An electric vehicle (EV) can include a VIC in operable communication with the EV main computer and the EV infotainment system. The VIC can include a processor, a memory in operable communication with the processor, and a computer-readable medium in operable communication with the processor and having software, such as a hypervisor, stored thereon. The VIC can be configured to have internet connectivity.

A device and method for adapting the content of a status bar to a screen. The method includes activation of an input element with respect to the status bar, reception of user input, and adaptation of the contents of the status bar in which additional information is displayed.

A method for the contactless shifting of visual information includes detecting at least one viewing direction to detect visual information in a first display area, and a movement of a hand and/or a movement of a head of a user toward a second display area. After the detection of the visual information in the first display area, and after the detected motion indicating a shift, the visual information is shown in the second display area upon the completion of the pivoting movement or movements.

A user interface apparatus includes a first user interface configured to display host information; and a second user interface configured to display guest information, and to transmit the guest information to the first user interface if a linking signal for the guest information is received, wherein the first user interface displays the guest information by changing the host information to the guest information. Therefore, by integrating a cluster which is a first user interface with a center fascia which is a second user interface to implement a large area screen, and linking information between the cluster and the center fascia, it is possible to reduce attention dispersion during driving, to improve a driver's recognition rate, and to improve a driver's convenience.

A position of a virtual image corresponding to a display image in a view outside a vehicle is adjusted by adjustment of the display image. An adjustment device includes an adjustment unit for performing adjustment of the display image depending on operation input to an operation input device in a state where reference light, serving as a reference for the position of the virtual image, is emitted to a road surface, and an adjustment condition determining unit for detecting an adjustable distance range, in which the adjustment can be performed, in an adjustment target distance range set to be subjected to the adjustment, in which the adjustment unit performs the adjustment of the display image corresponding to the virtual image in the adjustable distance range in a state where the reference light is emitted to a road surface in the adjustable distance range.

A system or method for reconfiguring (dynamically) a vehicle display may comprise: a Graphical User Interface (GUI) including a first display area; an input gesture area of the first display area; a HUD unit; a non-transitory computer readable medium having instructions stored thereon that, when executed by a processor, configure the system to: (1) display, at a first time, a configuration area to a portion of the GUI, wherein the configuration area includes at least one of a vehicle dash information, readouts, instruments, indicators, or controls arranged as a visual representation of a virtual dash display for the HUD unit; (2) receive a gesture input at the GUI, wherein the gesture input corresponds to an instruction to reconfigure at least one of a layout, size, position, features, instruments, indicators, color schemes, or controls for display on at least one of an above a vehicle dash by the HUD unit, a reconfigurable dash display, a reconfigurable console display, or a reconfigurable user device display; and wherein the gesture input is at least one of hand gesture or touch gesture received through at least one of a gesture capture region or image capture disposed on at least one of a dash, console, dash display, or console display.

The disclosure specifies a display device for a motor vehicle. The display device has a memory unit that stores visual requirements of vehicle occupants, an identification component that identifies a vehicle occupant, a processing unit that is designed to assign the visual requirements to an identified vehicle occupant and transfer the assigned visual requirements to a display. The display is individually adjustable to visual requirements of a vehicle occupant.

Designed system is a software and hardware system to be used as a vehicle dashboard. The system is connected to the vehicle to read the vehicle data. The system has a monitor to render the vehicle data. The system replaces vehicle's instrument cluster installing a monitor facing driver. The system allows user to change appearance of data on it by configuring widgets. User can define a widget data, layout, scripts and custom media using all possible data taken from the vehicle. The media could be user's custom pictures, sound recordings, video, etc. The system makes instrument cluster (aka combination meter) highly customizable. User can make their own appearance and look for the vehicle's data by selecting the vehicle data, widget, layout scripts and media to show it on vehicle instrument cluster platform.

Embodiments of the present invention provide a human-machine interface (HMI) for a vehicle, comprising an output means (40, 50) for outputting information, passenger monitoring means (20) for determining a status of at least one passenger within the vehicle and to outputting a passenger status signal indicative thereof, control means (10) for determining an operating state of one or more systems of the vehicle, wherein the control means (10) is arranged to receive the passenger status signal, and wherein the control means (10) is arranged to compose an output from the output means (40, 50) in dependence on the operating state of the one or more systems and the passenger status signal.

A notification control system (NCS) is configured to coordinate the delivery of notifications issued from a set of devices to the driver of a vehicle. The NCS registers all interactive devices residing in a vehicle and causes those devices to conform to specific directives generated by the NCS. The NCS analyzes and predicts the cognitive and emotional load on the driver and also estimates the cognitive and emotional impact on the driver potentially caused by any incoming notifications. The NCS then coordinates the delivery of notifications to the driver in a manner that avoids overwhelming the cognitive and/or emotional capacity of the driver. Accordingly, the NCS may avoid situations where device notifications cause the driver to unsafely divert attention away from driving.