An autonomous vehicle (AV) includes features that allows the AV to comply with applicable regulations and statues for performing safe driving operation. An example method for operating the AV includes determining a trajectory related information of a vehicle operating on a roadway on which the AV is operating; receiving sensor data of a first area that includes the vehicle; determining an additional trajectory related information for the AV by comparing the trajectory related information of the vehicle to a current trajectory related information of the AV, wherein the additional trajectory related information is based on a category to which the vehicle belongs, and wherein the additional trajectory related information allows the AV to maintain at least a distance between the AV and the vehicle; and causing the AV to operate in accordance with the additional trajectory related information.

A vehicle control system for controlling the movement of a group of vehicles that includes at least a first vehicle, a second vehicle following the first vehicle, and a third vehicle which in turn follows the second vehicle, via vehicle data, present at least within the group of vehicles, for controlling the mutually dependent movement of the vehicles. The vehicle control system includes a control level with multiple control devices that utilize the vehicle data for influencing a state of movement of the vehicles in a first network topology, and a communication level with multiple communication devices that transmit the vehicle data between the vehicles in a second network topology. At least one of the network topologies is set as a function of the other network topologies and/or of a performance of and/or a requirement for the control level and/or communication level, during operation of the vehicles.

A method, computer program product, and computing system for operating an autonomous vehicle; monitoring the operation of a plurality of computing devices within the autonomous vehicle; and in response to detecting the failure of one or more of the plurality of computing devices, switching the autonomous vehicle from a nominal autonomous operational mode to a degraded autonomous operational mode.

A system comprises a computer having a processor and a memory, the memory storing instructions executable by the processor to obtain, while an adaptive cruise control feature of a vehicle traveling a roadway is set to operate in a standard operation mode, lighting condition data for an on-board camera of the vehicle, determine, based on the lighting condition data, whether the on-board camera is subject to a lighting-compromised condition, and responsive to a determination that the on-board camera is subject to the lighting-compromised condition, cause the adaptive cruise control feature to operate in a modified operation mode, wherein during operation in the modified operation mode, the adaptive cruise control feature operates in accordance with one or more modified operating parameters.

A driver assistance system for motor vehicles, including a locating system for locating preceding vehicles and a longitudinal guidance module for controlling the longitudinal movement of the host vehicle as a function of location data of located objects. The longitudinal guidance module includes a driving path module, for defining a driving path ahead of the host vehicle, and an adaptive cruise control function, which adjusts a time gap between the host vehicle and a target object located within the driving path to a setpoint value. The longitudinal guidance module includes a dynamic function which, under certain conditions indicating that the target object will leave the driving path, modifies the longitudinal guidance function within the context of a more rapidly commencing acceleration in response to a command of the driver.

A vehicle system configured to control a trailer alignment routine comprises a hitch mounted on a vehicle and a controller. The controller is configured to identify a coupler position of a trailer and control motion of the vehicle toward an aligned position. The controller is further configured to calculate a stopping threshold relative to the coupler position. The stopping threshold comprises a semicircle concentric to the coupler position. The controller is further configured to control a braking procedure in response to the hitch passing the stopping threshold.

A system for representing a set of operating states of a vehicle to a user of the vehicle includes a vehicle having a vehicle operating state, and a digital twin receiving vehicle parameter data from one or more inputs to determine the vehicle operating state. An interface for the digital twin presents the vehicle operating state to the user of the vehicle. An identity management system manages a set of identities and roles of the vehicle user and determines capabilities to view, modify, and configure the digital twin based on parsing of the set of identities and roles.

An apparatus and a method for controlling a velocity of an autonomous driving vehicle is provided. The method includes steps of: obtaining information of an environment surrounding the vehicle when an obstacle is detected to be on a planning path of the vehicle; obtaining an initial reference velocity profile of the vehicle; determining a safety factor based on the initial reference velocity profile, the information of the environment and information of the vehicle, wherein the safety factor at least comprises a safety distance between the vehicle and the obstacle for the vehicle to follow the obstacle; determining an optimized reference velocity profile based on the information of the environment, the information of the vehicle and the safety factor; and performing the step of determining the safety factor by using the optimized reference velocity profile as the initial reference velocity profile and the step of determining the optimized reference velocity iteratively.

A vehicle control device of an embodiment includes a recognizer configured to recognize a surrounding environment of a host vehicle and a driving controller configured to perform driving control by controlling one or both of a speed and steering of the host vehicle on the basis of a recognition result of the recognizer. In a case where a speed relationship between the host vehicle and a forward vehicle traveling in front of the host vehicle satisfies predetermined conditions, the driving controller is configured to perform passing control for passing the forward vehicle, and holds feature information of the forward vehicle under predetermined conditions.

A system for controlling platooning by a following vehicle includes a sensor located in or on the following vehicle configured to detect data corresponding to a shape of a leading vehicle. The system further includes an electronic control unit (ECU) located in or on the following vehicle, coupled to the sensor, and configured to determine an optimal distance from the following vehicle to the leading vehicle based on the shape of the leading vehicle, the optimal distance corresponding to a distance at which drag applied to the following vehicle is reduced based on a pressure wake from the leading vehicle.