.

The embodiment of the application provides a vehicle-mounted device parameter adjustment system 500 based on fingerprint identification, fig. 8 is a structural block diagram of a switching system, and referring to fig. 8, the system includes a fingerprint acquisition board 600, an electronic device 400 and at least one vehicle-mounted device 700 of the above embodiment, the electronic device 400 and the fingerprint acquisition board 600 can be integrated on the same steering wheel, the fingerprint acquisition board 600 is used for acquiring fingerprint information of a driver, the electronic device 400 is used for processing the fingerprint information and adjusting parameters of the vehicle-mounted device 700, and a series of complete data chains are formed aiming at the fingerprint information.

The present embodiment provides a computer readable storage medium storing a computer program capable of being loaded by a processor and executing the vehicle-mounted device parameter adjustment method based on fingerprint identification provided in the above embodiment.

In this embodiment, the computer-readable storage medium may be a tangible device that holds and stores instructions for use by the instruction execution device. The computer readable storage medium may be, but is not limited to, an electronic storage device, a magnetic storage device, an optical storage device, an electromagnetic storage device, a semiconductor storage device, or any combination of the preceding. In particular, the computer readable storage medium may be a portable computer disk, hard disk, USB flash disk, random Access Memory (RAM), read-only memory (ROM), erasable programmable read-only memory (EPROM or flash memory), podium random access memory (SRAM), portable compact disc read-only memory (CD-ROM), digital Versatile Disk (DVD), memory stick, floppy disk, optical disk, magnetic disk, mechanical coding device, and any combination of the foregoing.

The computer program in this embodiment contains program code, which may include instructions corresponding to the execution of the steps of the method provided in the above embodiment. The computer program may be downloaded from a computer readable storage medium to the respective computing/processing device or to an external computer or external storage device via a network (e.g., the internet, a local area network, a wide area network, and/or a wireless network). The computer program may execute entirely on the user's computer and as a stand-alone software package.

In addition, it is to be understood that relational terms such as first and second are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. The terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus 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 apparatus.

The foregoing description is only of the preferred embodiments of the present application and is not intended to limit the same, but rather, various modifications and variations may be made by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principles of the present application should be included in the protection scope of the present application.

Claims (8)

1. The vehicle-mounted equipment parameter adjustment method based on fingerprint identification is characterized by comprising the following steps of:

responding to a first fingerprint identification triggering operation of a driver, and timing the first fingerprint identification triggering operation to obtain a first timing time;

if the first timing time reaches a first time threshold, acquiring first fingerprint information corresponding to the first fingerprint identification triggering operation;

matching the first fingerprint information with user information of at least one preset driver of a first fingerprint database, wherein each piece of user information comprises at least one piece of first preset fingerprint information, and the first preset fingerprint information corresponds to a preset scene mode one by one;

if the first fingerprint information is successfully matched with one of the first preset fingerprint information, starting a vehicle engine and acquiring a preset scene mode corresponding to the first preset fingerprint information in a scene database, wherein the preset scene mode corresponds to at least one first vehicle-mounted equipment parameter;

Adjusting corresponding first vehicle-mounted equipment parameters based on the preset scene mode;

after the vehicle engine is started and the preset scene mode corresponding to the first fingerprint information in the scene database is acquired, the method further comprises:

acquiring a preset habit pattern corresponding to the first fingerprint information in a habit database, wherein the preset habit pattern corresponds to at least one second vehicle-mounted equipment parameter;

adjusting corresponding second vehicle-mounted equipment parameters based on the preset habit mode;

after the vehicle engine is started and the preset scene mode corresponding to the first fingerprint information in the scene database is acquired, the method further comprises:

responding to a second fingerprint identification triggering operation of a driver, and acquiring second fingerprint information corresponding to the second fingerprint identification triggering operation;

if the first touch data of the first touch pad are acquired, controlling the fingerprint identification module to withdraw from the operation of matching the second fingerprint information with at least one second preset fingerprint information in a second fingerprint database;

if second touch data of a second touch panel are acquired, matching the second fingerprint information with at least one second preset fingerprint information in a second fingerprint database, wherein the second preset fingerprint information corresponds to a vehicle-mounted device parameter adjustment mode one by one;

If the second fingerprint information is successfully matched with one of the second preset fingerprint information, acquiring a vehicle-mounted equipment parameter adjustment mode corresponding to the second preset fingerprint information, and starting corresponding vehicle-mounted equipment based on the vehicle-mounted equipment parameter adjustment mode;

acquiring third touch data fed back by the second touch panel;

acquiring corresponding relation information of the third touch data and the vehicle-mounted equipment parameter adjustment mode;

and adjusting a third vehicle-mounted device parameter in the vehicle-mounted device parameter adjustment mode based on the third touch data and the corresponding relation information.

2. The method as recited in claim 1, further comprising:

if the vehicle engine is started in a non-fingerprint identification mode, entering a guest mode, wherein the non-fingerprint identification mode starting comprises key or key starting;

and disabling the privacy equipment corresponding to the guest mode.

3. The method of claim 1, further comprising, after starting a vehicle engine and acquiring a preset scene pattern in a scene database corresponding to the first fingerprint information:

responding to a second fingerprint identification triggering operation of a driver, and timing the second fingerprint identification triggering operation to obtain a second timing time;

If the second timing time reaches a second time threshold, acquiring second fingerprint information corresponding to the second fingerprint identification triggering operation;

matching the second fingerprint information with at least one second preset fingerprint information in a second fingerprint database, wherein the second preset fingerprint information corresponds to the vehicle-mounted equipment parameter adjustment modes one by one;

if the second fingerprint information is successfully matched with one of the second preset fingerprint information, acquiring a vehicle-mounted equipment parameter adjustment mode corresponding to the second preset fingerprint information, and starting corresponding vehicle-mounted equipment based on the vehicle-mounted equipment parameter adjustment mode;

and adjusting the third vehicle-mounted equipment parameter in the vehicle-mounted equipment parameter adjustment mode based on the add-subtract key of the steering wheel.

4. A method according to claim 1 or 3, further comprising, prior to said triggering operation in response to the second fingerprint identification of the driver:

responding to a third fingerprint identification triggering operation of a driver, and timing the third fingerprint identification triggering operation to obtain a third timing time;

if the third timing time reaches a third time threshold, acquiring third fingerprint information corresponding to the third fingerprint identification triggering operation;

Matching the third fingerprint information with at least one third preset fingerprint information in a third fingerprint database;

and if the third fingerprint information is successfully matched with one of the third preset fingerprint information, playing the corresponding information of the vehicle-mounted equipment parameter adjustment mode and the second preset fingerprint information.

5. The utility model provides a vehicle-mounted equipment parameter adjustment device based on fingerprint identification which characterized in that includes:

the first response module is used for responding to a first fingerprint identification triggering operation of a driver, and timing the first fingerprint identification triggering operation to obtain a first timing time;

the first acquisition module is used for acquiring first fingerprint information corresponding to the first fingerprint identification triggering operation when the first timing time reaches a first time threshold;

the first matching module is used for matching the first fingerprint information with user information of at least one preset driver of a first fingerprint database, wherein each piece of user information comprises at least one piece of first preset fingerprint information, and the first preset fingerprint information corresponds to a preset scene mode one by one;

the starting acquisition module is used for starting a vehicle engine and acquiring a preset scene mode corresponding to the first fingerprint information in a scene database when the first fingerprint information is successfully matched with one of the first preset fingerprint information, wherein the preset scene mode corresponds to at least one first vehicle-mounted equipment parameter;

The first adjusting module is used for adjusting corresponding first vehicle-mounted equipment parameters based on the preset scene mode;

the second acquisition module is used for acquiring a preset habit mode corresponding to the first fingerprint information in the habit database after the vehicle engine is started, wherein the preset habit mode corresponds to at least one second vehicle-mounted equipment parameter;

the second adjusting module is used for adjusting corresponding second vehicle-mounted equipment parameters based on a preset habit mode;

the third response module is used for responding to the second fingerprint identification triggering operation of the driver after starting the vehicle engine and acquiring a preset scene mode corresponding to the first fingerprint information in the scene database, and acquiring second fingerprint information corresponding to the second fingerprint identification triggering operation;

the exit module is used for controlling the fingerprint identification module to exit the operation of matching the second fingerprint information with at least one second preset fingerprint information in the second fingerprint database when the first touch data of the first touch panel are acquired;

the fourth matching module is used for matching the second fingerprint information with at least one second preset fingerprint information in a second fingerprint database when second touch data of the second touch panel are acquired, wherein the second preset fingerprint information corresponds to the parameter adjustment modes of the vehicle-mounted equipment one by one;

The fourth acquisition module is used for acquiring a vehicle-mounted equipment parameter adjustment mode corresponding to the second preset fingerprint information when the second fingerprint information is successfully matched with one of the second preset fingerprint information, and starting corresponding vehicle-mounted equipment based on the vehicle-mounted equipment parameter adjustment mode;

the fifth acquisition module is used for acquiring third touch data fed back by the second touch panel;

the sixth acquisition module is used for acquiring corresponding relation information of the third touch data and the vehicle-mounted equipment parameter adjustment mode;

and the fourth adjusting module is used for adjusting the third vehicle-mounted equipment parameter in the vehicle-mounted equipment parameter adjusting mode based on the third touch data and the corresponding relation information.

6. An electronic device comprising a memory and a processor, the memory having stored thereon a computer program capable of being loaded by the processor and performing the method according to any of claims 1 to 4.

7. The vehicle-mounted equipment parameter adjustment system based on fingerprint identification is characterized by comprising the electronic equipment, a fingerprint acquisition board and at least one vehicle-mounted equipment, wherein the fingerprint acquisition board is used for acquiring fingerprint information of a driver, and the electronic equipment is used for processing the fingerprint information and adjusting vehicle-mounted equipment parameters.

8. A computer readable storage medium, characterized in that a computer program is stored which can be loaded by a processor and which performs the method according to any of claims 1 to 4.