Provided is a vehicle control device mounted on a vehicle including an environment recognition unit and an automatic operation control unit. The environment recognition unit is configured to acquire information on surrounding environment around the vehicle, and provide the automatic operation control unit with the information on the surrounding environment. The automatic operation control unit is configured to acquire select one proposed traveling line, as a target traveling line of the vehicle, from a plurality of proposed traveling lines, on a basis of the information on the surrounding environment, and allow the vehicle to travel along the target traveling line. The vehicle control device is configured to acquire provide display of an image of one or more non-selected traveling lines other than the proposed traveling line selected as the target traveling line from the plurality of proposed traveling lines, together with display of an image of the target traveling line.

The invention concerns a method of driving assistance for assisting a human driver in safely driving a vehicle called host vehicle, implemented by a processor on board of said host vehicle. The host vehicle comprises means for obtaining first information relative to the host vehicle and means for obtaining second information relative to at least one other vehicle in a neighborhood of the host vehicle, said first and second information being obtained at regular time instants, comprising triggering an intervention of a collision avoidance system. The method comprises a step (51) of intervention decision adapted to decide whether to trigger the intervention of the collision avoidance system at a current time instant (T.sub.c) or to postpone said intervention decision at a later time instant (T.sub.l) depending upon additional first and second information to be acquired between the current time instant (T.sub.c) and the later time instant (T.sub.l), said additional first and second information having an associated probability. The invention also concerns an associated system of driving assistance.

A system for signaling road hazards and emergency actions to nearby road users comprising a vehicle, the vehicle having at least three wheels, a vehicle control circuitry, one or more sensors, and a vehicle system controller. The vehicle control circuitry monitors data from the one or more sensors, detects hazardous situations, and controls the vehicle system controller to control the vehicle, induce a dynamic vehicle behavior, and visually signal the vehicle is performing an emergency maneuver.

A method for warning road users by means of surroundings monitoring for a running vehicle is disclosed and furthermore situation detection for the road users in the surroundings of the running vehicle and ascertainment of the probable paths of movement of the running vehicle and the other road users, furthermore ascertainment of an impending hazard situation and, if an impending hazard situation is ascertained, audible warning in and around the running vehicle. Furthermore, an apparatus for performing the method for warning road users is disclosed, wherein the running vehicle is in the form of a land vehicle and the other road users can move in a ground-based manner.

Various embodiments are described herein for a vision display system for a vehicle. The system comprises at least one camera configured to capture image data of at least one zone for the vehicle, a processing unit configured to receive the image data from the at least one camera, to correct the image data to reduce distortion, and to generate final image data from the corrected image data for viewing by an operator, a passenger or a user of the host vehicle. A display is configured to output the image data.

We generally describe a collision prevention system (100) comprising: a localization system (402) for determining positions of an autonomous vehicle (104) and a human (106); and a collision determination unit (404) coupled to or in communication with the localization system (402), wherein the collision determination unit (404) is configured to determine, based on the determined positions of the autonomous vehicle (104) and the human (106), whether a predefined condition for an anticipated collision of the autonomous vehicle (104) with the human (106) is met; wherein the collision prevention system (100) is configured to: lock the autonomous vehicle (104) if the predefined condition is met; alert the human (106) for whom the predefined condition for colliding with the autonomous vehicle (104) is met; and allow unlocking of the autonomous vehicle (104) to be performed or initialized by the alerted human (106) only.

A system and method perform object detection-based directional control of light transmission or sound transmission from a moving platform. The method includes receiving information about one or more objects that are proximate to the platform, and processing the information to obtain processed information, the processed information including a location of each of the one or more objects. Determining an importance and urgency among the one or more objects with regard to the light transmission or the sound transmission is based on the processed information. Controlling a light source or a sound source of the platform to respectively perform the light transmission or the sound transmission is based on the importance and the urgency.

This invention relates in general to the field of safety devices, and more particularly, but not by way of limitation, to systems and methods for providing advanced warning and risk evasion when hazardous conditions exist. In one embodiment, a vicinity monitoring unit is provided for monitoring, for example, oncoming traffic near a construction zone. In some embodiments, the vicinity monitoring unit may be mounted onto a construction vehicle to monitor nearby traffic and send a warning signal if hazardous conditions exist. In some embodiments, personnel tracking units may be worn by construction workers and the personnel tracking units may be in communication with the vicinity monitoring unit. In some embodiments, a base station is provided for monitoring activities taking place in or near a construction site including monitoring the locations of various personnel and vehicles within the construction site.

A system for remotely opening a land vehicle door is provided. The system includes a mobile communication device supported on the vehicle and operative to produce a first signal in the form of a first electromagnetic field defined by a field envelope. A hand-held communication device is operative to detect the first electromagnetic field and produce a second signal in the form of a second electromagnetic field when the hand-held device is located within the field envelope. Control logic is coupled to the mobile device and is operative to determine if the hand-held device is an authorized hand-held device. The control logic is operative to determine if a pedestrian carrying an authorized hand-held device is located within the field envelope and to generate a door-opening command signal when the authorized device is located within the field envelope for a predetermined period of time.

A movable carrier auxiliary system includes a state detecting device, a braking device, an environmental detecting device and an emergency brake controlling device. The state detecting device detects a movement state of a movable carrier. The environmental detecting device includes at least one image capturing module and an operation module. The brake controlling method thereof includes receive the movement state detected by the state detecting device, and deriving an operating distance based on the movement state with the operation module; capture the environmental image with the image capturing module; determine whether there is an obstruction within the operating distance based on the environmental image; automatically actuate the braking device with the emergency brake controlling device when there is the obstruction within the operating distance in the environmental image, thereby to stop the movable carrier within the operating distance.