The invention relates to a method for providing environmental data wherein first environmental data are captured at a first time, objects being detected on the basis of the captured first environmental data, and object parameters being determined for each of the objects, wherein the object parameters are associated with the objects. In addition, a traffic situation is determined on the basis of the captured first environmental data, and filter criteria are determined according to the determined traffic situation. The filter criteria comprise prioritizations and predictions for the objects and the object parameters associated therewith. At a second time, second, updated environmental data are captured and transmission data are generated on the basis of the second, updated environmental data and the filter criteria. The transmission data are output.

A drive assistance device 10 includes a road information acquisition unit 12, an information display unit 5, a drive assistance unit 15, and a display control unit 14 configured to report road information in front of a vehicle 1 acquired by the road information acquisition unit 12, by displaying a road image portion R indicating a shape of a road and left and right outer edges EL, ER of the road image portion R in different colors on the information display unit 5, and to display a vehicle state display part C indicating an execution state of drive assistance by the drive assistance unit 15.

An optical system includes, in order from an enlargement conjugate side to a reduction conjugate side, a front unit including three or more lenses, a diaphragm, and a rear unit including a plurality of lenses. The front unit includes a first positive lens closest to an enlargement conjugate position, and a second positive lens. A predetermined condition is satisfied.

A vehicle control system for moving a vehicle to a target location is disclosed. According to examples of the disclosure, a camera captures one or more images of a known object corresponding to the target location. An on-board computer having stored thereon information about the known object can process the one or more images to determine vehicle location with respect to the known object. The system can use the vehicle's determined location and a feedback controller to move the vehicle to the target location.

A method of displaying a top view image of a vehicle includes: extracting, by a controller, a location of maximum resolution of a top view image of a vehicle generated by cameras; setting, by the controller, a replacement image area that is larger than an image area of the vehicle included in the top view image of the vehicle by a reference value at the location of the maximum resolution of the top view image of the vehicle; and replacing, by the controller, a non-obtainable mage area of the top view image of the vehicle with the replacement image area, in which the reference value is a value larger than the non-obtainable image area.

A computer includes a processor and a memory storing instructions executable by the processor to detect an object in data received from a rear-facing radar on a vehicle and activate an alarm in response to the object moving through a predesignated region behind the vehicle at a speed below a threshold speed or for a duration above a threshold time.

An image processing apparatus (10) includes an interface (12) configured to acquire a surrounding image of a moveable body (1) and a processor (12) configured to overlay a display indicating a course trajectory of a specific portion of the moveable body (1) in a travel direction of the moveable body (1) on the surrounding image at a position corresponding to the height of the specific portion from a road surface (3). The processor (12) is configured to change the display indicating the course trajectory when an obstacle, included in the surrounding image and present in the travel direction of the moveable body (1), and the course trajectory of the specific portion are in contact.

A method for operating a vehicle camera system including receiving a first image from at least one video camera, identifying a first object in the first image, determining a distance between a vehicle component and the identified object, modifying the first image by incorporating a human machine interface (HMI) within the first image, wherein the human machine interface includes a display configured to communicate the distance between the object and the vehicle component, and displaying the modified image to a vehicle operator.

According to an embodiment, an information processing apparatus includes a memory having computer executable components stored therein; and a processing circuit communicatively coupled to the memory. The processing circuit acquires a plurality of pieces of observation information of surroundings of a moving body, generates a plurality of pieces of attribute information of the surroundings of the moving body on the basis of the plurality of pieces of observation information, and sets a reliability of the attribute information of the surroundings of the moving body on the basis of correlation of the plurality of pieces of attribute information.

The present disclosure provides a method, a device, and an apparatus for processing data, and a movable platform; the method is applied to the movable platform that includes a sensor, and includes: collecting at least two directions of an environment surrounding the movable platform through a sensor, performing three-dimensional reconstruction of the environmental data in the at least two directions to obtain three-dimensional environmental information of the environment surrounding the movable platform, and further displaying the three-dimensional environmental information on a display apparatus. The present disclosure may assist a driver in driving and improve the driving safety of the movable platform.