A vehicle steering wheel is provided that includes a rotatable rim comprising a core structure, a steering angle sensor sensing an angle of rotation of the rim, and a plurality of proximity sensors located on the rim and spaced apart from one another along an arc length. The vehicle steering wheel also includes a controller processing sensed outputs generated by each of the plurality of proximity sensors and determining operator input commands based on the sensed outputs. The controller assigns a function to each of the proximity sensors that changes as the rim is rotated at an angle such that a given function associated with a proximity sensor remains at the same position in space.

The present disclosure relates to a vehicle user interface system allowing for plug and play customizations of vehicle electronics. These customizations are permitted by the use of vehicle electronics modules that can be moved as desired without requiring additional programming from the user to map a desired function to a specific switch of the vehicle electronics system.

A vehicle dashboard includes a trim panel defining an airflow opening. At least one register duct defines a register opening. The at least one register duct is disposed adjacent to the trim panel and the register opening aligns with the airflow opening. At least one demister duct defines a demister opening. The at least one demister duct is disposed adjacent to the trim panel and the demister opening aligns with the airflow opening. A first air deflector slidably engaged with the at least one register duct. A second air deflector slidably engaged with the at least one register duct.

A steering handle for a steering apparatus of a motor vehicle includes an end face which faces a user when the steering handle is in a position of use and a display element arranged on a side of the steering handle which faces away from the end face. A control device carries out a method by which a position of the steering handle is changed based on a driving mode set by a driver assistance device. The control device generates an adjustment signal to change between a position of use of the steering handle and a position of rest of the steering handle. When the steering handle is in a position of rest, a surface of the steering handle which faces away from the user when the steering handle is in the position of use instead faces the user.

The present invention relates to automotive interface systems and methods. In one embodiment, an automotive interface system includes a steering wheel and an integrated interpolated variable impedance array that comprises a grid of sensing elements. The sensing elements are configured to power on simultaneously and to simultaneously generate multiple currents along multiple current paths in response to sensing a touch wherein the amount of current generated by a sensing element of the grid is directly proportional to the force applied by the touch. The automotive interface system also includes an analog-to-digital converter (ADC) and a processor communicatively coupled to the interpolated variable impedance array that are configured to receive the multiple currents along multiple current paths and determine a location, a duration, an area, and a force of the touch from the multiple currents along multiple current paths.

To display information appropriately without making an occupant feel annoyed, a steering operation element 10 of a vehicle 2 includes a hub part 31 provided rotatably with respect to a vehicle body 15; an extending part 32 extending radially outward from an outer circumference of the hub part; an outer edge part 33 provided on an outer edge of the extending part; a display 40 provided on the hub part; at least one first light source 27A provided on the extending part; and an interface control device 41 configured to control the display and the first light source, wherein the interface control device is configured to cause the display to display an image corresponding to at least one of vehicle state information indicating a state of the vehicle and environment information indicating a surrounding environment of the vehicle.

Methods, devices, and processor-readable media for hand-on-wheel gesture controls are described. A steering wheel is virtually segmented into a plurality of radial segments. Each segment is assigned a semantic meaning. Control commands related to control functions are mapped to different virtual segments of the steering wheel. When a user performs a gesture on the steering wheel, the system recognizes the gesture and selects a control function based on the location of the hand relative to the steering wheel. In various embodiments, on-wheel hand gestures, on-wheel hand location, and voice commands may be used in various combinations to enable a user to perform a wide selection of functions using a small number of unique commands.

A drive mode selector for a drivetrain of a vehicle, a vehicle comprising such a drive mode selector, and a method of selecting a drive mode of a drivetrain. The drive mode selector comprises a controller for receiving a selection signal from a gesture sensor, the selection signal being indicative of a drivetrain drive mode associated with an identified selection gesture made by a user. The controller is also for receiving a status signal indicating a status of at least one vehicle component. The controller is configured to cause the drivetrain to enter the drive mode indicated by the selection signal when the status signal indicates that the drive mode can be selected.

A driving system for an automated drive for a motor vehicle includes a steering wheel display with a lighting strip structure. The lighting strip structure of the steering wheel display is luminous in a defined lighting color for a duration which can be modified according to the actuation. The driving system is designed to control the steering wheel display such that the lighting strip structure is luminous in the lighting color over a starting length during the automated drive. Upon approaching an end of the automated drive lying ahead, the driving system determines that the vehicle has approached an end point of the automated drive lying ahead in such a manner that a specified approach condition has been satisfied. In response thereto, the steering wheel display is actuated such that the lighting strip structure is luminous in the lighting color with a successively decreasing length starting from the starting length as the distance to the end point of the automated drive decreases successively in order to prepare the driver to completely or at least partly take over control of the vehicle again.

A vehicle control device includes a steering wheel including an annular rim portion and a spoke portion that extends inward from the rim portion, an indicator that is disposed on the spoke portion and is able to be lit, and a controller that controls a lighting state of the indicator according to a state of driving assistance.