A method for displaying a trajectory course in front of a transportation vehicle or object. The trajectory course is shown on a display unit and is represented in grid format. The points of the grid are represented by symbols, wherein only the border thereof or the completely filled-in symbols are represented based on the environmental features. The size and/or color of the symbols is adjustable.

A method is intended to assist the driver of a vehicle (VA) capable of being driven in an automated manner and in a manual manner, by means of a steering wheel (VV), in a traffic lane (VC1). This method comprises a step that involves determining an optimum trajectory of the vehicle (VA) in the event of automated driving, an actual current trajectory of the vehicle (VA) in the traffic lane (VC1), and a value of a parameter representative of a manual intervention being carried out by the driver on the steering wheel (VV), and representing these determined optimum and actual current trajectories on a medium (EA) with an aspect that depends on this determined value of the parameter.

Herein is disclosed a virtual embodiment display system comprising one or more image sensors, configured to receive one or more images of a vehicle occupant; one or more processors, configured to determine a gaze direction of the vehicle occupant from the one or more images; select a display location corresponding to the determined gaze direction; and control an image display device to display a virtual embodiment of an intelligent agent at the display location; the image display device, configured to display the virtual embodiment of the intelligent agent at the selected display location according to the one or more processors.

An apparatus for an autonomous vehicle may include a controller. The controller may monitor one or more components or systems of the autonomous vehicle. The controller may determine a fault condition of the autonomous vehicle, such as for a component or a system of the autonomous vehicle. The apparatus may include a human-machine interface for a user, such as an occupant of the autonomous vehicle. The apparatus may communicate, via the human-machine interface, an alert based on the fault condition. This may be in accordance with a profile associated with the user.

The notification system of a vehicle of the present disclosure includes a communication device, a millimeter wave radar device, an imaging device, an ACCECU, and a notification device. The imaging device is configured to acquire surrounding information of the vehicle. The ACCECU is configured to set priority of a plurality of items of notification information based on the surrounding information of the vehicle. The notification device is configured to notify a notification target person of the plurality of items of notification information based on the priority set by the ACCECU.

An information provision device and an information provision method. Each of the information provision device and information provision method includes projecting an image light to a light transmission member so as to display a for-driver information image, sensing a relative distance of an object to be detected existing around the mobile object in the direction of travel, detecting a location of a viewpoint of the driver, and changing a position at which an object image indicating the object to be detected is displayed according to a result of the detecting so as to change a perception distance of the driver influenced by a motion parallax of the object image according to the relative distance of the object to be detected in the direction of travel.

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.

A method includes detecting, with a sensor, a gaze of an occupant of a vehicle. The gaze is directed to at least one vehicle displays. The method also includes determining, with a controller circuit in communication with the sensor, whether one or more features presented on the at vehicle displays are partially obstructed from a view of the occupant. When the one or more features presented on vehicle displays are partially obstructed from the view of the occupant, the controller circuit adjusts a presentation of at least one partially obstructed features to be viewable by the occupant.

A system for directing content among a plurality of displays. The content may be selected by a user or may be determined by an event, such as a user-interactive input or an input initiated by an event associated with a vehicle system. The input command causes selected content to be moved from a first display to a second display. The input command causes articulation of the second display in order to display the selected content The input command may come from a portable device, or a user interactive command such as a voice command, a visual command such as a gesture, or a touch command. The input command may also come from a vehicle system, such as a navigation system, an infotainment system, a climate control system to name a few.

A display unit of the present invention includes a first display (head-up display) for displaying various information by irradiating a surface to be irradiated with video light and a control part for controlling the first display. The control part controls to display information on an inter-vehicle distance (bar graph), information on an inter-intersection (digital numerical value), an intersection image, and an arrow.