When an ignition switch has been turned off, an accessory switch has been turned off, and a door has been opened (100, 102), a message is displayed in a monitor on an opposite side to a side that the door has been opened (112). In addition, when it has been detected that a key has been shut in or that it has been forgotten to close a window (104), there is performed a warning display that displays a warning in a monitor on an opposite side to a door where a door locking operation has been performed (110). Moreover, when there has been detected a smart key carried by an occupant on a vehicle outside after getting out of a vehicle (118), a message is displayed in a monitor on an opposite side to a key detection direction (120).

A passenger communication lighting display on or adjacent a touch bar on a passenger door of a transit vehicle comprises a display that can be controlled to display multiple colors continuous or blinking, and a control means causing the display to be dark when the door is closed, the display to be a first color when the operator has authorized opening, the display to flash a second color when the passenger has requested the door be opened, the display to be blinking the second color when the door is opening, the display to be continuously the second color when the door is resting in the open position, and the display to be blinking a third color while the door is closing.

The technology involves an in-vehicle communication system with a console that is positioned within the cabin of the vehicle, for instance between the front seats so that passengers in the second row can view and access it. The console is configured to provide contextual information to passengers. The console includes a monitor assembly that has a display screen and a notification region. The notification region includes one or more displayable icons and at least one receptacle for a communication device of a passenger. The notification region has a first section comprising an outer cover layer with a first series of masking, diffuser and illuminating layers to selectively illuminate the one or more displayable icons. The notification region has a second section comprising the outer cover layer with a second series of masking, diffuser and illuminating layers to selectively illuminate the at least one receptacle for the communication device.

A driving information display apparatus acquires driving information that is to be displayed to a driver of a vehicle along with driving of the vehicle, and outputs the acquired driving information to a display. Further, extra information to be displayed in addition to the driving information, and risk level information about a level of risk involved in the driving of the vehicle are acquired. When outputting the extra information to the display, a display time of displaying the extra information is set based on the risk level information and outputting of the extra information is controlled based on the set display time.

One or more embodiments of techniques or systems for privacy management are provided herein. In one or more embodiments, privacy management may be provided by adjusting the way a system provides notifications, handles communications, or executes applications based on the presence or positioning of one or more occupants within a vehicle. In other words, a vehicle may provide notifications in a first manner when merely a driver is present but provide notifications in a second manner (e.g., different than the first manner) when an additional occupant is detected. Sensors may be utilized to detect the presence or positioning of occupants and communications or applications may be managed accordingly. In this manner, privacy management is provided, thus enhancing security of applications or communications utilized by occupants of a vehicle, such as a driver, for example.

A display assembly includes a display console displaying at least one image on an image plane. The image is divided into a plurality of pixels. A controller is operatively connected to the display console and includes a processor and tangible, non-transitory memory on which is recorded instructions for executing a method for dynamically adjusting the image in real-time for off-axis viewing. The controller is programmed to generate a compensation-over-viewing-angle map which includes respective compensation factors for each of the plurality of pixels for multiple viewing positions. In one embodiment, the controller is programmed to apply separate respective compensation factors for the instantaneous viewing positions of a first user at a time j and a second user at a time k. In another embodiment, the controller is programmed to apply first and second compensation factors simultaneously at a time m, for a first image and a second image, respectively.

A determination is made as to whether a driver or a front-seat passenger of the motor vehicle would like to operate a display device. If it is detected that only the driver would like to operate the display device, the display device is put in a first operating mode in which a graphic user interface is displayed exclusively in a driver-side display region of the display device. If it is detected that only the front-seat passenger of the motor vehicle would like to operate the display device, the display device is put in a second operating mode in which the graphic user interface is displayed exclusively in a front-seat-passenger-side display region of the display device. If it is detected that the driver and the front-seat passenger of the motor vehicle both would like to operate the display device, the display device is put in a third operating mode in which the graphic user interface is displayed in the driver-side display region and at least part of the graphic user interface is additionally also displayed in the front-seat-passenger-side display region.

A vehicle display assembly includes a three-dimensional (3D) display, and an actuator coupled to the 3D display. The actuator is configured to adjust an orientation of the 3D display relative to a vehicle occupant. The vehicle display assembly also includes a sensor assembly configured to monitor a position of a head of the vehicle occupant, and a controller communicatively coupled to the sensor assembly and to the actuator. The controller is configured to instruct the actuator to adjust the orientation of the 3D display based on the position of the head of the vehicle occupant.

Described herein are various embodiments for using a touch screen with polar coordinates thereon to control the movements of seats in a vehicle. An exemplary method of adjusting seats in a vehicle includes the operations of detecting a touching on a circumference of a circular graphic on a touch screen in a vehicle, wherein the circular graphic is in a polar coordinate system on the touch screen; and determining a polar angle formed by a point of the touching on the circumference of the circular graphic in the polar coordinate system. The method further includes the operations of calculating a first value and a second value associated with the polar angle, each of the first value and the second value representing a movement range in a direction; and adjusting a vehicle seat based on the first value and the second value, including simultaneously moving the vehicle seat in in a first direction indicated by the first value and a second direction indicated by the second value.

A switchable backlight for a switchable privacy display apparatus comprises a collimated waveguide, first and second light sources and an optical turning film comprising elongate prismatic elements with facet orientations that pupillate the output of the waveguide in two orthogonal directions for each of first and second light sources. High luminance uniformity is achieved for a head-on user in privacy and public viewing modes and high uniformity of security factor is achieved for off-axis snoopers, with increased speed of privacy switch-on in privacy mode.