Touch events can be detected using an ultrasound input device coupled to a surface, such as a surface of a piece of furniture or electronic device. The ultrasound input device can generate ultrasonic waves in the surface, the reflections of which can be measured by the ultrasound input device. When a touch is made to the surface (e.g., opposite the ultrasound input device), the physical contact can absorb some of the energy of the outgoing ultrasonic waves (e.g., the originally transmitted wave and any subsequent outgoing reflections). Energy measurements associated with the measured reflections can thus be used to identify touch events. Various techniques can be used to make the energy measurements and reduce identification of false touch events.

The invention relates to a method for detecting a user input for an input device having a plurality of switch elements, wherein a control action with a marking gesture and a selection gesture is detected. In doing so, at least one first and one additional switch element are marked sequentially in a specific sequence using the marking gesture, wherein initially the first switch element and then the at least one additional switch element is marked. Using the selection gesture, the marked switch elements are selected sequentially in reverse sequence. Depending on the selected switch elements, control signals are generated and output. The invention furthermore relates to an input device having a plurality of switch elements, a control unit and a detection unit by means of which a control action with a marking gesture and a selection gesture is detectable. In doing so, at least one first and one additional switch element are markable sequentially in a specific sequence using the marking gesture, wherein initially the first switch element and then the at least one additional switch element is markable. Depending on the selection gesture, the marked switch elements are sequentially selectable in the reverse sequence, and control signals can be generated and output depending on the selected switch elements.

A vehicle user interface apparatus for a vehicle including a light emitting unit configured to emit light; a touch sensor configured to sense a touch; a processor configured to control the light emitting unit to emit the light in response to an event, activate the touch sensor when the light is emitted, and provide a signal to control a vehicle device corresponding to a touch input received through the activated touch sensor; and a cover covering the light emitting unit, the touch sensor, and the processor, the cover configured to transmit the light into a passenger compartment with a specific shape when the light is emitted.

The present approach to the problem addressed by the invention relates to an operating device (100) for selecting at least one gear setting of a vehicle. The operating device (100) has at least one sensor (105) that has at least one touch-sensitive region and a deformable surface (110), which is configured to form at least one haptic operating element with the sensor (105) in a deformed state (115). The haptic operating element (120) is configured to output a selection signal for selecting the gear setting in response to touching the touch-sensitive region.

The present disclosure relates to a touch-sensitive input device, including: a support; a touch-sensitive input component mounted on the support by a first spring means to elastically return along a deflection direction and is oscillation-capable; an absorber body mounted on the support by a second spring means to be movable along the deflection direction in an elastically returning and oscillation-capable manner; an actuating mechanism acting on the absorber body and the input component, with at least one direction of action having a component of the direction of action parallel to the deflection direction to cause a movement of the input component for generating haptic feedback along the deflection direction and cause movement of the absorber body in the direction opposite the movement of the input component; a mechanical trimming device for changing an effective spring length of a spring of the first spring means or the second spring means.

A driving assist system includes a steering wheel contact position detector, a steering torque detector, and a driving mode setting calculator. The steering wheel contact position detector includes a plurality of contact sensors disposed in a segmented state on a circumference of a holding part provided on a steering wheel, and is configured to detect a position on the steering wheel at which a driver makes a contact with the steering wheel. The driving mode setting calculator is configured to set a driving mode on the basis of a driving condition. The driving mode setting calculator is configured to determine whether a steering torque detected by the steering torque detector is a steering override intended by the driver or is a false detection, on the basis of the steering torque detected by the steering torque detector and a position at which the contact is detected by the contact sensors.

A vehicle display control device, when a steering wheel is at a steering angle position of a neutral position or the vicinity thereof, if a right hand sensor detects gripping of the steering wheel, turns off light sources of memory buttons and operation buttons that can be operated with a right hand, and if a left hand sensor detects the gripping, turns off a light source of air conditioning related buttons and hides touch buttons of a touch panel display that can be operated with a left hand. The vehicle display control device, if the right hand sensor does not detect the gripping, turns on the light sources of the memory buttons and the operation buttons, and if the left hand sensor does not detect the gripping, turns on the light source of the air conditioning related buttons and displays the touch buttons on the touch panel display.

The vehicular display device includes: a touchscreen disposed substantially at a center position in a vehicle width direction in front of a cockpit of a vehicle; a reception section at least partially provided to the touchscreen and configured to receive operation input from a user; and a display control section configured to display, on a display screen of the touchscreen, a first screen corresponding to a first function and a second screen corresponding to a second function such that the first screen and the second screen are arrayed in a left-right direction, the display control section being configured to perform, in accordance with a predetermined first instruction operation received by the reception section, switching control in which a display position of the first screen and a display position of at least a part of display content on the second screen are switched in the display screen.

An operating element of a motor vehicle provided with a contact surface. The contact surface is provided with an element, controllable via actuators, that responds to the sense of touch of an operator, through which a feedback is provided to the operator about the currently engaged gear of the transmission of the motor vehicle.

An operating unit for an electrical apparatus is provided with a housing, an operating strip and a support element arranged in the housing. The operating strip is mounted on the support element about a tilt axis extending transversely to the longitudinal direction of the operating strip. The support element is tiltable parallel to the longitudinal direction of the operating strip. The support element is elastically prestressed, into a pivot position, which is detected by a pivot position sensor. Two tilt detection sensors detect a tilting of the operating strip about the tilt axis when it is actuated. The operating unit is provided with a controller for receiving signals and determining the operating field on which a finger is applied with an actuating force required for adopting the pivot position of the support element and triggering the function associated with the determined operating field.