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CN-121989686-A - Self-adaption method and device of vehicle-mounted HMI interface and electronic equipment

CN121989686ACN 121989686 ACN121989686 ACN 121989686ACN-121989686-A

Abstract

The invention provides a self-adaptive method, a device and electronic equipment of a vehicle-mounted HMI interface, relates to the technical field of automobile man-machine interaction, triggers adjustment of the HMI interface based on operation intention signals of users, and can break through a traditional single mode of instruction-response by combining with real adjustment requirements indicated by driving scene capture operation intention signals, so that deep association of scene-intention-requirements is realized, and rationality and pertinence of operation response results are ensured. In addition, the HMI interface is determined according to the rudder information and the regional configuration data of the vehicle, so that the problem of cross-vehicle type and cross-region adaptation can be solved from the source, the universality of an interface basic frame is realized, and the research, development and adaptation cost is reduced.

Inventors

  • Han Yinghai

Assignees

  • 奇瑞汽车股份有限公司

Dates

Publication Date
20260508
Application Date
20260127

Claims (10)

  1. 1. A method for adapting a vehicle HMI interface, the method comprising: Responding to the detection of an operation intention signal of a preset user for a preset HMI interface, wherein the preset HMI interface is constructed according to rudder information of a target vehicle and preset regional configuration data of the target vehicle; determining an operation response result corresponding to the operation intention signal according to a vehicle driving scene in which the operation intention signal is located; And based on the operation response result, carrying out interface adjustment on the preset HMI interface so that the preset HMI interface meets the self-adaptive adjustment requirement corresponding to the operation intention signal.
  2. 2. The method of claim 1, wherein the step of responding to the monitoring of the user's operational intent signal for the preset HMI interface comprises: monitoring user state data of a preset user of the target vehicle through a preset multi-dimensional sensing module; determining that the preset user generates an operation intention aiming at the HMI based on the interface interaction behavior monitored by the user state data; And generating an operation intention signal corresponding to the preset user based on the operation intention.
  3. 3. The method of claim 2, wherein the multi-dimensional sensing module comprises an eye tracking module, a hand proximity sensor, and an on-board voice recognition module; Based on the interface interaction behavior monitored by the user state data, determining that the preset user generates the operation intention aiming at the HMI interface comprises the following steps: If the hand proximity sensor indicates that the hand of the preset user is monitored to trigger the HMI interface, judging that the preset user triggers the touch operation intention; If the eye tracking module indicates that the eye gaze point of the preset user is monitored to be focused on the preset interface element of the HMI, judging that the preset user triggers the operation intention of the interface element; And if the vehicle-mounted voice recognition module indicates that the preset voice data aiming at the HMI interface is monitored, judging that the preset user triggers the voice operation intention aiming at the HMI interface.
  4. 4. The method of claim 2, wherein the interface operation object indicated by the operation intention signal comprises a logical container of the HMI interface or a preset control in the logical container; When the interface operation object is the logic container, the preset user triggers the redundant control based on the corresponding operation authority so as to generate an operation intention signal aiming at the logic container.
  5. 5. The method according to claim 1, wherein the step of constructing a preset HMI interface of the target vehicle from rudder information of the target vehicle and preset localized configuration data of the target vehicle comprises: dividing the HMI interface into a plurality of logic containers according to preset interface display requirements, wherein the logic containers comprise a driver main information area, a central control function area, a passenger auxiliary area and a system state area; According to the rudder information of the target vehicle, determining whether the target vehicle is a left rudder vehicle or a right rudder vehicle, so as to determine a preset reference position of the main information area of the driver; Based on a preset constraint layout algorithm and a grid system, combining preset regional configuration data of the target vehicle to construct initial layout parameters and control parameters of each logic container, wherein the control parameters comprise initial azimuth parameters of mirror image controls; And constructing a preset HMI interface corresponding to the target vehicle based on the initial layout parameters, the control parameters and the preset reference position.
  6. 6. The method of claim 1, wherein the preset HMI interface is further configured with a pop-up control, the pop-up control having a higher level than a logical container of the preset HMI interface, wherein the step of performing an interface adjustment on the preset HMI interface based on the operation response result further comprises: responding to matching of the popup control and a preset logic container of the preset HMI interface; and correspondingly adjusting the preset logic container based on the response monitoring of the operation signal of the preset user for the popup control.
  7. 7. The method according to claim 1, wherein the step of determining an operation response result corresponding to the operation intention signal according to a driving scene of the vehicle in which the operation intention signal is located includes: Determining a function call priority corresponding to the operation intention signal according to a user attribute of a preset user corresponding to the operation intention signal, wherein the user attribute comprises a driver or a passenger; constructing driving scene boundary conditions corresponding to the operation intention signals according to the safety level of the driving scene of the vehicle where the operation intention signals are located and the user attributes, wherein the driving scene boundary conditions comprise a function executable range and an interface adjustable range constraint; And generating an operation response result corresponding to the operation intention signal based on the driving scene boundary condition and the function call priority.
  8. 8. An adaptive device for an on-board HMI interface, the device comprising: the system comprises a response module, a control module and a control module, wherein the response module is used for responding and monitoring an operation intention signal of a preset user for a preset HMI interface, and the preset HMI interface is constructed according to rudder information of a target vehicle and preset regional configuration data of the target vehicle; The data processing module is used for determining an operation response result corresponding to the operation intention signal according to a vehicle driving scene in which the operation intention signal is located; And the execution module is used for carrying out interface adjustment on the preset HMI interface based on the operation response result so that the preset HMI interface meets the self-adaptive adjustment requirement corresponding to the operation intention signal.
  9. 9. An electronic device comprising a processor and a memory, the memory storing machine executable instructions executable by the processor, the processor executing the machine executable instructions to implement the method of adapting the vehicle HMI interface of any one of claims 1 to 7.
  10. 10. A machine-readable storage medium storing machine-executable instructions that, when invoked and executed by a processor, cause the processor to implement an adaptation method of an on-board HMI interface according to any one of claims 1 to 7.

Description

Self-adaption method and device of vehicle-mounted HMI interface and electronic equipment Technical Field The invention relates to the technical field of human-computer interaction of automobiles, in particular to a self-adaptive method and device for a vehicle-mounted HMI interface and electronic equipment. Background With the development of globalization and intellectualization of automobiles, an on-board human-machine interaction interface (HMI) has become a core carrier for driver and passenger interaction with vehicles, and the current situation that a global left rudder vehicle (LHD) and a right rudder vehicle (RHD) coexist, there is an urgent need for cross-rudder adaptation of the HMI interface. Because the positions of drivers of two vehicle types are opposite, HMI core components such as an instrument panel, a central control screen and an interactive button are required to be adjusted in a targeted manner, but the conventional adaptation technology has a plurality of core defects, and is difficult to meet the actual application demands. Most schemes adopt a double-version development mode, independent UI and matched codes are designed for left and right steering vehicles respectively, development, test and iteration work are required to be carried out independently, development cost and project period are greatly increased, the problem that double-version functions are not synchronous and bug repairing is inconsistent is easily caused, global popularization efficiency of the vehicle types is seriously restricted, and part of schemes can only realize adaptation through simple left and right geometric overturning, so that interface layout positions can only be adjusted, regulation requirements, word directions and metering unit differences of different areas cannot be adapted, dynamic adaptation is more difficult to realize by combining driving scenes, and the practicability is greatly reduced. Meanwhile, the prior art mainly focuses on single-side adaptation of a driver, does not consider the requirement of auxiliary operation of an auxiliary driver, lacks flexible switching functions of an operation main body, causes complex auxiliary driving operation and is easy to interfere the driver to concentrate on driving, and the fixed layout or simple mirror image adaptation in the prior art also easily causes the key prompt information to be blocked, and the core interaction buttons deviate from a comfortable operation area of the driver, so that the driving distraction risk is increased, and potential safety hazards exist. In summary, the prior art cannot meet the core requirements of research and development cost control, multi-scene adaptation, multi-main-body convenient interaction, driving safety and the like, and an intelligent self-adaptive safety interaction scheme of 'one set of UI adaptation multi-rudder' is needed to systematically solve the technical problems. Disclosure of Invention The invention aims to provide a self-adaptive method and device for a vehicle-mounted HMI interface and electronic equipment, so as to solve the technical problems. The invention provides a self-adaptive method of a vehicle-mounted HMI interface, which is characterized by comprising the steps of responding to monitoring operation intention signals of a preset user for the preset HMI interface, constructing the preset HMI interface according to rudder information of a target vehicle and preset regional configuration data of the target vehicle, determining operation response results corresponding to the operation intention signals according to vehicle driving scenes where the operation intention signals are located, and carrying out interface adjustment on the preset HMI interface based on the operation response results so that the preset HMI interface meets self-adaptive adjustment requirements corresponding to the operation intention signals. With reference to the first aspect, the embodiment of the invention provides a first implementation manner of the first aspect, wherein the step of responding to the monitoring of the operation intention signal of the user for the preset HMI interface comprises the steps of monitoring user state data of a preset user of a target vehicle through a preset multi-dimensional sensing module, determining that the preset user generates the operation intention for the HMI interface based on the interface interaction behavior monitored by the user state data, and generating the operation intention signal corresponding to the preset user based on the operation intention. With reference to the first aspect, the embodiment of the invention provides a second implementation manner of the first aspect, wherein the multi-dimensional sensing module comprises an eye tracking module, a hand proximity sensor and a vehicle-mounted voice recognition module, and the step of determining that the preset user generates the operation intention for the HMI interface is based on the interface interact