A parking action notification device includes an information notification unit configured to give a notice of information to an exterior of a vehicle. The information notification unit displays parking information to the exterior of the vehicle, the parking information being relevant to a parking action of the vehicle when the vehicle performs automatic parking.

A drive assist apparatus for a vehicle includes a turn signal drive unit, an environment information obtainer, and a controller. The controller includes a blinking cycle adjuster configured to cause the turn signal drive unit to drive with drive signals indicating blinking cycles different from each other. The blinking cycles include a first blinking cycle and a second blinking cycle shorter than the first blinking cycle. The blinking cycle adjuster is configured to set the first blinking cycle for the vehicle that travels at a first position, and set the second blinking cycle for the vehicle that travels at a second position closer to the intersection than the first position.

A method for operating an assistance system for automated driving operation of a vehicle involves continuously determining an emergency trajectory along which the vehicle is brought to a standstill in a longitudinally and transversely controlled manner after activation of an emergency operation of the vehicle. In the event of an imminent or already initiated lane change of the vehicle from a starting lane to a target lane according to a determined standard trajectory, a decision is made as to whether the vehicle should be brought to a standstill in the starting lane or in the target lane when emergency operation is activated. This decision depends on the position of the vehicle on the standard trajectory. The vehicle is then brought to a standstill in the starting lane if an emergency trajectory is planned by means of which the vehicle is brought to a standstill in the starting lane within a predefined path length and/or within a predefined time period, and if in the process a predefined comfort value of a transverse acceleration acting on the vehicle is not exceeded and a predefined penetration depth of the vehicle into the target lane is not exceeded.

A system of controlling an unmanned vehicle includes: a travel course data acquisition unit that acquires travel course data including blinker data for controlling a blinker provided in an unmanned vehicle; an operation data acquisition unit that acquires operation data of a blinker operation device provided in the unmanned vehicle; and a blinker control unit that controls the blinker based on the blinker data acquired by the travel course data acquisition unit when the operation data is acquired by the operation data acquisition unit at a time when the unmanned vehicle operates based on the travel course data.

A vehicle includes an interior and an exterior, a surface within the interior, and a movable seat positioned over a first portion of the surface. The vehicle also includes a processor, a seat control system able to move the seat to expose the portion of the surface, and a light source able to illuminate a larger second portion of the surface which includes the first portion. The vehicle further includes a sensor to capture an image of the second portion of the surface, illuminated by the light source, and a cleaning element able to clean the second portion of the surface. The processor is configured to detect foreign material on the second portion of the surface, based on a comparison between the image and a stored image. The processor is also configured to activate the cleaning element, after detecting the foreign material on the second portion of the surface.

The disclosure provides systems and methods for detecting and responding to a power outage. The methods use sensors of vehicles to detect an indication of a power outage. Once the power outage is validated, the lighting systems of the vehicles are used to illuminate locations so that pedestrians can walk along sidewalks or through parking garages. For example, the vehicles can be arranged to provide lighting at selected locations.

Provided are methods for systems and methods for heads-up display, which can include obtaining sensor data, determining a plurality of trajectories and evaluating them. The methods can further include generating trajectory data which can then be provided to a user associated with the vehicle. The methods can be used for autonomous vehicles and non-autonomous vehicles. Systems and computer program products are also provided.

A device for a seat, includes: a docking unit that is designed for connection to a mobile terminal in order to allow a data transfer from the mobile terminal to at least one media unit; and a control unit that is designed to record at least one context parameter that specifies a current surroundings situation of the device; and to actuate at least one functional unit based on the at least one context parameter in order to adjust a setting of the at least one functional unit to the current surroundings situation such that a user is able to use the at least one media unit.

Various systems and methods for providing assistance at the end of an autonomous system journey are provided. A system can include an autonomous system configured to transport the user, a first sensor coupled to the autonomous system and configured to provide a sensor stream of an environment between the autonomous system and a terminus, and a terminus assistance processor mechanically coupled to the autonomous system. In an example, the terminus assistance processor can receive and process the sensor stream, detect and can track the user in the environment in response to the sensor stream, and can provide status information to a first mobile device based on the sensor stream.

The invention relates to a system for assisting with driving a vehicle, including at least one sensor configured to detect the presence of an object in an environment outside the vehicle, at least one camera configured to acquire images of the environment outside the vehicle and to detect the presence of the object in the environment outside the vehicle. The at least one sensor detects at least one free space in the environment outside the vehicle, the at least one camera, on the basis of the acquired images, detects at least one free space. An electronic control unit configured to select a free space found by the at least one sensor and/or the at least one camera, the electronic control unit activates the display of images in the selected free space so as to indicate a new path to be followed by the vehicle.