A driving system is operatable at least in a first automated driving mode with automated longitudinal and/or lateral control, and in a different second automated driving mode with automated longitudinal and/or lateral control. The driving system has a steering wheel display with luminous elements for illuminating the steering wheel, which can be operated in different illumination states that are distinguishable by the driver. The luminous elements may illuminate the steering wheel rim, and are typically integrated into the steering wheel rim. The driving system specifies which illumination state of the different illumination states the steering wheel display has. The driving system specifies that, during operation of the driving system in the first driving mode, the steering wheel display is illuminated in a first illumination state. During operation of the driving system in the second driving mode, the steering wheel display is illuminated in a second illumination state that can be distinguished from the first illumination state by the driver.

In a driving support device, an image output unit outputs an image including a vehicle object representing a vehicle and a peripheral situation of the vehicle, to a display unit. An operation signal input unit receives a gesture operation by a user that involves moving of the vehicle object in the image displayed on the display unit. A command output unit outputs a command according to the gesture operation, to an automatic driving control unit that controls automatic driving.

A vehicle-mounted display device includes an imaging unit, a traveling state determination unit, a hue discriminator, a color difference correction unit, and a display. The imaging unit captures an image of a surrounding of a vehicle. The traveling state determination unit determines whether the vehicle is traveling in a tunnel. The hue discriminator discriminates a hue of the image when the traveling state determination unit determines that the vehicle is traveling in a tunnel. The color difference correction unit corrects color difference information about the image in accordance with a discrimination result of the hue discriminator. The display displays the image corrected by the color difference correction unit.

A window for a motor vehicle includes an inner glass pane, an outer glass pane, and a first display module having a first light source, a first light guide disposed between the inner glass pane and the outer glass pane and configured to receive light from the first light source, a second light source, and a second light guide disposed between the inner glass pane and the outer glass pane and configured to receive light from the second light source. When the first light source is activated a first signal is displayed through the first light guide, when the second light source is activated a second signal is displayed through the second light guide, and when the first light source and the second light source are activated a third signal is displayed through the first light guide and the second light guide.

Disclosed are methods and systems for adjusting pixels of a display screen in a vehicle. The methods and systems may include determining a position of the sun relative to a position of the vehicle, determining potential incident light rays from the sun striking the display screen based on the position of the sun, and adjusting one or more characteristics of one or more of the pixels of the display screen based on the potential incident light rays.

An information provision system mounted on a vehicle includes: a visual device configured to visually provide information to an occupant of the vehicle; and a controller configured to control the visual device. The controller is further configured to: cause the visual device to provide first information in a first period; cause the visual device to provide second information different from the first information in a second period later than the first period; and set at least one of a luminance and a saturation of the visual device in at least a part of an information switching period between the first period and the the second period to be lower than that in the first period and the second period.

A display control device installed in a vehicle and forming an AR image corresponding to a display target object at a position in front of the vehicle in a hypothetical display area set in front of the vehicle. The display control device causes the AR image to disappear from the hypothetical display area while being faded out when a first specific condition has been satisfied after the AR image was formed.

A display control device installed to a vehicle that, while inter-vehicle distance control is being executed to maintain an inter-vehicle distance from a lead vehicle traveling on a road, forms an AR image corresponding to the lead vehicle in a hypothetical display area set ahead of a vehicle traveling on the road. The display control device acquires curvature information related to curvature of an extension direction of an area on the road between the vehicle and the lead vehicle, and forms the AR image in the hypothetical display area with a shape changed to match a curvature represented by the curvature information.

To reduce the effects of traffic jams, a traffic reduction system identifies road segments having more a threshold amount of traffic. The traffic reduction system also receives an indication of a current location of a client device operating in a vehicle and compares the current location to the locations of the identified road segments to determine whether the vehicle is on or approaching the road segment. If the vehicle is on or approaching the road segment, the traffic reduction system determines a target speed for the vehicle to maintain an equal distance between the vehicle and the vehicle in front of the vehicle and the vehicle and the vehicle behind the vehicle. The traffic reduction system then provides the target speed to the client device for display on a user interface. By maintaining equal distances between vehicles in front of and behind each other, the amount of traffic dissipates.

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.