A display apparatus providing a virtual image to user is provided. The display apparatus may include a hologram optical element on a path of light emitted from a display panel. The display panel may emit light having different peak wavelength ranges. The reflection angle or the refraction angle recorded in the hologram optical element is different according to the peak wavelength range. Thus, the display apparatus may provide a plurality of virtual images having different focal lengths to the user without physical movement or mechanical operation of the display panel.

A vision system for a vehicle includes a forward viewing camera disposed at a mirror head of an interior rearview mirror assembly of the vehicle and having a forward field of view through the windshield of the vehicle. A sensor is disposed at the mirror head and determines a change in position of the mirror head relative to a mirror mount of the mirror assembly when the vehicle driver adjusts the mirror head. A control includes a processor operable to process image data captured by the forward viewing camera. Responsive to determination by the sensor of a change of position of the forward viewing camera relative to the mirror mount, the control selects an active sub-array of photosensors to provide an effective field of view of the forward viewing camera. The processor processes image data captured by the active sub-array of photosensors for a driver assistance system of the vehicle.

Static vehicle infotainment system method to capture and transmit vehicle route data for a defined geo-fenced area. Collects and transmits vehicle data to cloud server and maps geo-fenced area using GPS coordinates to produce report and vehicle route onto infotainment screen. Collective summery report and graphical display for all vehicles within a defined GPS Geo-Fenced area can also be displayed. Additional methodology includes GPS Proximity Based Advertising and Infotainment System Advertising. GPS Proximity Based Advertising defines radius around a GPS location, displaying advertisement when vehicle enters the radius. Infotainment System Advertising receives advertisement via software or firmware, onto the infotainment system memory. Additional methodology includes receiving and displaying emergency alert emanating from integrated public alert and warning system compliant common alert protocol alert origination tool onto static infotainment system, touchscreen, audio and video control module, vehicle radio or holographic touch interface to display an image, picture, video or hologram.

A vehicle includes a transmission, a hologram generator, and a controller. The transmission is configured to shift between a plurality of gears. The hologram generator is configured to project a holographic transmission gear selector. The controller is programmed to, responsive to an operator hand traversing a predetermined path relative to the holographic transmission gear selector, shift the transmission between the plurality of gears.

Disclosed herein are devices, methods and systems for producing hologram-based indicia for a vehicle dashboard/cockpit. By employing the aspects disclosed herein, indicia (electronically coupled to the vehicle's microprocessor), is lighted and projected in a three-dimensional virtual manner. The aspects disclosed herein may be embedded in various portions in the vehicle and thus, not consume extra space or area required to create virtual images through other techniques.

A display device is provided. The display device includes a plurality of diffractive optical elements each configured to emit light guided in a light guide plate to a user. Virtual images by the light are observed by the user at two or more different depths according to the plurality diffractive elements.

A display device includes a beam generator and a holographic optical waveguide. The beam generator includes a display and is configured to generate beams having image information displayed on the display. The holographic optical waveguide is configured to display an image of a second size at a position at a first distance behind the display device based on the beams having the image information, the second size is a multiple of the first size of the display, and the multiple is greater than 1.

Methods and systems are disclosed using a rotatable three-dimensional object providing visual user information on a display. For one example, a data processing system includes a display, a memory, and a processor. The memory stores one or more types of information related to a user. The processor is coupled to the display and memory, and is configured to generate a rotatable three-dimensional object visually representing one or more types of user information on the display. For one example, the display can be a coast-to-coast display for an electric or non-electric vehicle. The coast-to-coast display can include a plurality of display areas and the rotatable three-dimensional object is displayed in at least one of the display areas. The rotatable three-dimensional object can be a polyhedron including a plurality of faces wherein each type of user information corresponds to a face of the polyhedron. Each face of the polyhedron can correspond to a type of user information and includes a plurality of dots connected by lines defining the face. Each dot of each face that corresponds to a type of user information represents a data point or a parameter of the corresponding type of user information.

Man-machine interface for motor vehicle comprising a display screen (6) and a control means on which the user of the vehicle can act in order to alter a parameter of the vehicle, characterized in that it also comprises displaying means (16) and a laser projector (14), the displaying means being designed to receive an image from the laser projector and to display it on the display screen.

A vehicle may have a head-up display that produces a display output allowing a viewer in the vehicle to observe two-dimensional or three-dimensional content. The head-up display may include a display unit that produces the display output and an optical combiner on a vehicle window that directs the display output towards the viewer. The optical combiner may be a holographic or diffractive optical element or may be an array of angled reflectors such as micromirrors embedded in an index-matching material. Optical combiners formed from holographic elements may be configured to reflect light at an angle of reflection that is different than the angle of incidence, thereby allowing light to reach a viewer's eyes even when the head-up display reflects light off of a side window on a vehicle door. A holographic optical element may include volume holographic media such as photopolymers or holographic polymer dispersed liquid crystal.