The invention relates to an arrangement (I) of a palm rest (IO) and a manually actuatable operating element (20) for a vehicle. The palm rest (IO) is designed to adopt a first and a second position relative to the operating element (20), the palm rest (IO) being positioned, in the first position, such that it enables a hand (2) to be supported while the operating element (20) is being operated. To protect against damage and to enable the vehicle interior to be better used, the palm rest (IO) is positioned, in the second position, such that the palm rest (IO) at least partially projects over and/or covers the operating element (20).

A backup camera system for monitoring an area around a vehicle. In one aspect, the system comprises a camera assembly, a display device and a stand for supporting the display device; the camera assembly comprising: (i) a camera adapted to produce an image signal corresponding to a perceived image, (ii) means for supplying power; (iii) a base having first and second holes that are configured and spaced from one another so as to facilitate attachment to the vehicle using the vehicle's license plate mounting bolts, (iv) a transmitter operably coupled to the camera for wirelessly transmitting the image signal; and the display device comprising: (i) a receiver for receiving the wirelessly transmitted image signal, (ii) means for supplying power, (iii) an image processing unit operably coupled to the receiver for converting the received image signal into a display image that is displayed on the display device, the display image corresponding to the perceived image. The backup camera system can form a retrofit kit.

The invention relates to an operating device for a vehicle, comprising a display with a touch-sensor system for inputting a command and additionally a retaining device which retains the display. The retaining device has a base face and a free area which is defined by support elements protruding from the base face. The operating device is additionally provided with at least one actuation sensor for detecting a bend of the display upon being manually actuated and an analysis unit which is connected to the touch sensor system and the at least one actuation sensor for analyzing the signals of the touch sensor system and the at least one actuation sensor.

According to an aspect of the present disclosure, an interaction system for a first vehicle is provided, which comprises a processor and a memory storing processor-executable instructions that, when executed by the processor, cause the latter to implement steps comprising: receiving a first input from the first vehicle and displaying a first avatar on a display; and receiving a second input from a second vehicle and displaying a second avatar on the display, wherein the first input and the second input are updated in real time, and the first avatar and the second avatar dynamically change accordingly.

A touch input device includes a touch unit to which a user can input a touch gesture, wherein the touch unit includes a gesture input unit positioned at a center of the touch unit and a swiping input unit inclined downward along an edge of the gesture input unit, and the gesture input unit and the swiping input unit receive separate touch signals.

A vehicle function operation apparatus according to one embodiment of the present invention includes a matching table configured to display an icon for each of various in-vehicle functions for each area, and a position variable knob dial electrically linked when coming into contact with the matching table to project a widget for each detailed function of the corresponding icon positioned on a contact area with the matching table.

A method for controlling vehicle operations based on user orientation and user interaction data is provided. The method includes detecting, using a sensor operating in conjunction with the computing device of the vehicle, an orientation of a part of a user relative to a location on a display that is positioned in an interior of the vehicle, detecting, using an additional sensor, an interaction between the user and a portion of the display positioned in the interior of the vehicle, determining, using the computing device, whether a distance between the location and the portion of the display satisfies a threshold, and controlling, by the computing device, an operation associated with the vehicle responsive to determining that the distance between the location and the portion of the display satisfies the threshold.

Techniques for interacting with authorized and unauthorized users by a door interface component are discussed herein. A vehicle computing device can implement the door interface component and/or an authentication component to control operation of a door of the vehicle or initiate a communication for assistance. For instance, the door interface component can include a button, that provides different visual indicators and functionality based on whether the user is authorized to enter the autonomous vehicle (e.g., open a door or provide visual indicators for the user to select to cause the door to open) or to request to move the vehicle, initiate hiring the vehicle, or call for help when the user is unauthorized to enter the autonomous vehicle.

A display device for an interior of a motor vehicle has an opaque decorative layer with a display side and a rear side. The opaque decorative layer has at least one opening which extends through the opaque decorative layer from the rear side as far as the display side and which is filled with a light-guiding filling material. At least one illumination source is arranged in the region of the rear side of the opaque decorative layer in such a way that the illumination source emits light through the opening with the light-guiding filling material from the display side of the opaque decorative layer into the interior.

An improved structure and tactile sensation providing apparatus are provided. A structure is configured to provide a tactile sensation. The structure comprises an abutment configured to abut an actuator that causes the structure to vibrate according to expansion and contraction displacement of a piezoelectric element. The abutment is non-adherent to the actuator.