A vehicle control facility for the automated control of an electrical road vehicle for a route system with an energy-supply system that includes a lane-bound energy supply line, in particular an overhead line system. A position-determining unit determines a geographical position of the electrical road vehicle. A specific-lane-determining unit determines position data for a specific lane assigned to the lane-bound energy supply line. A communication interface transmits current relative positions of infrastructure features with respect to the electrical road vehicle to an external central specific-lane-determining facility and receives position data. A vehicle-control unit controls the electrical road vehicle with respect to the determined specific lane in dependence on the determined relative position of the specific lane.

An alert control apparatus that notifies a driver in advance of a transfer of control relating to a driving operation from an automatic driving function to the driver by controlling an alert device mounted on a vehicle, which is equipped with the automatic driving function, includes: an estimator that estimates an occurrence of a change execution situation that requires a lane change under a condition in which the driving operation of the vehicle is controlled by the automatic driving function; a determiner that determines a level of difficulty of lane change control based on a plurality of travel environment factors in the change execution situation; and a notification device that notifies the driver of a possibility of the transfer of the control together with a reason of the transfer of the control with a notification mode corresponding to the level using the alert device.

An alert control apparatus that notifies a driver in advance of a transfer of control relating to a driving operation from an automatic driving function to the driver by controlling an alert device mounted on a vehicle, which is equipped with the automatic driving function, includes: an estimator that estimates an occurrence of a change execution situation that requires a lane change under a condition in which the driving operation of the vehicle is controlled by the automatic driving function; a determiner that determines a level of difficulty of lane change control based on a plurality of travel environment factors in the change execution situation; and a notification device that notifies the driver of a possibility of the transfer of the control together with a reason of the transfer of the control with a notification mode corresponding to the level using the alert device.

A system and method for differential traction drive and steering axis coordination for an autonomous mower or other turf device includes initiating a steering motion based on determining a target forward speed and a steering rotational speed, calculating a left wheel speed and a right wheel speed, and applying the left and right wheel speeds, wherein the steering rotational speed is driven by a steering motor and the traction wheels associated with the autonomous mower, and the left and right wheel speeds are based on the target forward speed, a distance from a steering axle to the center of the respective wheel, and the steering rotational speed.

A control system for a vehicle includes a steering control unit and an electronic control unit. The steering control unit is configured to control a steering angle of a wheel of the vehicle. The electronic control unit is configured to acquire a target steering angle set as a target to move the vehicle, adjust the acquired target steering angle such that the target steering angle does not exceed a first guard value determined in order to inhibit a change in the steering angle of the vehicle, larger than or equal to a first reference, output the adjusted target steering angle to the steering control unit in order for the steering control unit to control the steering angle to the adjusted target steering angle, and change the first guard value in response to a situation of the vehicle.

A control system for a vehicle includes a steering control unit and an electronic control unit. The steering control unit is configured to control a steering angle of a wheel of the vehicle. The electronic control unit is configured to acquire a target steering angle set as a target to move the vehicle, adjust the acquired target steering angle such that the target steering angle does not exceed a first guard value determined in order to inhibit a change in the steering angle of the vehicle, larger than or equal to a first reference, output the adjusted target steering angle to the steering control unit in order for the steering control unit to control the steering angle to the adjusted target steering angle, and change the first guard value in response to a situation of the vehicle.

A method for providing assistance to a driver of a vehicle, the vehicle including a driver assistance system that enables at least temporary autonomous driving, and that, after the termination of the autonomous driving, requests the driver to take over at least the lateral guidance of the vehicle via a signal. It is further provided that the steering of the vehicle is stiffened for a specified time span after the request to take over the lateral guidance. A computer program and a device that are set up to carry out the method, are also described.

A method for providing assistance to a driver of a vehicle, the vehicle including a driver assistance system that enables at least temporary autonomous driving, and that, after the termination of the autonomous driving, requests the driver to take over at least the lateral guidance of the vehicle via a signal. It is further provided that the steering of the vehicle is stiffened for a specified time span after the request to take over the lateral guidance. A computer program and a device that are set up to carry out the method, are also described.

A vehicle control system includes: an automated driving controller configured to execute one driving mode from out of a plurality of driving modes including an automated driving mode and a manual driving mode; a vehicle information collection section configured to collect information related to control history of one or both out of speed control and steering control performed based on operation by the occupant of the vehicle while the manual driving mode is being executed; and a driving characteristics derivation section configured to derive driving characteristics for each occupant of the vehicle based on information collected by the vehicle information collection section. The automated driving controller executes the automated driving mode by reflecting the driving characteristics for each occupant of the vehicle to the automated driving.

An electric power steering apparatus including a torque sensor to detect a steering torque and a motor control unit to control a motor that applies an assist torque to a steering system of a vehicle, including: a function to switch a control system of the motor between a torque control system to control a motor output torque and a position/speed control system to control a steering angle of a steering in accordance with a predetermined switching trigger. The fade processing time from the torque control system to the position/speed control system and the fade processing time from the position/speed control system to the torque control system are individually set.