Systems and methods of an intuitive two-dimensional warning indicator are provided. Various embodiments include a warning indicator for mounting on an instrument panel of a vehicle. The warning indicator may include a plurality of illumination bars defining a polygonal shape representing a two-dimensional layout of the vehicle's surroundings. The warning indicator may be configured to illuminate at least one illumination bar of the plurality of illumination bars based on a warning issued by a vehicle system of the vehicle. The driver may be able to see the warning indicator in his/her peripheral vision while looking forward while driving. Associated vehicles including the warning indicator are provided. Associated methods are also provided.

An electronic device including a display device is provided. The display device includes a sharing area, a junction area, and a privacy area. The junction area is positioned between the sharing area and the privacy area. The display device includes a privacy panel. A transmittance of the privacy panel corresponding to the sharing area is greater than a transmittance of the privacy panel corresponding to the junction area, and the transmittance of the privacy panel corresponding to the junction area is greater than a transmittance of the privacy panel corresponding to the privacy area.

A control system is for a motor vehicle to be driven according to a manual mode or according to various levels of driving automation by an automated driving module. The control system includes a driving assistance device and a steering control member. The steering control member includes at least one indicator light and the driving assistance device changes the status of the at least one indicator light when the driving assistance device determines an available level of driving automation, detects an active level of driving automation, determines as a function of the road configuration that the motor vehicle should be driven by the driver, and detects a switch between a level of driving automation and the manual mode.

An electronic device, in disclosed embodiments, includes an antenna, transceiver circuitry coupled to the antenna, a memory configured to store a first operation key and instructions, and a processor coupled to the transceiver and to the memory. The processor is configured to execute the instructions stored in the memory to cause the electronic device to, in response to receiving a first transmission containing an encrypted version of a second operation key that is encrypted by the first operation key, decrypt the encrypted version of the second operation key using the first operation key to recover the second operation key, store the second operation key in the memory, transmitting, by a transmitter of the electronic device, a second transmission that contains the first operation key and a command.

Systems and methods for improving the brightness of a transparent display are disclosed herein. One embodiment collects ambient light using an array of Fresnel lenses disposed on an external surface of a vehicle; collects internal light from the vehicle's headlights; filters the ambient light and the internal light to produce filtered ambient light and filtered internal light; generates primary-source light using a light-emitting-diode (LED) light source; and injects, into a transparent edge-lit liquid crystal waveguide display deployed in at least a portion of a window of the vehicle, the primary-source light, the filtered ambient light, and the filtered internal light in a color-synchronized manner. The filtered ambient light and the filtered internal light improve the brightness of the transparent edge-lit liquid crystal waveguide display.

A head-up display for displaying graphics upon a windscreen of a vehicle includes a graphic projection module for generating images upon the windscreen of the vehicle, a user input device for receiving user-generated commands created by a user of the vehicle, and one or more controllers in electronic communication with the graphic projection module and the user input device. The controller executes instructions to instruct the graphic projection module to generate a luminance adjustment graphic, where the luminance adjustment graphic includes an adaptive color palette graphic including two or more colors. The controller receives, from the user input device, a user-generated luminance input indicating a change in a level of luminance in a selected color, where the change in the level of luminance in the selected color is selected by the user to discern differences between the two or more colors caused by a color vision deficiency.

A vehicle display device includes a conversion block that converts, based on correction data stored in a memory, an imaging pixel value in a camera image acquired by an outside camera into a correction pixel value in accordance with outside brightness detected by a brightness sensor, and a display control block that controls a light source luminance value of the head-up display in correspondence with the correction pixel value converted from the imaging pixel value by the conversion block.

A vehicle display control device, which adjusts a brightness of a display image as a display image brightness of a head-up display that superimposes and displays the display image as a virtual image over a foreground scenery of the vehicle by projecting the display image onto a projection member, includes: a visual line position specifying unit that specifies a visual line position of the driver of the vehicle; and a display control unit that adjusts the display image brightness according to the brightness in a set range of the foreground scenery with respect to the visual line position as a reference point.

It is aimed to provide a system for alerting a driver of a driver cabin of a motor vehicle, said system comprising: a plurality of light sources arranged in array to project a signal light against the windshield and/or side window, provided in the driver cabin along a horizontal contour of windshield and side windows, outside a line of sight of the driver, and arranged to show a mirror image of the light source in the windshield or side window, visible to the driver; a tracking controller, arranged to identify one or more objects to be tracked in the perimeter of the motor vehicle; a control system, coupled to the tracking controller for activating a number of light sources of the plurality of light sources, arranged to project a signal light indicative of said tracked object substantially centered along a virtual line of sight from the driver towards the identified object.

A system having an extended display surface that includes a main display surface, associated with at least one screen, and at least one peripheral display surface, associated with a peripheral display element, extending around at least part of the main display surface, and one or more backlighting units configured to illuminate these display surfaces. After receiving a plurality of digital images each represented by an image data array, the system performs an extraction from the image data array, of a main image data array of dimensions equal to the dimensions of the screen, and an extraction or generation of at least one complementary image data subarray, and a control of displaying the main image data array on the screen and controlling the backlighting units to perform a display of each complementary image data subarray on the corresponding peripheral display element.