A vehicle control device includes a communication unit configured to receive location information of a vehicle, a sensing unit, a display unit, and at least one processor that is configured to determine, based on the location information received by the communication unit, that the vehicle has entered an area within a predetermined distance from an intersection at which the vehicle changes a travel direction according to a preset route information. The at least one processor is further configured to detect an object located around the intersection through the sensing unit, and to control the display unit to output a route to an entrance of the intersection based on information related to the object located around the intersection.

A vehicle display control apparatus for controlling at least one display of a vehicle may include: a processor configured to: calculate a display control resource distribution ratio of the at least one display based on at least one of: an autonomous driving state of the vehicle, a gaze direction of a user, and a characteristic of content displayed by the at least one display, and control operation of the at least one display by allocating a control resource to each of the at least one display based on the calculated display control resource distribution ratio; and a storage configured to store the calculated display control resource distribution ratio.

A method of operating a display device for a motor vehicle having a plurality of display areas includes providing a plurality of non-contact input operations where a first non-contact input operation of a user is detected and verified by a second non-contact input operation of the user in order to select at least one display element on a first display area, and at least one third non-contact input operation of the user is detected.

A non-contact operating apparatus, for a vehicle, includes a generating unit, a projecting device, an operation detecting device, an operation determining unit, and a motion detecting device. The generating unit is configured to generate and update an image containing an image object. The image object is operable by an occupant present within a vehicle compartment. The projecting device is configured to project the image in a predetermined display region. The operation detecting device is configured to detect an operation site of the occupant. The motion detecting device is configured to detect motion of the vehicle. The operation determining unit is configured to adjust a detection result of the operation detecting device to suppress the motion of the occupant on the basis of a detection result of the motion detecting device, and determine presence or absence of the operation against the image object by the operation site.

A vehicle includes: a position-adjustable steering wheel, a position-adjustable driver's seat, a display extending on the dashboard from one side facing the driver's seat to another side in which a center fascia is disposed, at least one image sensor configured to capture a vehicle interior image to obtain the vehicle interior image, a storage configured to store driver's seat positioning information of the driver's seat and steering wheel positioning information of the steering wheel, and a controller configured to obtain eye position information indicating a position of each of eyes of the driver with respect to the steering wheel based on at least one of the driver's seat positioning information or the vehicle interior image, determine a covered area on the display, covered by the steering wheel, based on the eye position information and the steering wheel positioning information, and adjust an output position of an image output on the display based on the covered area.

A vehicle display configuration system and method employs a display, an eye tracker and a controller. The eye tracker is configured to track eye movement of a user viewing the display. The controller is configured to control the display to sequentially display sets of a plurality of images for comparison and selection by the user, to receive selection information representing a respective selected image from each of the sets being displayed on the display as selected by the user, to analyze eye tracker eye movement information received from the eye tracker representing eye movement of the user while the user is viewing each of the sets being displayed on the display, and to designate a vehicle display image based on the selection information and a result of the analysis of the eye movement information.

Embodiments of the present disclosure provide a method and an apparatus for adjusting on-vehicle projection, a device, and a storage medium. The method includes the following features. A face image of the driver captured by the on-vehicle imager is obtained. A projection position of an on-vehicle projection device is determined based on the face image of the driver, a parameter of the on-vehicle imager and an installation position of the on-vehicle projection device.

A projection control device includes a projection controller configured to control a projector of a head-up display device to project a display image such that a virtual image thereof is viewed in front of a viewer, a video data acquisition unit configured to acquire a captured video captured by an imager capable of capturing a video of the viewer, and a detection unit configured to detect a relative positional relationship of a pupil position of the viewer with respect to the virtual image, wherein the projection control unit is further configured to control the projector to project a reference position determination image on the viewer, and the detection unit is further configured to detect the relative positional relationship of the pupil position of the viewer with respect to the virtual image based on the captured video obtained by capturing the reference position determination video projected on the viewer.

An imaging unit captures an image of a visual field. A detector detects a position of an eyeball and a sight line of an occupant. A visual point identifier identifies a position of a visual point of the occupant in the visual field, the eye position and the sight line direction. A measuring unit measures a position and a distance of an object included in the image of the visual field. An image generator generates display images based on the eye position and the position and the distance of the object. The display images are displayed on a virtual plane, fused on a fusion plane and displayed as a three-dimensional display on the visual field. The display images are generated to display the three-dimensional image at a given magnification ratio calculated by reducing a geometric display magnification ratio as the distance from the occupant increases.

Embodiments of the present disclosure relate to a camera monitor system providing areas of importance to a driver, to a corresponding vehicle and to a method for operating such a camera monitor system comprising at least two separate cameras arranged to record camera views of the surrounding of the vehicle being different for each camera and at least one monitor with a monitor screen suitably arranged to provide the recorded camera views on the screen at least to the driver of the vehicle, wherein the provided camera views and/or an arrangement of the different recorded camera views on the monitor screen depend(s) on a status of the vehicle, wherein a control unit is adapted to observe the status of the vehicle and to alter the arrangement of the camera views provided on the screen in dependence on the observed status of the vehicle.