A method for decelerating a vehicle, a non-transitory computer-readable medium for performing the method, and reception apparatuses. The method includes monitoring a state of a driver of the vehicle, and causing a notification to be output based on the monitored state of the driver. The method further includes determining, by circuitry of an information processing apparatus and when operating in a manual operation mode, whether to cause the vehicle to decelerate after the notification is output. The vehicle is caused by the circuitry to decelerate based on the determination of whether to cause the vehicle to decelerate.

A non-transitory computer-readable recording medium stores a driving support program that causes a computer to execute a process including: collecting vital sign information on a user from a vital sign measuring device; generating a drowsiness occurrence time pattern with respect to the user based on the collected vital sign information; and in response to a request in which a driver is specified from a source of the request, providing the drowsiness occurrence time pattern that is generated with respect to the user corresponding to the driver to the source of the request to the source of request or providing alerting information to the driver that is determined according to the drowsiness occurrence time pattern generated with respect to the user corresponding to the driver to the source of request.

A driving consciousness estimation device includes a driving readiness estimation unit configured to estimate a driving readiness relating to a driving consciousness of the driver from a driver's reaction to the travelling environment, a driving task demand estimation unit configured to estimate a driving task demand which is an index required for the driver with respect to the driving readiness from the travelling environment, and an attention awakening unit configured to execute awakening of attention for the driver relating to the driving of the vehicle based on the result of comparison between the driving readiness and the driving task demand.

A vehicle control system includes : a driving controller that executes any one of automated driving and manual driving; an electrically drivable driver's seat of the vehicle; a state detector that detects a state of an occupant seated in the driver's seat; and a seat controller that drives the driver's seat if the state detector detects that the occupant seated in the driver's seat is not in a wakeful state, when a changeover of the driving modes by the driving controller causes a transition from a driving mode in which the occupant seated in the driver's seat does not have a responsibility to monitor the surroundings of the vehicle, to a driving mode in which the occupant has the responsibility to monitor the surroundings.

One object is to enable a preparation period for switching between modes in automated driving to be provided for a vehicle occupant. A vehicle control system includes an automated driving control unit that automatically controls at least one of acceleration/deceleration and steering of a host vehicle, the automated driving control unit performing automated driving control in any one of a plurality of modes having different degrees of automated driving, a detection unit that detects a state of an occupant in the host vehicle, an output unit that outputs notification information on the automated driving control, and a notification condition changing unit that changes a notification condition for outputting the notification information according to the state of the occupant detected by the detection unit.

A method for decelerating a vehicle, a non-transitory computer-readable medium for performing the method, and reception apparatuses. The method includes monitoring a state of a driver of the vehicle, and causing a notification to be output based on the monitored state of the driver. The method further includes determining, by circuitry of an information processing apparatus and when operating in a manual operation mode, whether to cause the vehicle to decelerate after the notification is output. The vehicle is caused by the circuitry to decelerate based on the determination of whether to cause the vehicle to decelerate. A passenger of the vehicle may trigger an automatic emergency stop (unit 23), which in turn may be overridden by the driver (switch 24).

An onboard system equipped to a vehicle includes a vehicle control device controlling a switching of a driving mode of the vehicle between a manual driving and a self-driving, and a brain activity sensor capable of detecting an activated portion of a brain of a driver of the vehicle. The vehicle control device determines whether a degree of uneasiness felt by the driver exceeds a threshold or not based on a detection result detected by the brain activity sensor before the switching of the driving mode. When determining that the degree of uneasiness felt by the driver does not exceed the threshold, the vehicle control device switches the driving mode. When determining that the degree of uneasiness felt by the driver exceeds the threshold, the vehicle control device performs a vehicle control corresponding to the degree of uneasiness felt by the driver.

A device and method for safety stoppage of an autonomous road vehicle having a localization system and sensors for monitoring the vehicle surroundings and motion, and a signal processing system for processing sensor signals enabling an autonomous drive mode. A processor continuously predicts where a drivable space exists, calculates and stores a safe trajectory to a stop within the drivable space, determines a current traffic situation, and determines any disturbances in sensor data, vehicle systems or components enabling the autonomous drive mode. If an incapacitating disturbance is determined, a request for a driver to take control is signaled and it is determined if the driver has assumed control. If not, the vehicle is controlled to follow the most recent safe trajectory to a stop in a safe stoppage maneuver during which, or after, one or more risk mitigation actions adapted to the determined current traffic situation are performed.

A vehicle includes an autonomous driving device that executes autonomous drive control; a track generation section that generates a travel track of the vehicle based on an estimation result by a self-position estimation section and a recognition result by an object recognition section; an actuator that moves the vehicle so that the vehicle travels along the travel track; a trigger input pedal disposed at a left side from an accelerator pedal and a brake pedal 102, seen from a driver; and an autonomous drive control start determination section that starts the autonomous drive control when an autonomous drive control start trigger is inputted via the trigger input pedal and it is determined that start of the autonomous drive control is possible.

A vehicle travel control apparatus includes an actuator and an electronic control unit. The electronic control unit is configured to determine whether a driver of a vehicle is in an abnormal state where the driver loses an ability of driving the vehicle. The electronic control unit is also configured to stop the vehicle at an abnormality determination time point onward, and control a vehicle speed by using the actuator such that the vehicle speed does not become lower than a lower limit vehicle speed in a period from the abnormality determination time point to a time point when the vehicle is stopped. The lower limit vehicle speed is set in accordance with a road shape influencing timing when a driver of another vehicle traveling behind the vehicle visually recognizes the vehicle.