A vehicular driver monitoring system includes a driver status information acquisition system and an in-vehicle control system of the vehicle. The driver status information acquisition system receives data from a plurality of sensors in the vehicle and determines the driver status responsive to processing of the received data. While the driver is not driving the vehicle and the in-vehicle control system is autonomously driving the vehicle, and responsive to determination that the driver of the vehicle should take over driving the vehicle from the in-vehicle control system, the in-vehicle control system alerts the driver to indicate that the driver should take over driving the vehicle. Responsive to the status of the driver while the driver is not driving the vehicle being indicative of the driver not being able to take over driving the vehicle, the in-vehicle control system continues driving the vehicle and initiates an emergency action.

A vehicular driver monitoring system includes a driver status information acquisition system and an in-vehicle control system of the vehicle. The driver status information acquisition system receives data from a plurality of sensors in the vehicle and determines the driver status responsive to processing of the received data. While the driver is not driving the vehicle and the in-vehicle control system is autonomously driving the vehicle, and responsive to determination that the driver of the vehicle should take over driving the vehicle from the in-vehicle control system, the in-vehicle control system alerts the driver to indicate that the driver should take over driving the vehicle. Responsive to the status of the driver while the driver is not driving the vehicle being indicative of the driver not being able to take over driving the vehicle, the in-vehicle control system continues driving the vehicle and initiates an emergency action.

A system for detecting a vehicular collision (i) receives occupant data from at least one internal sensor; (ii) receives external data from at least one external sensor; (iii) determines positional information for at least one occupant of a vehicle; and (iv) generates a virtual reconstruction of the vehicle collision. The virtual reconstruction indicates a severity of vehicle damage and a severity of injury to the at least one occupant caused by the vehicle collision. The system may also utilized vehicle occupant positional data, and internal and external sensor data to detect potential imminent vehicle collisions, take corrective actions, automatically engage autonomous or semi-autonomous vehicle systems, and/or perform at least one action to reduce a severity of a potential injury.

The invention is a pedestrian safety method and system that compares characteristic acoustic and motion signatures to sound and motion signatures collected in real-time through a vehicle's monitoring system to detect and confirm that the vehicle itself presents a danger to pedestrians or others in proximity to the vehicle and autonomously stops the offending vehicle by quickly initiating disabling measures.

The invention is a pedestrian safety method and system that compares characteristic acoustic and motion signatures to sound and motion signatures collected in real-time through a vehicle's monitoring system to detect and confirm that the vehicle itself presents a danger to pedestrians or others in proximity to the vehicle and autonomously stops the offending vehicle by quickly initiating disabling measures.

The present invention provides a vehicle control apparatus for controlling traveling of a vehicle, the apparatus comprising: a stop control unit configured to move the vehicle in a vehicle width direction and stop the vehicle in a traveling state; a notification unit configured to make a notification of the stop of the vehicle; and a change unit configured to change a notification method by the notification unit in accordance with a stop mode of the vehicle stopped by the stop control unit.

A bicycle with an electric pedal assist motor capable of driving a chainring independent of cranks includes wheel speed sensors and crank cadence sensors. The wheel speed sensors and the crank cadence sensors measure wheel speed and crank cadence, respectively, and provide the measured wheel speed and crank cadence to controller of the bicycle. The controller activates motor overdrive based on the measured wheel speed and/or the measured crank cadence.

A tilt-sensing apparatus for a vehicle, comprising: a controller; and a motion tracker, wherein the controller is configured for communication with the motion tracker and a display, wherein the motion tracker is configured for attachment to a vehicle at a position remote to the display and comprises a first tilt sensor configured to measure a first tilt angle with respect to a first axis and a second tilt sensor configured to measure a second tilt angle with respect to a second axis, wherein the controller is configured to receive data via an output of the motion tracker, said data comprising the first tilt angle and the second tilt angle, and communicate an instruction to the display to display a graphical representation indicative of the first tilt angle and the second tilt angle, and associated method.

A tilt-sensing apparatus for a vehicle, comprising: a controller; and a motion tracker, wherein the controller is configured for communication with the motion tracker and a display, wherein the motion tracker is configured for attachment to a vehicle at a position remote to the display and comprises a first tilt sensor configured to measure a first tilt angle with respect to a first axis and a second tilt sensor configured to measure a second tilt angle with respect to a second axis, wherein the controller is configured to receive data via an output of the motion tracker, said data comprising the first tilt angle and the second tilt angle, and communicate an instruction to the display to display a graphical representation indicative of the first tilt angle and the second tilt angle, and associated method.

An accident report device for reporting accident information to a predetermined report destination in a case where a vehicle is involved in an accident, includes: an image acquiring unit configured to acquire an image acquired by at least one vehicle-mounted camera mounted on the vehicle; an information acquiring unit configured to acquire information related to the vehicle; and an image control unit configured to control a terminal of the report destination such that the terminal displays a synthetic image generated based on the image, the synthetic image showing an area surrounding the vehicle and an external appearance of the vehicle as seen from a virtual viewpoint.