A vehicle mirror control system includes a touchpad including a sensing surface operative to produce signals indicative of a desired movement of a vehicle mirror responsive to a gesture detected by the sensing surface. A vehicle mirror assembly and a method are also disclosed.

A vehicular control system includes a camera disposed at an in-cabin side of a windshield of a vehicle, the camera viewing forward of the vehicle through the windshield, and the camera capturing image data representative of at least an upcoming road surface of a road ahead of the vehicle. The vehicular control system, via processing at an image processor of image data captured by the camera, determines traction condition of at least a portion of the imaged upcoming road surface that is ahead of the vehicle. The vehicular control system, via processing at the image processor of captured image data, determines a change in traction condition ahead of the vehicle and adjusts an adaptive cruise control system of the vehicle responsive at least in part to the determined change in traction condition ahead of the vehicle.

A vehicular control system includes a camera disposed at an in-cabin side of a windshield of a vehicle, the camera viewing forward of the vehicle through the windshield, and the camera capturing image data representative of at least an upcoming road surface of a road ahead of the vehicle. The vehicular control system, via processing at an image processor of image data captured by the camera, determines traction condition of at least a portion of the imaged upcoming road surface that is ahead of the vehicle. The vehicular control system, via processing at the image processor of captured image data, determines a change in traction condition ahead of the vehicle and adjusts an adaptive cruise control system of the vehicle responsive at least in part to the determined change in traction condition ahead of the vehicle.

A vehicle includes a sensor device configured to collect data on regions around the vehicle, and an automatic parking controller configured to generate a folding signal or an unfolding signal for a side mirror based on the data collected by the sensor device and a state of the side mirror when performing automatic parking.

A vehicle includes a sensor device configured to collect data on regions around the vehicle, and an automatic parking controller configured to generate a folding signal or an unfolding signal for a side mirror based on the data collected by the sensor device and a state of the side mirror when performing automatic parking.

In accordance with the teachings described herein, a rearview device for a vehicle is provided that includes a moveable head assembly; a base assembly to be fixed to the vehicle; an actuator assembly; and a cradle configured to attach the actuator assembly to the moveable head assembly and/or the base assembly and a vehicle with such a rearview device.

A self-driving or autonomous vehicle comprises a seat movable between an upright position and a reclined position and a ceiling display for displaying user interface elements and for receiving user input when the seat is in the reclined position. The ceiling display may be slidable and/or pivotable. The ceiling display may automatically move when the seat is reclined.

A self-driving or autonomous vehicle comprises a seat movable between an upright position and a reclined position and a ceiling display for displaying user interface elements and for receiving user input when the seat is in the reclined position. The ceiling display may be slidable and/or pivotable. The ceiling display may automatically move when the seat is reclined.

An exterior rearview mirror system for a vehicle includes an exterior mirror assembly having a skull-cap mirror shell that includes an inboard wall that faces generally toward an exterior side of the vehicle and that is viewable by a driver of the vehicle. A multi-stage blind spot indicator is disposed at an aperture established at the inboard wall of the skull-cap mirror shell. An illumination source of the blind spot indicator is activated to illuminate the multi-stage blind spot indicator responsive to an electronic blind spot monitoring system of the vehicle detecting another vehicle that is approaching or overtaking the equipped vehicle. Illumination of the multi-stage blind spot indicator by activation of the illumination source is readily viewable by the driver of the equipped vehicle and is generally not viewable by a driver of another vehicle traveling in front of or approaching from in front of the equipped vehicle.

An exterior rearview mirror system for a vehicle includes an exterior mirror assembly having a skull-cap mirror shell that includes an inboard wall that faces generally toward an exterior side of the vehicle and that is viewable by a driver of the vehicle. A multi-stage blind spot indicator is disposed at an aperture established at the inboard wall of the skull-cap mirror shell. An illumination source of the blind spot indicator is activated to illuminate the multi-stage blind spot indicator responsive to an electronic blind spot monitoring system of the vehicle detecting another vehicle that is approaching or overtaking the equipped vehicle. Illumination of the multi-stage blind spot indicator by activation of the illumination source is readily viewable by the driver of the equipped vehicle and is generally not viewable by a driver of another vehicle traveling in front of or approaching from in front of the equipped vehicle.