METHOD FOR TRANSMITTING INFORMATION TO A DRIVER OF A MOTOR VEHICLE, AND ADAPTIVE DRIVER ASSISTANCE SYSTEM

Abstract

A method for transmitting information to a driver of a motor vehicle, with at least two information channels being provided to transmit information, includes presenting the information via at least a first information channel for the driver, determining a perception quantity representing perception by the driver with regard to the information presented, and defining a transmission of the information via a further information channel on the basis of the perception quantity determined.

Claims

1. A method for transmitting information to a driver of a motor vehicle, with at least two information channels being provided to transmit information, the method comprising: presenting the information via at least a first information channel for the driver; determining a perception quantity representing perception by the driver with regard to the information presented; and defining a transmission of the information via a further information channel on the basis of the perception quantity determined.

2. The method as recited in claim 1, wherein the first information channel is in the form of a first visual information-transmitting location.

3. The method as recited in claim 1, wherein the further information channel is implemented at least one of: an auditory information-transmitting location, a second visual information-transmitting location, and a haptic information-transmitting location.

4. The method as recited in claim 1, wherein if the perception quantity represents perception of the information by the driver, the definition of the transmission of the information via the further information channel includes at least one of: omitting transmission of the information via a further information channel, and adapting a transmission of the information via a further information channel, presentation of the information being attenuated.

5. The method as recited in claim 1, wherein if the perception quantity represents no perception of the information by the driver, the definition of the transmission of the information via the further information channel includes at least one of the following steps: transmitting the information via a further information channel, and adapting the transmission of the information via a further information channel, a presentation of the information being amplified.

6. The method as recited in claim 1, wherein at least one of the following factors is taken into account in ascertaining the perception quantity: a viewing direction of the driver, and an action by the driver.

7. The method as recited in claim 1, wherein to ascertain the perception quantity, the visual perception is modeled, the ascertaining including taking into account a gaze dwell time.

8. The method as recited in claim 1, wherein the perception quantity is determined with the aid of a passenger-compartment sensor system including a passenger-compartment camera.

9. A method for controlling a driver assistance system, including transmission of information to a driver of a motor vehicle, at least two information channels being provided for transmitting information, comprising: presenting the information via at least a first information channel for the driver; determining a perception quantity representing perception by the driver with regard to the information presented; and defining a transmission of the information via a further information channel on the basis of the perception quantity determined.

10. An apparatus for transmitting information to a driver of a motor vehicle, with at least two information channels being provided to transmit information, the apparatus designed to: present the information via at least a first information channel for the driver; determine a perception quantity representing perception by the driver with regard to the information presented; and define a transmission of the information via a further information channel on the basis of the perception quantity determined.

11. A non-transitory machine-readable storage medium, on which is stored a computer program for transmitting information to a driver of a motor vehicle, with at least two information channels being provided to transmit information, the computer program, when executed by a computer, causing the computer to perform: presenting the information via at least a first information channel for the driver; determining a perception quantity representing perception by the driver with regard to the information presented; and defining a transmission of the information via a further information channel on the basis of the perception quantity determined.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0057] FIG. 1 shows a schematic model for calibrating an eye-tracking system.

[0058] FIG. 2 shows a schematic section of a driver in a motor vehicle in the case of one embodiment of the method.

[0059] FIG. 3 shows a schematic flow chart of the steps of the method.

DETAILED DESCRIPTION OF EXAMPLE EMBODIMENTS

[0060] FIG. 1 shows a schematic model for calibrating an eye-tracking system. A description of this calibration as well as of the technology of eye tracking is found in the remarks concerning the related art.

[0061] FIG. 2 shows a schematic section of a driver 1 in a motor vehicle 3 in the case of one embodiment of method 10 or 10. Here, driver 1 is positioned in a seating posture in vehicle 3. Vehicle 3 also contains a driver assistance system 4. In the exemplary embodiment, it is in the form of a navigation instrument. According to method 10 or 10, information 11 is transmitted to the driver via a first information channel. In the exemplary embodiment, this information channel is implemented as a visual information channel employing a display 6. For example, the display of the center console, a display of the instrument cluster or a separate display is used as display 6.

[0062] Eyes 2 of driver 1 are monitored by a passenger-compartment sensor system 5. This passenger-compartment sensor system 5 is in the form of a camera having active infrared lighting for determining the viewing direction (eye tracking). View vectors and the eye position may thereby be ascertained. By using eye-tracking methods, it is possible to check where driver 1 is looking and which elements driver 1 is observing. In this manner, for example, it may be checked whether driver 1 has looked at information 11 displayed visually with the aid of an HMI (human-machine interface) driver display 6. In addition, it is assessed whether driver 1 has perceived information 11. Among other things, the period of time the information is observed will be taken into account for this.

[0063] Moreover, a further information channel is provided. In the exemplary embodiment, it is in the form of an auditory information channel employing loudspeaker 7 of the vehicle. Depending on the perception by driver 1 of information 11 transmitted via the first information channel, i.e., display 6, transmission of information 11 via a second information channel is defined and implemented. For example, if, on the basis of the data ascertained by use of the eye tracking, it cannot be assumed that the driver has perceived information 11 displayed on display 6, a further offering of information 11 may be carried out via the auditory path through loudspeaker 7 by voice output to driver 1. However, if it is determined that driver 1 is already perceiving information 11 during a presentation via display 6, an additional auditory presentation of the information with the aid of loudspeaker 7 may be omitted.

[0064] Furthermore, an additional information channel is provided. In the exemplary embodiment, it is represented as a haptic information channel with the aid of a further information interface 8 which, for example, takes the form of a steering-wheel vibration and/or a steering-wheel motion. Likewise, information is only offered via this path if the evaluation of the data suggests that driver 1 has not perceived information 11 presented on the display.

[0065] In addition, a further visual information interface 6 is represented by a further display. For example, if it is determined that driver 1 has not perceived information 11, it may also be duplicated via this likewise visual information channel and additionally presented to driver 1. This is omitted if driver 1 has already perceived information 11.

[0066] The information channels are controlled by a regulating and control unit 9. The data concerning the perception, i.e., especially the camera images, may be evaluated by a regulating or control unit, as well. It may be the same or a different regulating and control unit 9. In this context, for example, control unit 9 transmits instructions concerning the HMI adaptation via an interface (e.g., CAN) to the control units of the affected objects (for instance, navigation system, instrument cluster).

[0067] FIG. 3 shows a schematic flow chart of the steps of method 10 or 10 according to one exemplary embodiment. Here, in a first step S1, the information is presented to the driver via at least a first information channel. In a second step S2, a perception quantity representing perception by the driver with regard to the information presented is determined. In a third step S3, a transmission of the information via a further information channel is defined on the basis of the perception quantity determined. This third step S3 may be followed by a fourth step S4, which includes the transmission of the information via a further information channel.