A seat arrangement for a vehicle includes a first seat including an airbag module having an inflatable airbag, and a second seat positionable adjacent to the first seat. The second seat includes a pivotable seatback that is pivotable between an upright use position and a forward pivoted position, and a movement mechanism associated with the seatback for moving the seatback from the use position to the pivoted position. The arrangement further includes a control system configured to actuate the movement mechanism to move the seatback of the second seat from the use position to the pivoted position when the second seat is unoccupied and upon detection of a potential vehicle impact, so that the airbag of the airbag module of the first seat may deploy between an occupant of the first seat and the seatback of the second seat.

A vehicular safety system includes a plurality of vehicular cameras disposed at a vehicle. Image data captured by a forward-viewing vehicular camera of the plurality of vehicular cameras is processed by the vehicular safety system for headlamp control and for lane departure warning and/or object detection. At least one other sensing system of the vehicle is operable to capture sensor data. Responsive at least in part to processing by the vehicular safety system of captured image data and captured sensor data, a potential collision involving the vehicle is determined. Responsive to determination of the potential collision involving the vehicle, a safety feature of the vehicle changes its condition. If actual collision does not occur, the safety feature returns to its condition that existed prior to determination of the potential collision.

A vehicle seat assembly is provided with a seat bottom that is adapted to be mounted to a vehicle floor. A seatback is adapted to be pivotally mounted adjacent to the seat bottom. An actuator is in cooperation with the seat bottom or the seatback. A controller is in electrical communication with the actuator and programmed to receive input indicative of a potential vehicle impact. In response to receiving the input indicative of the potential vehicle impact, the controller outputs a signal to the actuator to tilt the seatback, or to tilt the seat bottom.

Systems and methods define a stimulation pattern for a juvenile product utilizing a mobile device that executes a mobile application that is linked to the juvenile product. The method comprises the step of recognizing, by the mobile device when executing the mobile app, the user-defined stimulation pattern for the juvenile product. The stimulation pattern can be a vibration pattern or a motion pattern, and can be detected in a number of different ways by the mobile device. The method further comprises the step of determining control signals for the actuator(s) of the juvenile product based on the user-defined stimulation pattern that is recognized by the mobile device. The method further comprises the step of, in response to receiving a command to execute the user-defined stimulation pattern, controlling the actuator(s) of the juvenile product based on the stored control signals for the user-defined stimulation pattern.

A restraint system for a vehicle includes an instrument panel and an airbag supported by the instrument panel. The restraint system includes a right deflector supported by the instrument panel adjacent the airbag. The right deflector is deployable between a retracted position and a deployed position. The restraint system includes a left deflector supported by the instrument panel adjacent the airbag opposite the right deflector in a cross-vehicle direction. The left deflector is deployable between a retracted position and a deployed position. The restraint system includes a first pyrotechnic device coupled to the right deflector and a second pyrotechnic device coupled to the left deflector.

A restraint system for a vehicle includes an instrument panel and an airbag supported by the instrument panel. The restraint system includes a right deflector supported by the instrument panel adjacent the airbag. The right deflector is deployable between a retracted position and a deployed position. The restraint system includes a left deflector supported by the instrument panel adjacent the airbag opposite the right deflector in a cross-vehicle direction. The left deflector is deployable between a retracted position and a deployed position. The restraint system includes a first pyrotechnic device coupled to the right deflector and a second pyrotechnic device coupled to the left deflector.

In a method for protecting vehicle occupants in the passenger compartment of a vehicle, particularly a motor vehicle. It is provided as essential to the invention that at least one structure-borne sound signal is captured by at least one structure-borne sound sensor, the captured structure-borne sound signal is evaluated by at least one evaluation device, the structure-borne sound signal can be produced by at least one person located in the passenger compartment of the vehicle, and after the capture and evaluation of the structure-borne sound signal at least one control signal is sent to a triggering device of an air supply device to introduce air into the passenger compartment of the vehicle.

An emergency vehicle flotation system has bladder(s) attached in a compressed state on a vehicle. An inflation initiating component comprising a selected one or more of a submersion sensor attached to the vehicle to detect water pressure indicative of submersion of the vehicle and a user interface device. Selectable force gas generator(s) (SFGGs) have one gas-generating propellant cells that are individually fired. The SFGG(s) have conduit(s) that receive gas from fired gas-generating propellant cells and direct the gas to inflate the bladder(s). A controller is communicatively coupled to the inflation initiating component and the gas-generating propellant cells of the one or more SFGGs. The controller enables the emergency vehicle flotation system to receive an inflation signal from the inflation initiating component, and to fire a selected number of the more than one gas-generating propellant cells to at least partially inflate the bladder(s).

An assembly includes a vehicle interior component. The assembly includes an airbag mounted to the vehicle interior component. The assembly includes a deployable panel supported by the vehicle interior component adjacent the airbag, the deployable panel being movable relative to the vehicle interior component between a retracted position and an extended position. The assembly includes a spring between the vehicle interior component and the deployable panel. The spring biases the deployable panel toward the extended position.

A vehicle seat control device includes a collision prediction part that predicts a collision direction of a collision occurring in a vehicle, a first driving part that rotates a vehicle seat around an axis of the vehicle in a substantially upward/downward direction, and a controller that controls the first driving part such that a direction of the vehicle seat is changed to an opposite direction with respect to the collision direction on the basis of the predicted collision direction.