A protected region is set for a manned working machine, said region including a first protected region in which new protected region setting request information is not transmitted and which includes the position of the manned working machine, and a second protected region which is set along a periphery of the first protected region and in which new protected region setting request information is transmitted. An area occupied by the vehicle body of the manned working machine on a plane projected on the ground surface is calculated on the basis of vehicle body information indicating the size of the vehicle body of the manned working machine and position information thereof. When the occupied area is present within the first protected region, new protected region setting request information is not transmitted, whereas when the occupied area is present within the second protected region, protected region setting request information is transmitted.

Methods, systems, and apparatuses for logging U-turn events and vehicle routing are disclosed. A method for logging a U-turn event includes detecting, at a navigation system, a button press on a human interface device separate from the navigation system based on a signal received from the human interface device. The method also includes, in response to the user input, determining a location of a vehicle corresponding to the navigation system and one or more vehicle characteristics. The method also includes logging U-turn event data for the vehicle, the U-turn event data comprising the location and the one or more vehicle characteristics.

Methods and apparatus for assessing coordinate data are disclosed. An example apparatus includes a processor to receive coordinate data relating to a desired path and task of a vehicle. The processor of the example apparatus to determine if the coordinate data satisfies a threshold. The processor of the example apparatus to determine if the coordinate data is compatible with a positioning system of the vehicle. The processor of the example apparatus to authorize operation of the vehicle to traverse the desired path based on the coordinate data.

A system for operating an automated vehicle includes an output-device, a perception-device and a controller-circuit. The output-device is configured to convey a message from a host-vehicle to a person. The perception-device is configured to detect a reaction to the message by the person. The controller-circuit is in communication with the output-device and the perception-device. The controller-circuit is configured to operate the output-device in accordance with a first-interaction-mode to convey the message, determine that the reaction corresponds to hesitation by the person, and in response to hesitation by the person, operate the output-device in accordance with a second-interaction-mode to convey the message in accordance with a second-interaction-mode, said second-interaction-mode characterized as different from the first-interaction-mode.

Methods and apparatus for assessing coordinate data are disclosed. An example apparatus includes a processor to receive coordinate data relating to a desired path and task of a vehicle. The processor of the example apparatus to determine if the coordinate data satisfies a threshold. The processor of the example apparatus to determine if the coordinate data is compatible with a positioning system of the vehicle. The processor of the example apparatus to authorize operation of the vehicle to traverse the desired path based on the coordinate data.

The disclosed computer-implemented method may include receiving, by a transportation requestor device, progress information that indicates progress of a transportation provider toward a request location, presenting, via a graphical user interface of the transportation requestor device, the progress of the transportation provider toward the request location with a graphical representation of the transportation provider according to the progress information, receiving, by the transportation requestor device, contextual information from a server that explains the progress of the transportation provider as indicated by the progress information, and changing, via the graphical user interface of the transportation requestor device, the graphical representation of the transportation provider with a graphical representation of the contextual information. Various other methods, systems, and computer-readable media are disclosed.

A system for operating an automated vehicle includes an output-device, a perception-device and a controller-circuit. The output-device is configured to convey a message from a host-vehicle to a person. The perception-device is configured to detect a reaction to the message by the person. The controller-circuit is in communication with the output-device and the perception-device. The controller-circuit is configured to operate the output-device in accordance with a first-interaction-mode to convey the message, determine that the reaction corresponds to hesitation by the person, and in response to hesitation by the person, operate the output-device in accordance with a second-interaction-mode to convey the message in accordance with a second-interaction-mode, said second-interaction-mode characterized as different from the first-interaction-mode.

A protected region is set for a manned working machine, said region including a first protected region in which new protected region setting request information is not transmitted and which includes the position of the manned working machine, and a second protected region which is set along a periphery of the first protected region and in which new protected region setting request information is transmitted. An area occupied by the vehicle body of the manned working machine on a plane projected on the ground surface is calculated on the basis of vehicle body information indicating the size of the vehicle body of the manned working machine and position information thereof. When the occupied area is present within the first protected region, new protected region setting request information is not transmitted, whereas when the occupied area is present within the second protected region, protected region setting request information is transmitted.

Methods and apparatus for assessing coordinate data are disclosed. An example apparatus includes a processor to receive coordinate data relating to a desired path and task of a vehicle. The processor of the example apparatus to determine if the coordinate data satisfies a threshold. The processor of the example apparatus to determine if the coordinate data is compatible with a positioning system of the vehicle. The processor of the example apparatus to authorize operation of the vehicle to traverse the desired path based on the coordinate data.

A method for controlling autonomous lane change of a vehicle is disclosed. The method comprising: receiving a destination from a user; determining a current position of the vehicle; calculating a driving route from the current position to the destination; when an intersection exists within in a predetermined distance on the driving route while performing the route guidance according to the calculated driving route, confirming a ranking of a search link positioned on the calculated driving route among search links exiting from an end node corresponding to the intersection; comparing rotation direction information of the search link corresponding to the confirmed ranking of the search link with moving direction information of a lane of a lane link corresponding to the lane on which the vehicle is currently positioned; and performing lane change guidance of the vehicle according to a comparison result of the rotation direction information and the moving direction information.