Abstract: Methods and systems for adapting an advanced driver assistance driving system of a vehicle. One system includes an electronic processor of an advanced driver assistance driving system. The electronic processor is configured to control the vehicle using a control parameter of the advanced driver assistance driving system. The electronic processor is also configured to activate a learning mode for the advanced driver assistance driving system and receive feedback associated with the control of the vehicle. The electronic processor is also configured to adjust the control parameter of the advanced driver assistance driving system based on the feedback and control the vehicle using the adjusted control parameter.

Abstract: System and methods for a vehicle for determining driver distraction and adapting the operation of driving assistance systems. One example system includes a subsystem for sensing driver interaction with electrical devices located within a passenger compartment of the vehicle, a first sensor configured to sense conditions outside of the vehicle, a second sensor configured to sense conditions outside of the vehicle, and an electronic controller.

Abstract: Methods and systems for adapting an advanced driver assistance driving system of a vehicle. One system includes an electronic processor of an advanced driver assistance driving system. The electronic processor is configured to control the vehicle using a control parameter of the advanced driver assistance driving system. The electronic processor is also configured to activate a learning mode for the advanced driver assistance driving system and receive feedback associated with the control of the vehicle. The electronic processor is also configured to adjust the control parameter of the advanced driver assistance driving system based on the feedback and control the vehicle using the adjusted control parameter.

Abstract: System and methods for a vehicle for determining driver distraction and adapting the operation of driving assistance systems. One example system includes a subsystem for sensing driver interaction with electrical devices located within a passenger compartment of the vehicle, a first sensor configured to sense conditions outside of the vehicle, a second sensor configured to sense conditions outside of the vehicle, and an electronic controller.

Abstract: An adaptive warning system and method for adapting an alert to a vehicle operator based on noise in a vehicle interior compartment, includes a loudspeaker, a dashboard display, a noise level sensing device for providing a noise value, and an electronic processor having a memory. The electronic processor is configured to compare the noise value with a first threshold and when the noise value is not greater than the first threshold, provide an audio alert at regular sound level and providing a visual alert on a dashboard display at regular indicia size in a normal alert mode. The electronic processor is also configured to when the noise value is greater than the first threshold, provide the audio alert at an increased sound level and provide the visual alert on the dashboard display having an increased indicia size in a second enhanced alert mode.

Abstract: A device is disclosed for controlling a vehicle. The method includes monitoring received input from one or more proximity sensor, approximating a user's lateral and longitudinal positions behind the vehicle based upon the monitoring, and controlling the vehicle based upon the approximate lateral and longitudinal positions of the user with respect to the vehicle to continuously re-center the vehicle with respect to the user.

Abstract: A wheel orientation warning system and method to alert to a driver to turn front wheels toward a curb includes an electronic processor and a memory. The system includes a slope detector for detecting a slope of the vehicle and an arrangement for determining a presence of a curb adjacent a side of the vehicle. The system includes a transmission device for detecting when the vehicle is in a park mode. The electronic processor is configured to provide an alert to a driver to turn front wheels toward the curb when the vehicle is each of: disposed at a slope with an absolute value greater than a predetermined threshold, disposed adjacent the curb, and in the park mode. The system includes a dashboard display for providing messages and an indication to a driver when the wheels are turned toward the curb.

Abstract: A device is disclosed for controlling a vehicle. The method includes monitoring received input from one or more proximity sensor, approximating a user's lateral and longitudinal positions behind the vehicle based upon the monitoring, and controlling the vehicle based upon the approximate lateral and longitudinal positions of the user with respect to the vehicle to continuously re-center the vehicle with respect to the user.