CN115871458A - Vehicle-mounted display system and vehicle - Google Patents

Abstract

The application discloses on-vehicle display system and vehicle belongs to vehicle technical field. The vehicle-mounted display system comprises a controller and a display screen; the controller is used for acquiring a plurality of pieces of display information and sending the display information to the display screen, wherein the plurality of pieces of display information comprise instrument information and multimedia information; the display screen is used for receiving and displaying display information, wherein the display screen displays a plurality of display windows, and each display window is used for displaying one or more pieces of display information; the controller is also used for generating an adjusting instruction based on the adjusting signal and sending the adjusting instruction to the display screen, wherein the adjusting signal is generated based on the adjusting operation of the user; the display screen is further used for adjusting target information indicated by the adjusting instruction to a preset display window in the plurality of display windows to be displayed based on the adjusting instruction, wherein the target information is information selected by a user from the plurality of display information. The technical scheme of this application can improve the security of driver's driving vehicle process.

Description

Vehicle-mounted display system and vehicle

Technical Field

The application relates to the technical field of vehicles, in particular to a vehicle-mounted display system and a vehicle.

Background

With the rapid development of electrification, intellectualization, networking and sharing in the automobile industry, the vehicle-mounted display system gradually develops towards large size, continuous screen and multi-screen, and meanwhile, the functions which can be realized by the vehicle-mounted display system are more and more.

In the related art, a vehicle-mounted display system includes a plurality of display screens, and different display screens are respectively used for displaying different information. However, the positions of different display screens in the cockpit are dispersed, and the display positions of the information displayed on the different display screens are fixed, so that when a driver views or acquires different information, the driver needs to view the information from the fixed display areas corresponding to the different information, the attention of the driver is easily dispersed, and the safe driving is not facilitated.

Disclosure of Invention

In view of this, the application provides a vehicle-mounted display system and a vehicle, can improve the security of driver's driving vehicle process.

On one hand, the embodiment of the application provides a vehicle-mounted display system, which comprises a controller and a display screen, wherein the controller is electrically connected with the display screen;

the controller is used for acquiring a plurality of pieces of display information and sending the display information to the display screen, wherein the plurality of pieces of display information comprise instrument information and multimedia information;

the display screen is used for receiving and displaying the display information, wherein a plurality of display windows are displayed on the display screen, and each display window is used for displaying one or more display information;

the controller is further used for generating an adjusting instruction based on an adjusting signal and sending the adjusting instruction to the display screen, wherein the adjusting signal is generated based on the adjusting operation of a user;

the display screen is further used for adjusting target information indicated by the adjusting instruction to a preset display window in the plurality of display windows to be displayed based on the adjusting instruction, wherein the target information is information selected by the user from the plurality of display information.

Optionally, the vehicle-mounted display system comprises a first adjusting module;

the first adjusting module is used for responding to a first adjusting operation of the user, generating a first adjusting signal and sending the first adjusting signal to the controller, wherein the first adjusting operation is an operation of selecting the target information from the plurality of display information;

the controller is further configured to generate an adjustment instruction based on the adjustment signal, including:

the controller is further configured to generate the adjustment instruction based on the first adjustment signal.

Optionally, the vehicle-mounted display system further comprises a second adjusting module;

the second adjusting module is used for responding to a second adjusting operation of a user, generating a second adjusting signal and sending the second adjusting signal to the controller, wherein the second adjusting operation is an operation of adjusting the current size of the corresponding display window to a target size;

the controller is further configured to adjust the size of the display window corresponding to the second adjustment operation to the target size based on the second adjustment signal.

Optionally, the display screen is further configured to display a background image, the display window is a 3D window, and the display window is suspended over the background image.

Optionally, the vehicle-mounted display system further comprises a camera device, and the camera device is electrically connected with the controller;

the camera device is used for acquiring a face image or an eye image of a driver and sending the face image or the eye image to the controller;

the controller is further configured to determine a moving direction of the driver based on the face image or the eye image, and control the plurality of display windows of the display module to rotate in a target direction corresponding to the moving direction.

Optionally, the vehicle-mounted display system further includes a driver monitoring device, and the driver monitoring device is electrically connected to the controller;

the driver monitoring device is used for monitoring the driving state of the driver, generating an alarm signal when the driver is in a fatigue driving state, and sending the alarm signal to the controller;

the controller generates an alarm instruction based on the alarm signal and sends the alarm instruction to the display screen;

and the display screen is used for displaying alarm information according to the alarm instruction.

Optionally, the display screen is configured to display alarm information according to the alarm instruction, where the displaying includes:

the display screen is used for switching the background image into an alarm image according to the alarm instruction, wherein the alarm image is used for reminding the driver of being in the fatigue driving state.

Optionally, the display screen is configured to display alarm information according to the alarm instruction, where the displaying includes:

the display screen is used for displaying an alarm identifier on the background image according to the alarm instruction, wherein the alarm identifier is used for reminding the driver of being in the fatigue driving state, and the alarm identifier flickers according to a target frequency.

Optionally, the display information further includes remote control information, and the controller is connected to the target device through a network;

the display screen responds to the selection operation of the user on the remote control information, generates a remote control signal and sends the remote control signal to the controller;

the controller generates a remote control instruction based on the remote control signal and sends the remote control instruction to a server, wherein the remote control instruction comprises the identification of the target equipment and a target task corresponding to the selected remote control information;

and the server sends the remote control instruction to the target equipment, and the target equipment is used for executing the target task.

On the other hand, the embodiment of the application also provides a vehicle, and the vehicle comprises the vehicle-mounted display system.

The vehicle-mounted display system that this application embodiment provided includes controller and display screen, electric connection between controller and the display screen. The controller can be used for obtaining a plurality of display information to show information transmission to the display screen, and then the display screen can show different display information through different display windows. Because the plurality of display information not only comprise the instrument information, but also comprise the multimedia information, the information can be equivalently displayed on one display screen, the attention of a driver is prevented from being dispersed, and the safety of the driving process is improved. Meanwhile, the controller can be further used for generating an adjusting instruction based on the adjusting signal and sending the adjusting instruction to the display screen, wherein the adjusting signal is generated based on the condition operation of the user. The display screen is also used for adjusting the target information indicated by the adjusting instruction to a preset display window in the plurality of display windows to be displayed based on the adjusting instruction. Therefore, the required display information can be directly adjusted to the display window at the designated position to be displayed according to the adjustment operation of the user, so that the driver can conveniently check the information, the driver is prevented from distracting due to information searching, and the safety of the driving process is improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the description below are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic view of a display screen and a driver in a vehicle-mounted display system according to an embodiment of the present disclosure;

fig. 2 is a schematic view of a display screen and a driver in a vehicle-mounted display system according to an embodiment of the present application.

Reference numerals:

100. a display screen; 101. a first display window; 102. a second display window; 103. a third display window; 104. a fourth display window; 105. a fifth display window; 106. a size adjustment menu bar; 107. a color adjustment menu bar; 108. a background image download button; 109. a function button; 110. a sixth display window;

200. a driver.

With the above figures, there are shown specific embodiments of the present application, which will be described in more detail below. These drawings and written description are not intended to limit the scope of the inventive concepts in any manner, but rather to illustrate the inventive concepts to those skilled in the art by reference to specific embodiments.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. 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 application.

Unless defined otherwise, all technical terms used in the examples of the present application have the same meaning as commonly understood by one of ordinary skill in the art.

In order to make the technical solutions and advantages of the present application clearer, the following will describe the embodiments of the present application in further detail with reference to the accompanying drawings.

The embodiment of the application provides a vehicle-mounted display system, and the vehicle-mounted display system comprises a controller and a display screen, wherein the controller is electrically connected with the display screen.

The controller is used for obtaining a plurality of display information and sending the display information to the display screen, wherein the plurality of display information comprise instrument information and multimedia information. It should be noted that the meter information may include, but is not limited to, information for reflecting the operating state of each system of the vehicle, light prompt information, or monitoring information of other functions of the vehicle, such as an oil pressure gauge, a coolant thermometer, a fuel gauge, a speedometer, a tachometer, a odometer, a front fog light, a steering light, a rear fog light, a low beam light, a high beam light, and a width indicator light. The multimedia information is other vehicle information except instrument information, and the multimedia information includes but is not limited to entertainment information, sound information, navigation information, reverse image information, vehicle surrounding environment information, air conditioning information, DVD, equipment control and state information, and the like.

The display screen is used for receiving and displaying display information, wherein the display screen displays a plurality of display windows, and each display window is used for displaying one or more pieces of display information. For example, a plurality of meter information may be displayed in the same display window or may be displayed in different display windows. Taking fig. 1 as an example, a first display window 101 in a display screen 100 is used for displaying meter information, and a second display window 102, a third display window 103 and a fourth display window 104 are respectively used for displaying different multimedia information. The display screen in the embodiment of the application is generally installed at the rear part of the steering wheel, so that a driver can conveniently watch the display screen. The display window of the meter information on the display screen corresponds to the position of the driver, and for example, as shown in fig. 2, if the driver 200 is positioned on the left side of the vehicle, the first display window 101 of the meter information is positioned in the area on the far left side of the display screen. If the driver is located on the right side of the vehicle, the display window of the meter information is located in an area on the far right side of the display screen. Therefore, the driver can more conveniently master the basic operation information of the vehicle without turning the head or leaning on the body. It should be noted that the display screen is a touch screen, and a user may trigger a corresponding function by touching different display contents or buttons on the display screen. Because a plurality of different display information can be displayed on the same display screen, the display area of the display information is more concentrated, the condition that the driver disperses attention when acquiring information from a plurality of different screens is avoided, the safety of the driver in the driving process is improved, and the traffic occurrence rate is reduced.

The controller is further used for generating an adjusting instruction based on the adjusting signal and sending the adjusting instruction to the display screen, wherein the adjusting signal is generated based on the adjusting operation of the user. The display screen is further used for adjusting target information indicated by the adjusting instruction to a preset display window in the plurality of display windows to be displayed based on the adjusting instruction, wherein the target information is information selected by a user from the plurality of display information. It should be noted that the target information may be one or more display information corresponding to the adjustment operation. The predetermined display window is a display window closest to the display window of the meter information. Taking fig. 1 as an example, a first display window 101 in the display screen is used for displaying meter information, and a second display window 102 closest to the first display window 101 is a predetermined display window.

The vehicle-mounted display system provided by the embodiment of the application can be used for displaying various types of information on one display screen in a centralized manner, so that the attention of drivers is prevented from being dispersed, and the safety of the driving process is improved. Meanwhile, the required display information can be directly adjusted to the preset display window to be displayed according to the adjustment operation of the user, so that the driver can conveniently check the information, the driver is prevented from distracting due to information searching, and the safety of the driving process is improved.

The details and functions of the in-vehicle display system provided in the embodiments of the present application are described in more detail below.

In some embodiments, the controller is further configured to receive driving assistance information transmitted by the advanced driving assistance system and transmit the driving assistance information to the display screen, and the display screen is configured to receive and display the driving assistance information. The auxiliary driving information comprises information such as an image of the environment around the vehicle, an image of a traffic road outside the vehicle, and the speed of the vehicle during running. It should be noted that both the vehicle surroundings image and the vehicle outside traffic road image may be 2D images or 3D images. It can be understood that, if the image of the environment around the vehicle and the image of the traffic road outside the vehicle are 3D images, the driver can more intuitively grasp the environment outside the vehicle, which is convenient for driving. Fig. 2 shows a display screen provided in an embodiment of the present application. The first display window 101 in fig. 2 is used to display meter information, the fifth display window 105 is used to display driving assistance information, and the second display window 102 is a predetermined display window. The driver 200 in fig. 2 is located on the left side of the vehicle, and the display windows of the driving assistance information and the meter information are located on the left side of the display screen 100, so that the driver 200 can obtain more important vehicle operation information and driving assistance information. It should be noted that fig. 2 is only an example, and the display screen may also display a plurality of display windows.

In some embodiments, an in-vehicle display system includes a first adjustment module. The first adjusting module is used for responding to a first adjusting operation of a user, generating a first adjusting signal and sending the first adjusting signal to the controller, wherein the first adjusting operation is an operation of selecting target information from the plurality of display information. The controller is further configured to generate an adjustment instruction based on the adjustment signal, including: the controller is also configured to generate an adjustment command based on the first adjustment signal. It should be noted that the first adjusting module may be a touch sensor or a voice sensor. In some embodiments, when the first adjustment module is a touch sensor, the touch sensor generates a first adjustment signal based on a first adjustment operation of the target information by the user. The controller adjusts the target information to a predetermined display window for display based on the first adjustment signal. The first adjustment operation may be a single click, a double click, a drag to a target distance, a drag to a designated position, or an operation of generating a target track, which is performed on the area where the target information is located by the user. For example, the first adjustment operation is that the user drags the display window where the target information is located to the area where the predetermined display window is located, so that the target information is exchanged with the display information currently displayed by the predetermined display window. When the first adjusting module is a voice sensor, the voice sensor generates a first adjusting signal based on the voice of the user. The controller exchanges target information corresponding to the voice with display information currently displayed on a preset display window based on the first adjusting signal. For example, the voice sensor receives the user's voice "i want to see XXX (information)", at which time the voice sensor generates the first adjustment signal. Thereby exchanging the target information in the voice with the display information currently displayed in the preset display window. It should be noted that, by the method for adjusting the display position of the target information, the user can more efficiently adjust the information to be acquired to the predetermined display window for displaying, so that the target information is closer to the position of the driver, the user is prevented from distracting from searching for the information in the display screen, and the safety of the driving process is ensured.

In some embodiments, the in-vehicle display system further includes a second adjustment module. The second adjusting module is used for responding to a second adjusting operation of the user, generating a second adjusting signal and sending the second adjusting signal to the controller, wherein the second adjusting operation is an operation of adjusting the current size of the corresponding display window to the target size. The controller is further configured to adjust a size of the display window corresponding to the second adjustment operation to a target size based on the second adjustment signal. The second adjusting module is a touch sensor, and the second adjusting operation may be a triggering operation of the size adjusting button by the user. For example, a "+" sign or a "-" sign of a size adjustment button is displayed in each display window, respectively, and the second adjustment operation is an operation in which the user clicks the size adjustment button. The second adjustment operation may also be an operation in which the user continuously presses the area where the display window is located with two fingers and increases or decreases the distance between the two fingers, and it can be understood that the operation is an operation in which the size of the display window is decreased when the distance between the two fingers is decreased, and an operation in which the size of the display window is increased when the distance between the two fingers is increased.

In some embodiments, a size adjustment button is further displayed on the display screen, and the touch sensor generates a second adjustment signal in response to a triggering operation of the size adjustment button and sends the second adjustment signal to the controller. The controller controls the display screen to display a size adjustment menu bar based on the second adjustment signal, wherein the size adjustment menu bar includes a label for each display window and a different adjustment size. As shown in fig. 2, a size adjustment menu bar 106 may be displayed beside the predetermined display window 102. The touch sensor responds to the label corresponding to the display window and the click operation for adjusting the size, generates a target size adjusting signal and sends the target size adjusting signal to the controller. And the controller adjusts the display window corresponding to the target size adjusting signal to a specified size based on the target size adjusting signal, wherein the specified size is the adjusting size clicked by the user. Through the mode of adjusting the size of the display window, the adjusting mode of the display window is more various and more flexible, and the experience of a user is improved.

In some embodiments, a color adjustment button is further displayed on the display screen, and the touch sensor generates a third adjustment signal in response to a trigger adjustment operation of the color adjustment button and sends the third adjustment signal to the controller. The controller controls the display screen to display a color adjustment menu bar based on the third adjustment signal, wherein the color adjustment menu bar includes a label of each display window and a different color. As shown in fig. 2, a color adjustment menu bar 107 may be displayed beside the size adjustment menu bar 106. The touch sensor responds to the clicking operation of the label and the color corresponding to the display window, generates a target color adjusting signal and sends the target color adjusting signal to the controller. And the controller adjusts the display window corresponding to the target adjusting signal to a specified color based on the target color adjusting signal, wherein the specified color is the color clicked by the user. Through the mode of adjusting the color of the display window, the adjusting mode of the display window can be more various and flexible, and the experience of a user is improved. In other embodiments, a color adjustment button is displayed in each display window, and the controller displays a color adjustment menu bar in the corresponding display window in response to receiving a target color adjustment signal corresponding to a user's triggering operation of the color adjustment button sent by the touch sensor, where the color adjustment menu bar includes different colors. The touch sensor generates a target color adjustment signal in response to a click operation on any color in the color adjustment menu bar, and sends the target color adjustment signal to the controller. And the controller adjusts the color of the display window to a specified color based on the target color adjusting signal, wherein the specified color is the color clicked by the user.

In some embodiments, the display screen is further configured to display a background image, the display window is a 3D window, and the display window is suspended over the background image. Thereby improving the display effect of the display window. In some embodiments, the display information in each window includes any one or combination of 2D images, 2D text, 3D images, 3D text. Thereby increasing the variety and flexibility of the display effect of the display information. In some embodiments, the background image may be a 2D image or a 3D image. In some embodiments, a background image download button is displayed in the display screen, and the display screen is further configured to display a set of images corresponding to the background image download button, wherein the set of images includes at least one image. Referring to fig. 2, a background image download button 108 is displayed on the display screen 100, and when the user clicks the background image download button 108, the display screen displays the image set. The in-vehicle display system is connected to the server via a network, and the image set is at least one image stored in the server.

In some embodiments, the display screen is further configured to display at least one function button. Taking fig. 2 as an example for explanation, at least one function button 109 is displayed below the display screen 100, and when the user clicks the function button, a function menu corresponding to the function button is displayed on the display screen 100, so as to implement different functions. For example, the function button is an air conditioner button, after a user clicks the air conditioner button, a function menu corresponding to the air conditioner function is displayed on the display screen, and the working mode of the air conditioner is determined by selecting the function menu, so that the air conditioner can execute different functions according to the selection of the user. It should be noted that the function buttons may also include various functions that can be implemented by the vehicle, which are not listed here. The setting of the function buttons enables the user to call different functions more conveniently.

In some embodiments, the vehicle-mounted display system further comprises a camera device, and the camera device is electrically connected with the controller. The camera device is used for collecting a face image or an eye image of the driver and sending the face image or the eye image to the controller. The controller is further used for determining the moving direction of the driver based on the face image or the eye image, and controlling the plurality of display windows of the display module to rotate according to the target direction corresponding to the moving direction. In some embodiments, when the driver's moving direction is left movement, the plurality of display windows of the display module are controlled to rotate in a clockwise direction. And when the moving direction of the driver is rightward, controlling the display windows of the display module to rotate in a counterclockwise direction. Therefore, the 3D display window can be ensured to face the driver all the time, so that the driver can watch the display information in the display window more conveniently, the convenience for the driver to check the display information is improved, and the experience of the driver is also improved.

In some embodiments, the camera device collects a current face image or a current eye image of the driver at preset time intervals and transmits the current face image or the current eye image to the controller. The controller determines a current position of the driver based on the current face image or the current eye image, and determines a moving direction of the driver based on the initial face position or the initial face position.

In some embodiments, the vehicle-mounted display system further comprises a driver monitoring device, and the driver monitoring device is electrically connected with the controller. The driver monitoring device is used for monitoring the driving state of a driver, generating an alarm signal when the driver is in a fatigue driving state, and sending the alarm signal to the controller. The controller generates an alarm instruction based on the alarm signal and sends the alarm instruction to the display screen. The display screen is used for displaying alarm information according to the alarm instruction. The fatigue driving state of the driver is timely sent to the controller through the driver monitoring device, and then the controller can control the display screen to display alarm information, so that the driver can be timely reminded, and dangerous consequences such as traffic accidents are avoided.

In some embodiments, the display screen is configured to display the alarm information according to the alarm instruction, including: the display screen is used for switching the background image into an alarm image according to the alarm instruction, wherein the alarm image is used for reminding a driver of being in a fatigue driving state. In some embodiments, the warning image may be a solid color image, such as a red image, a yellow image, or the like. Therefore, the driver can know and adjust the driving state of the driver as soon as possible, and dangerous consequences caused by dangerous driving behaviors are avoided.

In some embodiments, the display screen is configured to display the alarm information according to the alarm instruction, including: the display screen is used for displaying an alarm identifier on the background image according to the alarm instruction, wherein the alarm identifier is used for reminding a driver of being in a fatigue driving state, and the alarm identifier flickers according to the target frequency. It should be noted that the alarm identifier may be a preset text, a preset pattern or a combination of the text and the preset pattern, which can play a warning role. The alarm identifier may be a 2D identifier or a 3D identifier. The constantly flashing alarm identification is displayed on the display screen, so that a driver can be timely reminded to adjust the current state of the driver, and the driver can be ensured to be in a safe driving state all the time.

In some embodiments, the vehicle-mounted display system further includes a dragging module electrically connected to the controller. The dragging module is used for generating a dragging signal based on the dragging operation of a user on the display window, the display information or the background image, and sending the dragging signal to the controller. The controller moves the position of the display window, the position of the display information, or the position of the background image corresponding to the drag signal to a target position according to the movement direction and the target position indicated by the drag signal based on the drag signal. Therefore, the display position of each display content on the display screen can be adjusted freely based on the requirements of users. It should be noted that the dragging module may be a touch sensor.

In some embodiments, the display screen is also used for displaying the corresponding switch buttons of the flight equipment. In response to a user's trigger operation of the switch button, the controller generates a start flight signal. The controller controls the flying equipment to be in a starting state based on the starting flying signal, wherein the starting state of the flying equipment means that the flying equipment flies into the air from a corresponding mounting position on the vehicle. It should be noted that the controller is electrically connected with the flight device. The flight equipment is used for collecting the environment image outside the vehicle and sending the environment image outside the vehicle to the controller. The controller is also used for controlling the display screen to display the environment image outside the vehicle for the user to watch. In response to a secondary triggering operation performed on the switch button, the controller generates a close flight signal. The controller controls the flying equipment to be in a closed state based on the closed flying signal, wherein the closed state of the flying equipment refers to the flying from the air back to the installation position of the corresponding flying equipment on the vehicle.

In some embodiments, after the controller receives the vehicle exterior environment image sent by the flight device, the controller is further configured to control the display screen to switch the background image to the vehicle exterior environment image. The environment image outside the vehicle can be an image of scenery along the way or traffic live during the driving process of the vehicle. Therefore, the diversity of the displayed content is improved, and the driver can know the environmental state or the traffic state of the vehicle in time conveniently.

In some embodiments, the flying device sends the acquired environment image outside the vehicle to the server, the server is used for sending the environment image outside the vehicle to each terminal inside the vehicle for displaying, and the server is connected with the flying device and each terminal through a network. Each terminal in the vehicle comprises a display screen configured for the driver and a display screen configured for the rear passengers. Therefore, all passengers can know the environmental state or traffic state of the vehicle in time.

In some embodiments, the plurality of display information further includes remote control information, the controller and the target device being connected via a network. The display screen responds to the selection operation of the user on the remote control information, generates a remote control signal and sends the remote control signal to the controller. The controller generates a remote control instruction based on the remote control signal and sends the remote control instruction to the server, wherein the remote control instruction comprises an identifier of the target device and a target task corresponding to the selected remote control information. And the server sends the remote control instruction to the target equipment, and the target equipment is used for executing the target task. It should be noted that the target device may be an intelligent home device in a home of the user, and the effect of remotely controlling the target device is achieved through interaction between the vehicle-mounted display system, the server and the target device. The user can remotely and flexibly control each target device, and convenience of controlling the target devices is improved. It should be noted that the remote control information may correspond to a remote control button displayed on the display screen, and the identifier of the target device and the target task are menu bars generated after the remote control button is clicked.

In some embodiments, the display screen is further configured to display a corresponding start button and a close button of the robot, which may be displayed within the same display window. The robot is the smart machine of placing in the vehicle, and the robot has the function of transport goods, and the controller can control the robot and carry out corresponding function. In response to the triggering operation of the starting button performed by the user, the controller generates a starting signal, wherein the starting signal is used for controlling the robot to be in an activated state, and the robot in the activated state can realize the function of carrying goods. In response to the triggering operation of the user on the closing button, the controller generates a closing signal, wherein the closing signal is used for controlling the robot to be in an inactive state, and the robot in the inactive state can not realize the function of carrying goods.

In some embodiments, the controller is connected to the user's target terminal over a network. The controller is further used for sending the position information of the vehicle to the server, and the target terminal is used for obtaining the position information of the vehicle from the server. The target terminal generates a transport instruction based on an operation of a user, and transmits the transport instruction to the server. The server is used for sending the handling instruction to the controller. The controller is further used for receiving the carrying instruction sent by the server, controlling the vehicle door to be in an open state and controlling the robot to move from inside to outside of the vehicle to complete a carrying task corresponding to the carrying instruction, wherein the carrying instruction comprises a target path generated based on the position information of the target terminal and the position information of the vehicle, and the carrying task refers to that the robot moves from the position of the vehicle to the position of the target terminal and carries goods at the position of the target terminal to the vehicle. The target terminal may be a terminal of a user, such as a watch, a mobile phone, or a computer, and the target terminal is installed with application software for implementing a robot handling function. The target terminal generates a carrying instruction in response to the operation of the user on the application software. In some embodiments, when the robot completes the handling, the target terminal generates a complete handling instruction in response to an operation of the user on the application software, and transmits the handling instruction to the server. The server is used for sending the finished carrying instruction to the controller, and the controller responds to the received finished carrying instruction and controls the robot to move into the vehicle and close the vehicle door. The robot is used for carrying goods for the user, and convenience is provided for the user. For example, after a user finishes shopping, through interaction among the controller, the target device and the robot, the robot in the vehicle can be remotely controlled to carry goods by the user, so that the effects of liberating two hands and easily carrying goods are achieved, and great convenience is brought to the life of the user.

Taking fig. 2 as an example, the on-off button corresponding to the flight device, the remote control information, and the start button and the close button corresponding to the robot may all be displayed in a sixth display window 110 below the display screen. Of course, the sixth display window 110 may also be used to display buttons for other functions.

In some embodiments, the in-vehicle display system includes a data storage module for storing operation data of the in-vehicle display system in real time and transmitting the operation data to the server. The data storage module is also used for downloading the operation data from the server. Therefore, the running data of the vehicle-mounted display system can be backed up, and the situation of data loss when the vehicle breaks down is prevented.

The vehicle-mounted display system provided by the embodiment of the application can be used for displaying various types of information on one display screen in a centralized manner, so that the attention of a driver is prevented from being dispersed, and the safety of the driving process is improved. Meanwhile, the required display information can be directly adjusted to the display window at the designated position to be displayed according to the adjustment operation of the user, so that the driver can conveniently check the information, the driver is prevented from distracting due to information searching, and the safety of the driving process is improved. In addition, functions such as remote control are achieved through interaction between the vehicle-mounted display system and other devices, great convenience is brought to life of a user, and experience of the user is improved.

The embodiment of the application also provides a vehicle, which comprises any one of the vehicle-mounted display systems. It should be noted that the composition and the function of the vehicle-mounted display system are completely the same as those of the vehicle-mounted display system provided in the foregoing embodiment of the present application, and are not described herein again. The vehicle utilizes the vehicle-mounted display system, so that the attention of a driver can be improved, the safety of the driving process is ensured, functions such as remote control can be realized, convenience is brought to the life of a user, and the experience of the user is improved.

Other embodiments of the present application will be apparent to those skilled in the art from consideration of the specification and practice of the present application disclosed herein. This application is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the application and including such departures from the present disclosure as come within known or customary practice within the art to which the invention pertains. It is intended that the specification and examples be considered as exemplary only.

It will be understood that the present application is not limited to the precise arrangements that have been described above and shown in the drawings, and that various modifications and changes may be made without departing from the scope thereof. The scope of the application is limited only by the appended claims.

Claims (10)

1. The vehicle-mounted display system is characterized by comprising a controller and a display screen, wherein the controller is electrically connected with the display screen;

the controller is used for acquiring a plurality of pieces of display information and sending the display information to the display screen, wherein the plurality of pieces of display information comprise instrument information and multimedia information;

the display screen is used for receiving and displaying the display information, wherein a plurality of display windows are displayed on the display screen, and each display window is used for displaying one or more display information;

the controller is further used for generating an adjusting instruction based on the adjusting signal and sending the adjusting instruction to the display screen, wherein the adjusting signal is generated based on the adjusting operation of the user;

the display screen is further used for adjusting target information indicated by the adjusting instruction to a preset display window in the plurality of display windows to be displayed based on the adjusting instruction, wherein the target information is information selected by the user from the plurality of display information.

2. The vehicle-mounted display system of claim 1, wherein the vehicle-mounted display system comprises a first adjustment module;

the first adjusting module is used for responding to a first adjusting operation of the user, generating a first adjusting signal and sending the first adjusting signal to the controller, wherein the first adjusting operation is an operation of selecting the target information from the plurality of display information;

the controller is further configured to generate an adjustment instruction based on the adjustment signal, including:

the controller is further configured to generate the adjustment instruction based on the first adjustment signal.

3. The in-vehicle display system of claim 1, further comprising a second adjustment module;

the second adjusting module is used for responding to a second adjusting operation of a user, generating a second adjusting signal and sending the second adjusting signal to the controller, wherein the second adjusting operation is an operation of adjusting the current size of the corresponding display window to a target size;

the controller is further configured to adjust the size of the display window corresponding to the second adjustment operation to the target size based on the second adjustment signal.

4. The vehicle-mounted display system of claim 1, wherein the display screen is further configured to display a background image, the display window is a 3D window, and the display window is suspended over the background image.

5. The vehicle-mounted display system of claim 4, further comprising a camera device, wherein the camera device is electrically connected with the controller;

the camera device is used for acquiring a face image or an eye image of a driver and sending the face image or the eye image to the controller;

the controller is further configured to determine a moving direction of the driver based on the face image or the eye image, and control the plurality of display windows of the display module to rotate in a target direction corresponding to the moving direction.

6. The vehicle-mounted display system of claim 5, further comprising a driver monitoring device electrically connected to the controller;

the driver monitoring device is used for monitoring the driving state of the driver, generating an alarm signal when the driver is in a fatigue driving state, and sending the alarm signal to the controller;

the controller generates an alarm instruction based on the alarm signal and sends the alarm instruction to the display screen;

and the display screen is used for displaying alarm information according to the alarm instruction.

7. The vehicle-mounted display system of claim 6, wherein the display screen is configured to display alarm information according to the alarm instruction, and the display screen comprises:

the display screen is used for switching the background image into an alarm image according to the alarm instruction, wherein the alarm image is used for reminding the driver of being in the fatigue driving state.

8. The vehicle-mounted display system of claim 6, wherein the display screen is configured to display alarm information according to the alarm instruction, and the display screen is configured to:

the display screen is used for displaying an alarm identifier on the background image according to the alarm instruction, wherein the alarm identifier is used for reminding the driver of being in the fatigue driving state, and the alarm identifier flickers according to a target frequency.

9. The in-vehicle display system of claim 1, wherein the plurality of display information further comprises remote control information, and the controller is connected to the target device via a network;

the display screen responds to the selection operation of the user on the remote control information, generates a remote control signal and sends the remote control signal to the controller;

the controller generates a remote control instruction based on the remote control signal and sends the remote control instruction to a server, wherein the remote control instruction comprises the identification of the target equipment and a target task corresponding to the selected remote control information;

and the server sends the remote control instruction to the target equipment, and the target equipment is used for executing the target task.

10. A vehicle characterized in that the vehicle comprises the in-vehicle display system according to any one of claims 1 to 9.

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