The disclosure related to a system to support handling of an object located within a passenger interior of a motor vehicle and not connected to the motor vehicle. The system has a sensor unit to detect a distance of the object to a storage area available within the passenger interior. An evaluation unit receives and processes sensor signals generated by the sensor unit. A signaling unit that can be controlled using the evaluation unit to emit optic, acoustic and/or haptic signals within the passenger interior to determine if a hand of the driver moves towards the storage area and activate the signaling unit if the hand moves towards the storage area and if the hand is located, for a predetermined period of time, within the storage area of a predetermined size.

An information presenting device is mounted in an autonomous vehicle in which an action candidate for the vehicle to take is settable based on selection from presented selection information made by an occupant. The information presenting device sets the action candidate for the autonomous vehicle to take, calculates a selection margin time from a current time point to a time point at which the occupant should complete the selection from the selection information, sets the selection information based on the action candidate depending on the selection margin time, and presents the set selection information to the occupant.

According to the disclosure, a method is made available to reduce a time duration for an adaption of eyes of a driver of a motor vehicle when changing from events occurring in front of the motor vehicle to a screen arranged in a driver's compartment of the motor vehicle. In particular, the method according to the disclosure also makes a reduction available in the time period for the adaption of the eyes of the driver in the opposite direction.

A method and apparatus for imaging occupants are provided. The apparatus includes a reflective surface; an imaging sensor configured to capture an image of the reflective surface; and a controller configured to process the captured image and control to perform a function based on the captured image. The method and apparatus may be implemented in a vehicle to detect occupant movement and behavior.

In one embodiment, a vehicle mirror includes an on-board diagnostics (OBD) transceiver and one or more processors. The processors access OBD data received by the OBD transceiver from an OBD port of a vehicle. The processors further determine, from the OBD data, a vehicle type, a change in voltage of the vehicle's battery, and a secondary vehicle factor. When the vehicle is determined to be a combustion engine vehicle, the processors transition the vehicle mirror from a sleep power state to an awake power state when the change in voltage is greater than a predetermined amount and the secondary factor of the vehicle is greater than a predetermined threshold. When the vehicle is determined to be an electric vehicle, the processors transition the vehicle mirror from the sleep power state to the awake power state when any activity is detected in the OBD data and the secondary factor of the vehicle is greater than the predetermined threshold.

In one embodiment, a vehicle mirror includes an on-board diagnostics (OBD) transceiver and one or more processors. The processors access OBD data received by the OBD transceiver from an OBD port of a vehicle. The processors further monitor the OBD data to determine whether communications with the OBD port have been lost, determine an OBD speed of the vehicle, and determine an RPM of an engine of the vehicle. The processors further determine a GPS speed of the vehicle from a GPS transceiver. When communications with the OBD port are lost, the processors transition the vehicle mirror to a sleep power state. When communications with the OBD port have not been lost, the processors transition the vehicle mirror to the sleep power state when the OBD speed is determined to be zero for at least a first predetermined amount of time and the RPM of the engine is determined to be less than a threshold RPM amount.

In one embodiment, a vehicle mirror includes a heads-up display (HUD) projector, an on-board diagnostics (OBD) transceiver, and one or more processors. The processors access OBD data received by the OBD transceiver from an OBD port of a vehicle. The processors further determine an identification of the vehicle from the accessed OBD data and determine one or more calibration parameters for the HUD projector based on the determined identification of the vehicle. The one or more calibration parameters are operable to position a displayed image from the HUD projector onto a HUD reflector within a line-of-sight of a driver of the vehicle. The processors further send one or more instructions based on the one or more calibration parameters to the HUD projector.

An automated motor vehicle that has a sensor device which continuously determines a viewing direction of a person sitting on a driver's seat, and a control device connected to the sensor device. The control device determines a frequency of a change in the viewing direction on the basis of the viewing direction determined by the sensor device, compares the frequency with a predetermined limit value, and if the frequency is greater than the predetermined limit value, outputs a control signal to an information output device connected to the control device. The information output device outputs a predetermined item of information to the person sitting on the driver's seat after receiving the control signal.

A display device for a vehicle includes a display panel, a control circuitry, and a supporting arrangement. The display panel displays a graphic display object and the control circuitry enables the displaying of the graphic display object, such that the information represented by the graphic display object is displayed based on a predefined physical environment condition. The supporting arrangement supports the display panel which is adjustable between a first position and a second position. In the first position, the graphic display object is visually accessible to a user inside the vehicle and in the second position, the graphic display object is visually accessible to at least one person outside the vehicle.

A projection system for a vehicle, especially a working vehicle, is disclosed. The projection system includes a switchable foil or film on or in at least parts of a window of the vehicle, wherein a degree of transparency of the switchable foil or film is controllable by an applied voltage; at least one projector, which is able and arranged to display information on the switchable foil or film; and a controller, which is able and adapted to control the degree of transparency and to control the at least one projector.