Capacitive sensor includes sensor electrode, sensor circuit that is electrically connected to sensor electrode measures capacitance of sensor electrode, first impedance element, noise detection circuit that is electrically connected to sensor electrode through first impedance element and measures noise, and control circuit that switches between on and off of each of sensor circuit and noise detection circuit. Control circuit causes sensor circuit to measure the capacitance of sensor electrode by turning on sensor circuit and by turning off noise detection circuit and control circuit causes noise detection circuit to measure the noise by turning off sensor circuit and by turning on noise detection circuit.

A steering wheel assembly includes a steering rim and a steering housing connected to the steering rim. The steering wheel assembly also includes at least one pressure sensitive component disposed within the steering housing. The at least one pressure sensitive component generates electric signals in response to force applied on the steering housing. The at least one pressure sensitive component may include any one of at least one piezoelectric switch, a piezoelectric sensor, and a capacitive array. Further, at least one pressure sensitive component may provide a haptic feedback. Additionally, a Printed Circuit Board (PCB) disposed within the steering housing is electrically connected to the at least one pressure sensitive component. The PCB includes a controller that determines a user input or a gesture made by a user on the steering housing based on the electric signals received from the at least one pressure sensitive component.

An interactive user interface for a steering wheel is provided. A user interface is provided on one or more portions of the steering wheel. The user interface recognizes gesture movements made by a user thereon. The user interface allows navigation of a set of controls associated with a menu provided through the user interface based on the recognized gesture movements.

A steering system for an autonomous vehicle includes an autonomous driving assist steering system for controlling steering of the autonomous vehicle in a primary steering mode. Also included is an alternate steering mechanism controlling steering of the autonomous vehicle in a secondary steering mode, wherein the alternate steering mechanism is not a steering wheel.

A computer is programmed to, upon determining that a vehicle entered an autonomous-steering mode, deactivate a plurality of lights on a steering-wheel rim; and upon initiating a transition of the vehicle from the autonomous-steering mode to a manual-steering mode, illuminate at least one of the lights that is at a steering-wheel angle corresponding to a current steering angle of the vehicle.

A drive assist device includes a determiner and a display controller. The determiner determines a parameter related to a current driving state of a vehicle. The display controller controls display of a display object that moves in response to operation of a steering wheel, and controls a movement of the display object with respect to a movement of the steering wheel, in accordance with a magnitude of the parameter.

A driving system is operatable at least in a first automated driving mode with automated longitudinal and/or lateral control, and in a different second automated driving mode with automated longitudinal and/or lateral control. The driving system has a steering wheel display with luminous elements for illuminating the steering wheel, which can be operated in different illumination states that are distinguishable by the driver. The luminous elements may illuminate the steering wheel rim, and are typically integrated into the steering wheel rim. The driving system specifies which illumination state of the different illumination states the steering wheel display has. The driving system specifies that, during operation of the driving system in the first driving mode, the steering wheel display is illuminated in a first illumination state. During operation of the driving system in the second driving mode, the steering wheel display is illuminated in a second illumination state that can be distinguished from the first illumination state by the driver.

Various implementations include an occupant monitoring system (OMS) for monitoring at least one occupant in a vehicle. The OMS includes a mounting bracket coupled to a rotatable portion of a steering wheel assembly, a housing coupled to the mounting bracket, at least one imaging unit disposed within the housing, and at least one lens disposed adjacent the housing and imaging unit and facing an expected position of at least one vehicle occupant and configured for allowing light to pass through to the imaging unit. The mounting bracket extends upwardly from the steering wheel assembly adjacent a central portion thereof. The housing has a back surface that is disposed adjacent a back cover of the steering wheel assembly. The imaging unit has a field of view inside of the vehicle and is configured to capture an image signal corresponding to an imaging area within the field of view.

A control interface with haptic feedback for a motor vehicle to take into account an action of a user by providing the user with a haptic feedback. The control unit includes a magnetorheological fluid module that has a rotary element which rotates about an axis of the magnetorheological fluid module, said rotary element being in contact with magnetorheological fluid and designed to be coupled to a grip element, and an application unit for applying a magnetic field to the magnetorheological fluid, designed to modify the strength of the magnetic field. The control interface also includes a control unit having a fixed tactile surface arranged at the centre of the grip element.

A motor vehicle control system that includes a first user-operable transmission selector for selecting a transmission operating mode and a user-operable gear selector, such as paddle input controls. The gear selector is operable in a first functional mode to select between a plurality of forward direction gear ratios. The gear selector is also operable in a second functional mode to select between a forward direction and reverse direction. This allows a user to use the gear selector to control travel in forward and reverse directions.