A method is disclosed in which sensor information is obtained that is captured by at least one environment sensor of an unmanned vehicle. The sensor information represents at least one object parameter of an object that is moving relative to the unmanned vehicle. At least partly based on the at least one object parameter, it is determined whether a collision between the unmanned vehicle and the object is imminent. If it is determined that a collision between the unmanned vehicle and the object is imminent, at least partly based on the at least one object parameter, at least one triggering parameter is determined for triggering at least one crash cushion of the unmanned vehicle. The at least one crash cushion is triggered according to the at least one triggering parameter. The at least one crash cushion is triggered before the imminent collision.

A vehicle includes a safety device, a camera sensor configured to detect an obstacle around the vehicle, a radar sensor configured to detect the obstacle around the vehicle, and a controller configured to predict a collision state and a collision position of the vehicle through the camera sensor and the radar sensor, determine whether to control the safety device based on at least one of a vehicle type, a collision speed, a seat position of an occupant, whether the occupant wears a seat belt, a gender of the occupant, whether the occupant is an infant, or a size of the occupant, in response to a prediction result, and control the safety device depending on device determination result.

A vehicular safety feature control system includes a camera disposed at a vehicle that views exterior of the equipped vehicle. The vehicular safety feature control system includes an electronic control unit (ECU) for processing image data captured by the camera to detect presence of objects. The ECU, responsive to processing of image data captured by the camera, detects an object on a collision course with the equipped vehicle. The ECU, responsive to detecting the object on the collision course with the equipped vehicle, classifies the detected object. The ECU estimates a mass of the detected object based on the classification. The ECU estimates a kinetic energy of a potential collision and, based on the estimated kinetic energy of the potential collision, estimates a severity of the potential collision. The ECU controls a safety feature of the equipped vehicle based on the estimated severity of the potential collision.

The present disclosure relates to a method for operating a restraint system having at least one airbag, wherein a head position of a vehicle occupant relative to a reference point in the vehicle is continuously defined. The distance between the head of the vehicle occupant and the at least one airbag in the idle state is determined from the defined head position of the vehicle occupant. The determined distance is evaluated by a comparison with stored reference values and at least one triggering size of the at least one airbag is determined on the basis of the comparison. When the restraint system is triggered, triggering signals corresponding to the at least one triggering size are transmitted to the at least one airbag, as well as to a corresponding restraint system for a vehicle.

A vehicle includes a safety device, a camera sensor configured to detect an obstacle around the vehicle, a radar sensor configured to detect the obstacle around the vehicle, and a controller configured to predict a collision state and a collision position of the vehicle through the camera sensor and the radar sensor, determine whether to control the safety device based on at least one of a vehicle type, a collision speed, a seat position of an occupant, whether the occupant wears a seat belt, a gender of the occupant, whether the occupant is an infant, or a size of the occupant, in response to a prediction result, and control the safety device depending on device determination result.

An occupant monitoring device for a vehicle is configured to monitor an occupant sitting on a seat provided in the vehicle and includes a light projector, an imaging device, and a processor. The light projector is configured to project light toward the occupant sitting on the seat. The imaging device is configured to capture an image of the occupant sitting on the seat. The processor is configured to control the light projector and the imaging device to capture the image of the occupant sitting on the seat. In a case where a collision of the vehicle is neither predicted nor detected, the processor causes the imaging device to capture an image of behavior of the occupant corresponding to either one of travel control and behavior of the vehicle so as to change occupant protection control.

A method is disclosed in which sensor information is obtained that is captured by at least one environment sensor of an unmanned vehicle. The sensor information represents at least one object parameter of an object that is moving relative to the unmanned vehicle. At least partly based on the at least one object parameter, it is determined whether a collision between the unmanned vehicle and the object is imminent. If it is determined that a collision between the unmanned vehicle and the object is imminent, at least partly based on the at least one object parameter, at least one triggering parameter is determined for triggering at least one crash cushion of the unmanned vehicle. The at least one crash cushion is triggered according to the at least one triggering parameter. The at least one crash cushion is triggered before the imminent collision.

An occupant monitoring device for a vehicle is configured to monitor an occupant sitting on a seat provided in the vehicle and includes a light projector, an imaging device, and a processor. The light projector is configured to project light toward the occupant sitting on the seat. The imaging device is configured to capture an image of the occupant sitting on the seat. The processor is configured to control the light projector and the imaging device to capture the image of the occupant sitting on the seat. In a case where a collision of the vehicle is neither predicted nor detected, the processor causes the imaging device to capture an image of behavior of the occupant corresponding to either one of travel control and behavior of the vehicle so as to change occupant protection control.

An occupant restraint structure (5) includes a steering wheel (300) provided with a grip section (310), an instrument panel (500), an airbag (410) and a collision control part (900). The grip section (310) has an acyclic shape. The steering wheel (300) is formed to be movable toward a front side or a lower side of the vehicle. Upon collision of the vehicle, the collision control part (900) is configured to deploy the airbag (410) after the steering wheel (300) is moved toward the front side or the lower side of the vehicle.

An occupant constraint system may include a belt marker on a seat belt in a passenger compartment of the vehicle for restraining a passenger during a collision. The occupant constraint system may include a camera system for producing marker position data that is indicative of a position of the marker, and a physical characteristic estimator that is uses the marker position data to produce a physical characteristic estimate of a physical characteristic estimate of the passenger. The occupant constraint system may include a passenger related system having a passenger function and the passenger related system may control the passenger function based at least in part on the physical characteristic estimate.