A method for providing one or more of a rear or a side view of a vehicle includes generating a video stream of images subsequently captured by at least one camera of the vehicle or of a virtual mirror device of the vehicle, processing the generated video stream, and displaying the generated video stream on at least one screen of a display unit of the vehicle or of the virtual mirror device.

A vehicle interior component includes a first surface, a second surface that is adjacent to the first surface, an edge disposed between the first surface and the second surface, and an operating element where an item of operating information can be input by the operating element. The operating element is disposed adjacent to the edge on the first surface and/or on the second surface and the operating element is nonvisible in an inoperative state and is visible in an operative state.

The techniques of this disclosure relate to a vehicle occupancy-monitoring system. The system includes a controller circuit that receives occupant data from an occupancy-monitoring sensor of a vehicle. The controller circuit determines an occupancy status of respective seats in a cabin of the vehicle based on the occupancy-monitoring sensor. The controller circuit indicates the occupancy status of the respective seats on a display located in a field of view of occupants of the vehicle. The display is integral to one of a roof light module, a door panel, or a headliner of the cabin. The system can improve passenger safety by alerting the operator and other occupants about the occupancy status of the passengers.

An opening switch for a vehicle having a decorative cover assembly, a sensor housing region, and a microelectromechanical (MEMS) sensor mounted in the sensor housing region. The decorative cover assembly has an inner surface, an outer surface, an anchor portion, and a deflection portion. When contact from a vehicle user occurs at the deflection portion in the decorative cover assembly, a microdeflection occurs. The microdeflection has a microdeflection apex, and the microdeflection apex is spaced from other surfaces in the sensor housing region when the contact from the user occurs at the deflection portion in the decorative cover assembly. The MEMS sensor is configured to generate an output signal that is indicative of a force of the contact from the user. The force integrated switch can include haptic feedback and/or backlighting.

A window frame element (30) for a vehicle (10), in particular a motor vehicle, said frame element being substantially horizontal and configured to extend, to the exterior of the vehicle, along a substantially horizontal edge of a window (20, 22) and in the extension of this window, this element comprising a body (32) configured to be carried by a support of the vehicle characterised in that it further comprises at least one screen (28) for displaying pixel information and a control and communication system (34), which is configured to receive first signals (36) and to transmit second signals (38) to said at least one screen (28), which is configured to display information in accordance with said second signals.

A method includes determining the position of the motor vehicle, identifying at least one object not relevant to road traffic as an object in the landscape in the surroundings of the motor vehicle, depending on the determined position, detecting at least the direction of view of a passenger as an occupant of the motor vehicle, and providing a display with information about the at least one object in the landscape viewed by the passenger, such that said information is provided in the direct field of view of the passenger, as defined by the direction of view of the same, in the same place as the object.

A modular display assembly that can easily be installed in a vehicle interior part. The modular display assembly includes a carrier panel having an outer frame and a recessed display region, a display panel situated in the recessed display region of the carrier panel, a diffuser layer that at least partially covers the recessed display region at a location spaced from the display panel to thereby create an optical transmission layer between the display panel and the diffuser layer, and a surface panel that at least partially covers the diffuser layer. The surface panel at least partially rests against the outer frame of the carrier panel.

Provided is a smart garnish installed on an automobile interior material (a door trim, an instrument panel, a console, or the like), and to a smart garnish for an automobile which is driven when a capacitance change is sensed by a pressed deformation of an upper case through a capacitive touch sensor pad formed of a ground (GND) and capacitive touch sensors corresponding to symbols and capacitive force sensors distributed corresponding to the ground and thus the touch and force of the desired symbol are sensed without noise.

A door interior trim, a transportation vehicle, and a door handle for a transportation vehicle. The door handle includes a handle piece, a display device arranged on the handle piece, and an actuating device arranged on an indicator device, wherein the display device visualizes different function buttons based on an operating state of the transportation vehicle.

An AV receives a delivery request made by a user. The AV navigates to the user's location. The AV's onboard controller determines that the AV has arrived at the location. The onboard controller then commands the AV's motor to pause motion. The onboard controller provides the user an access to a delivery assembly in the AV. The onboard controller or the delivery assembly detects, by using sensors in the delivery assembly, whether an item has been removed from or placed into the container. Subsequent to detecting that the item has been removed from or placed into the container, the onboard controller commands the AV's motor to resume motion. The onboard controller or delivery assembly may also control a movable element in the container to allow the user to load or unload the item from a safe spot or control a divider in the container to protect the user's privacy.