The disclosure describes embodiments for modifying an operation of a vehicle component based on a Vehicle-to-Everything (V2X) communication. In some embodiments, a method includes receiving, by a V2X receiver, a V2X message including context data that describes a context of a V2X transmitter in an environment, wherein the V2X receiver is not sufficiently able to identify the V2X transmitter as an originator of the V2X message within the environment. The method includes determining, by the V2X receiver, digital data describing an identity of the V2X transmitter as the originator of the V2X message within the environment based on the context data. The method includes modifying the operation of the vehicle component of the V2X receiver based on the digital data describing the identity of the V2X transmitter. The vehicle component includes, for example, one or more of an autonomous driving system and an Advanced Driver Assistance System (ADAS system).

A system for controlling the interface between a paving machine and material supply machine. The system includes a sensor or other means for sensing a distance between the paving machine and the material supply machine and a control system in operable communication with the sensor or other means for sensing and in operable communication with either or both of an operational system of the paving machine and an operational system of the material supply machine to take control of the acceleration or deceleration of either or both of the paving machine and material supply machine.

A method for providing proactive driving alerts includes determining a road segment of interest, receiving GPS data and contextual data, and identifying a triggering condition in a vicinity of the segment of interest. The method also includes determining an applicability of the triggering condition to the segment of interest, retrieving an alert threshold corresponding to the triggering condition, and obtaining an action factor correlating to a user's driving behavior. The method further includes determining whether the action factor exceeds the alert threshold and providing a proactive alert related to the triggering condition to the user.

A computer system that manages traffic flow is described. During operation, the computer system may receive information specifying or corresponding to an estimated time of arrival of a vehicle at an intersection. Then, the computer system may receive second information corresponding to traffic conditions in an environment (such as traffic flows), where the traffic conditions are associated with one or more other intersections that input traffic to the intersection, that received output traffic from the intersection, or both, and at least a subset of the one or more other intersections are not along a route of the vehicle. Next, based at least in part on the estimated time of arrival and the traffic conditions associated with the one or more other intersections, the computer system may selectively modify traffic management in at least one of the one or more other intersections.

The disclosure describes embodiments for modifying an operation of a vehicle component based on a Vehicle-to-Everything (V2X) communication. In some embodiments, a method includes receiving, by a V2X receiver, a V2X message including context data that describes a context of a V2X transmitter in an environment, wherein the V2X receiver is not sufficiently able to identify the V2X transmitter as an originator of the V2X message within the environment. The method includes determining, by the V2X receiver, digital data describing an identity of the V2X transmitter as the originator of the V2X message within the environment based on the context data. The method includes modifying the operation of the vehicle component of the V2X receiver based on the digital data describing the identity of the V2X transmitter. The vehicle component includes, for example, one or more of an autonomous driving system and an Advanced Driver Assistance System (ADAS system).

An apparatus for indicating a traffic hindrance risk, having a traffic hindrance information generating server that generates traffic hindrance information for links that define a driving route, and a weather information generating server that generates weather information from weather data distributed by a meteorological agency with respect to an area including the driving route. In the apparatus, a tabular data is generated together with congestion degree information by sorting foul weather information into a plurality of level categories in accordance with a degree of traffic hindrance when the weather information includes at least one item of foul weather information, and a traffic hindrance occurrence risk predictive value meaning possibility of traffic hindrance occurrence with respect to the driving route for a predetermined future period is calculated to be viewed by an operator of the vehicle.

A grouping unit (1131) groups a plurality of vehicles travelling in a same direction, on each of which an on-vehicle device is mounted, and notifies each of a plurality of on-vehicle devices of the plurality of vehicles of a fact that a vehicle on which each on-vehicle device is mounted belongs to a vehicle group. A reception unit (111) receives a disbandment request for requesting disbandment of the vehicle group, from an on-vehicle device of a quitting vehicle whose travelling direction has become different from that of other vehicles of the plurality of vehicles, among the plurality of on-vehicle devices. A group disbandment unit (1132) disbands the vehicle group when the disbandment request is received by the reception unit (111).

Examples are provided for traffic sign detection systems. In one example, a traffic detection system in a vehicle includes an image sensor, a communication system, a processor, and a storage device storing instructions executable by the processor to capture an image of an environment of the vehicle via the image sensor, process the image to detect visual information regarding a traffic sign in the image, the visual information indicating a recognized sign, receive cryptographic data via the communication system from a transmitter associated with the traffic sign, the cryptographic data including a cryptographic representation of a traffic sign signal for controlling the traffic sign, and selectively control one or more vehicle systems of the vehicle based on a cryptographic verification of the recognized sign using the cryptographic data.

A method and apparatus are described for providing result data, which relate to a motor vehicle environment with an infrastructure device, for guiding a receiving motor vehicle through an infrastructure presenting a complex traffic situation. At least one motor vehicle having at least one sensor device is selected by the infrastructure device. The sensor device of the selected motor vehicle detects sensor data, which describe at least part of the motor vehicle environment. The infrastructure device transmits a query message to the selected motor vehicle. The selected motor vehicle transmits the sensor data to the infrastructure device in response to the query message. The infrastructure device determines result data from the sensor data and provides the result data to the receiving motor vehicle.

A method for providing proactive driving alerts includes determining a road segment of interest, receiving GPS data and contextual data, and identifying a triggering condition in a vicinity of the segment of interest. The method also includes determining an applicability of the triggering condition to the segment of interest, retrieving an alert threshold corresponding to the triggering condition, and obtaining an action factor correlating to a user's driving behavior. The method further includes determining whether the action factor exceeds the alert threshold and providing a proactive alert related to the triggering condition to the user.