A movable vehicle includes an access point functional unit that includes an antenna and functions as an access point by wirelessly communicating with a terminal device around the vehicle, and a notifier that notifies the surroundings that the vehicle is functioning as an access point.

Systems, methods, and computer program products to enhance the situational competency and/or the safe operation of a vehicle, when operating at least partially in an autonomous mode, as a support vehicle for one or more on-road persons engaged in a training or competitive cycling, running, and/or walking activity on a predetermined travel route at a predetermined pace.

A vehicle lighting system includes a light assembly and an electronic controller. The light assembly includes one or more lights configured to illuminate an external area that is in a vicinity of the vehicle. The electronic controller is programmed to receive a battery status signal from a battery of the vehicle. The electronic controller is further programmed to control the light assembly to illuminate the one or more lights to display a status of the battery when the vehicle is in a predetermined condition. The predetermined condition is at least one of a condition in which a remote electronic device is within a vicinity of the vehicle, a condition in which the vehicle has transitioned from a locked state to an unlocked state, and a condition in which the vehicle is about to be transitioned from the locked state to the unlocked state.

A platooning controller, a vehicle system including the same, and a method thereof are provided. The platooning controller includes a processor that identifies information about outside vehicles around a platooning line based on sensing information of platooning vehicles, determines whether views of the outside vehicles are obstructed by the platooning line based on the information about the outside vehicles, controls the platooning vehicles such that the views of the outside vehicles are obtained, and performs collision avoidance control and a storage storing the sensing information or a result of determination of whether a view is obstructed.

In one embodiment, a method, apparatus, and system for automatically switching on an emergency light at an autonomous driving vehicle (ADV) is disclosed. A present speed of an ADV at a first time instant is determined. A present deceleration of the ADV at the first time instant is determined. Whether the present speed satisfies a present speed condition and whether the present deceleration satisfies a present deceleration condition at the first time instant are determined. In response to determining that the present speed satisfies the present speed condition and that the present deceleration satisfies the present deceleration condition, whether a recent deceleration history of the ADV satisfies a recent deceleration history condition and whether an expected deceleration of the ADV satisfies an expected deceleration condition are determined. If either condition is satisfied, an emergency light of the ADV is automatically switched on.

A user terminal, a transportation vehicle, a server, a computer program product, a signal sequence and a method for sending for a first transportation vehicle. The method includes actuating an actuating device of a first user terminal; sending a wireless message from the user terminal to a server in response thereto; assigning a first transportation vehicle to the user terminal; assigning a first color information to the first user terminal and the assigned first transportation vehicle; and emitting a light by the first transportation vehicle and the first user terminal, the identical color of which is defined based on the first color information.

A vehicle safety barrier, for mounting on a vehicle, comprises a deployable barrier arm, wherein the barrier arm is configured for movement between a first, stowed position, and a second, operational position and wherein, in the second position, the barrier arm is arranged to project a predetermined distance from the vehicle to indicate a safe passing distance for another road user.

A vehicle safety barrier, for mounting on a vehicle, comprises a deployable barrier arm, wherein the barrier arm is configured for movement between a first, stowed position, and a second, operational position and wherein, in the second position, the barrier arm is arranged to project a predetermined distance from the vehicle to indicate a safe passing distance for another road user.

Systems and methods for IR readable transmissive and reflective displays are disclosed that do not suffer from a mirror-like appearance or undesirable dimming of the display due to sequential stacks of polarizers. The disclosed systems and methods use available IR LEDs in addition to, or in place of, visible light LEDs. An illuminator or integrator, which is a lightguide, is designed to maintain the polarization state of the light. The display can use a regular visible light, front polarizer and hence does not suffer from brightness reduction caused by an IR capable polarizer.

A work vehicle includes: an electronic control system for automatic driving; and a cabin with which a boarding space is formed. The electronic control system includes an antenna unit for satellite navigation, and the antenna unit is attached to a central area of a roof of the cabin in a left-right direction. An upper surface of an area of the roof around the antenna unit is formed so as to be an inclined surface that is inclined in a front-rear direction. Left and right end portions of the roof are provided with left and right bulging edge portions that bulge upward from the left and right end portions and have a length that spans between front and rear ends of the roof, and water drain grooves that guide water on the roof toward the left and right bulging edge portions such that water detours the antenna unit.