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CN-122008855-A - Light switch control method, device, equipment and storage medium

CN122008855ACN 122008855 ACN122008855 ACN 122008855ACN-122008855-A

Abstract

The embodiment of the application provides a lamplight switch control method, a lamplight switch control device, lamplight switch control equipment and a storage medium. The method comprises the steps of automatically activating an AUTO light mode after a vehicle is electrified, generating a suspension type light control assembly on a first-layer interface of a central control screen, receiving touch operation of a user on the suspension type light control assembly, further generating a corresponding light control instruction, sending the corresponding light control instruction to a vehicle body controller through a vehicle-mounted bus, responding to drag operation of the user on the suspension type light control assembly, acquiring and storing final position coordinates of the suspension type light control assembly on the screen, and reloading and displaying the suspension type light control assembly according to the final position coordinates when the vehicle is electrified subsequently. The method meets the requirement of legal safety without manual operation, the suspension assembly is always positioned on the top layer of the screen, the operation can be completed without leaving the line of sight, the operation habits of different drivers are adapted, the hardware switch is replaced by a pure software scheme, and the unification of cost reduction, synergy and humanized experience is realized on the premise of ensuring the driving safety.

Inventors

  • LI JUNCHAO

Assignees

  • 浙江智马达智能科技有限公司

Dates

Publication Date
20260512
Application Date
20260330

Claims (10)

  1. 1. A light switch control method, characterized by being applied to a cabin domain controller, the method comprising: After the vehicle is electrified, automatically activating an AUTO lamplight mode; generating a suspension type light control component on a first layer interface of the central control screen, wherein the suspension type light control component is always displayed on the topmost layer of the screen display level; receiving touch operation of a user on the suspension type light control assembly, generating a corresponding light control instruction according to the touch operation, and sending the light control instruction to a vehicle body controller through a vehicle-mounted bus; Responding to the drag operation of a user on the suspended type light control component, and acquiring and storing the final position coordinate of the suspended type light control component on a screen; and reloading and displaying the suspension type light control assembly according to the final position coordinates when the vehicle is powered on later.
  2. 2. The method of claim 1, wherein automatically activating AUTO light mode after power-up of the vehicle comprises: when the power-on of the vehicle is detected, generating an AUTO mode activation instruction; and sending the AUTO mode activation instruction to the vehicle body controller through the vehicle-mounted bus so that the vehicle body controller controls the lamplight system to enter an AUTO lamplight mode.
  3. 3. The method according to claim 1, wherein the method further comprises: responsive to a click operation of the floating light control assembly by the user, expanding a menu interface, wherein the menu interface at least comprises an AUTO mode, a low beam mode, a high beam mode and an outline marker light mode; And responding to the long-press operation of the user on the suspended light control component, and triggering a dragging mode when the long-press time length of the long-press operation exceeds a first preset threshold value so that the suspended light control component moves along with the touch point of the user on a screen to displace in real time.
  4. 4. A method as recited in claim 3, wherein said method further comprises, after said responding to a user's drag operation of said floating light control assembly: when the distance between the suspended light control component and the edge of the screen is detected to be smaller than a second preset threshold value in the moving process of the suspended light control component, the suspended light control component is automatically adsorbed to the edge of the screen; When the central control screen is detected to activate a preset full screen application or a specific view interface, the suspended light control component is automatically moved to a boundary position where a core display area is not blocked, and the suspended light control component still keeps a suspended state after being moved and is always displayed on the topmost layer of the screen display hierarchy.
  5. 5. The method of claim 1, wherein prior to generating the corresponding light control command according to the touch operation, the method further comprises: Acquiring real-time state data of the vehicle, wherein the real-time state data at least comprises vehicle speed data; checking the touch operation according to a preset rule, wherein the preset rule comprises an operation of intercepting the user to manually start a high beam mode when the vehicle speed exceeds a third preset threshold; And if the verification is passed, generating a corresponding light control instruction according to the touch operation.
  6. 6. The method according to claim 1, wherein the method further comprises: receiving a lamplight execution state feedback signal of the vehicle body controller; Updating the display state of the suspended light control component in real time according to the feedback signal; When the light sensor is detected to be faulty, the light mode is automatically switched to the low beam mode, and a fault prompt identifier is displayed on the suspended light control component.
  7. 7. The method of claim 1, wherein storing final position coordinates of the floating light control assembly on a screen comprises: storing the final position coordinates in association with current driver account information; correspondingly, the reloading and displaying the suspension type light control assembly according to the final position coordinates comprises the following steps: After the vehicle is electrified next time, a current driver account is identified, and coordinate data associated with the current driver account is read to load the suspension type light control component; If the associated coordinate data is not read, loading a preset default position coordinate.
  8. 8. A light switch control device, comprising: the power-on triggering module is used for automatically activating an AUTO lamplight mode after the vehicle is powered on; the suspension interaction display module is used for generating a suspension type light control component on a first layer interface of the central control screen, and the suspension type light control component is always displayed on the topmost layer of the screen display level; The light control logic module is used for receiving touch operation of a user on the suspension type light control assembly, generating a corresponding light control instruction according to the touch operation and sending the light control instruction to the vehicle body controller through the vehicle-mounted bus; The position memory module is used for responding to the drag operation of a user on the suspended light control assembly and acquiring and storing the final position coordinate of the suspended light control assembly on a screen; And the loading module is used for reloading and displaying the suspension type light control assembly according to the final position coordinate when the vehicle is electrified subsequently.
  9. 9. A cabin domain controller is characterized by comprising a memory and a processor; The memory stores computer-executable instructions; the processor executing computer-executable instructions stored in the memory, causing the processor to perform the method of any one of claims 1 to 7.
  10. 10. A computer readable storage medium having stored therein computer executable instructions which when executed by a processor are adapted to carry out the method of any one of claims 1 to 7.

Description

Light switch control method, device, equipment and storage medium Technical Field The present application relates to the field of vehicle control technologies, and in particular, to a method, an apparatus, a device, and a storage medium for controlling a light switch. Background Along with the accelerated evolution of the intelligent and networking trend of automobiles and the development of large-size and multi-screen of vehicle-mounted central control screens, the traditional physical keys of automobiles are gradually replaced by touch interaction modes. In the field of automobile light control, requirements of related regulations on driving safety and intelligent light control are continuously improved, so that convenience and compliance of light control become important considerations for automobile interaction design. Meanwhile, the automotive interior design increasingly pursues conciseness and technological sense, the number of physical keys of a center console is continuously compressed, and a software control scheme gradually becomes the main stream development direction of the industry. Currently, there are two main implementations of automobile light control. One of the schemes is a traditional hardware switch scheme, and the switching of the light modes is realized by arranging an entity knob and a key on a steering column deflector rod or a center console panel. Secondly, in recent years, a software switching scheme appears along with the popularization of vehicle-mounted screens, a light control function is integrated in a touch interface of a central control screen, and the control of vehicle light is realized through a virtual interaction mode. However, the hardware switching scheme has the problems of a large number of parts, large occupied space and high manufacturing cost, and is difficult to adapt to the design trend of the automotive interior with a simplified design. Although the software switching scheme can avoid the cost and space defects of the hardware switch, the software switching scheme still needs to be improved in the aspects of operation convenience, driving safety and man-machine interaction flexibility, and cannot fully meet the requirements of users on intelligent and personalized driving experience. How to consider the operation efficiency, the driving safety and the user experience on the premise of ensuring the compliance of the light control becomes a problem to be solved in the technical field of the current automobile light control. Disclosure of Invention The embodiment of the application provides a light switch control method, a light switch control device, light switch control equipment and a storage medium, which are used for realizing zero-step compliance, extremely-fast operation without line of sight from a road and personalized position adaptation, and comprehensively improving driving safety, operation convenience and user experience. In a first aspect, an embodiment of the present application provides a light switch control method, applied to a cabin controller, where the method includes: After the vehicle is electrified, automatically activating an AUTO lamplight mode; generating a suspension type light control component on a first layer interface of the central control screen, wherein the suspension type light control component is always displayed on the topmost layer of the screen display level; receiving touch operation of a user on the suspension type light control assembly, generating a corresponding light control instruction according to the touch operation, and sending the light control instruction to a vehicle body controller through a vehicle-mounted bus; Responding to the drag operation of a user on the suspended type light control component, and acquiring and storing the final position coordinate of the suspended type light control component on a screen; and reloading and displaying the suspension type light control assembly according to the final position coordinates when the vehicle is powered on later. In one possible implementation manner, after the vehicle is powered on, the AUTO light mode is automatically activated, including: when the power-on of the vehicle is detected, generating an AUTO mode activation instruction; and sending the AUTO mode activation instruction to the vehicle body controller through the vehicle-mounted bus so that the vehicle body controller controls the lamplight system to enter an AUTO lamplight mode. In one possible embodiment, the method further comprises: responsive to a click operation of the floating light control assembly by the user, expanding a menu interface, wherein the menu interface at least comprises an AUTO mode, a low beam mode, a high beam mode and an outline marker light mode; And responding to the long-press operation of the user on the suspended light control component, and triggering a dragging mode when the long-press time length of the long-press operation exceeds a first preset threshold va