A vehicle communication system is provided. The system includes a housing having a first portion slidably affixed to a second portion. A first display is affixed between a first upper arm and a first lower arm of the first portion. A second display is affixed between a second upper arm and a second lower arm of the second portion. The first display and the second display are disposed along distinct parallel planes, such that the first portion and the second portion can selectively move between an extended position and a collapsed position. A fastener is disposed on each of the first end of the housing and a second end of the housing. A control circuit includes a power supply, a processor, and a memory disposed within the housing, and wherein the first and second displays can display a message stored on the memory across the first and second displays.

An autonomous driving system relying on communication between a vehicle and a human road user

A vehicle messaging system and method of operation thereof. The method of operating the vehicle messaging system includes first providing a vehicle messaging system. Once provided, a message to be displayed will be inputted into the vehicle messaging system by a vehicle operator and/or one or more users of the vehicle messaging system. After the message to be displayed has been inputted the vehicle operator and/or the one or more users will instruct the vehicle messaging system to display the message.

The embodiments of the present disclosure provide a method and an apparatus for interacting traffic information, a device and a computer-readable storage medium. The method includes: in response to a first vehicle being about to overtake a second vehicle, sending overtake-preceding indicating information to the second vehicle; detecting whether the driver of the second vehicle makes a first response to the overtake-preceding indicating information; and in response to not detecting the first response made by the driver, sending additional indication information to the second vehicle.

When information regarding a situation inside and outside a vehicle is determined to match a display change condition, a control unit (32) changes a display mode of information displayed outside the vehicle by controlling a projector device (4a) or a body light device (4b).

The present disclosure relates to a robot provided in a vehicle capable of performing a function related to the vehicle. The robot includes a body, a head positioned above the body, an actuator configured to apply an external force to allow the head to move relative to the body, a camera disposed on the head to capture an image, a communication unit configured to perform communications with one or more devices provided in the vehicle, and a processor configured to control the actuator so that the camera is directed toward an inside or outside of the vehicle based on information received via the communication unit.

The present invention provides an information sharing system for a vehicle. The information sharing system includes at least one first Internet of Things (IoT) device, for gathering information about the vehicle or a driver of the vehicle; and a second IoT device, for sharing the information; wherein the information comprises at least one of traffic-related information of the vehicle and emotion-related information of the driver.

A lighting device for a motor vehicle, in particular a headlamp device for a motor vehicle, comprising a first headlamp, which includes a first light module for generating a first light distribution as well as a second light module for generating a second light distribution, the first light distribution of the first headlamp having a higher resolution than the second light distribution of the first headlamp, as well as comprising a second headlamp, which includes a first light module for generating a first light distribution as well as a second light module for generating a second light distribution, the first light distribution of the first headlamp having a higher resolution than the first light distribution of the second headlamp and than the second light distribution of the second headlamp.

A system and method for operating an automated vehicle. A sensor is configured to monitor an ORU (other road user) external to the automated vehicle thereby identifying the ORU with respect to the automated vehicle. A processor determines a state of the ORU and a context of the ORU and communicates a message to the ORU based on the determined state of the ORU and the context of the ORU.

Described herein is a delivery robot that can be programmed to travel from one location to another in open spaces that have few restrictions on the robot's path of travel. The delivery robot may operate in an autonomous mode, a remote controlled mode, or a combination thereof. The delivery robot can include a cargo area for transporting physical items. The robot can include exterior display devices and/or lighting devices to convey information to people that the robot may be encountering, including indications of the robot's direction of travel, current status, and/or other information.