A system includes a rail including a capacitive transmitter, a computer programmed to send an actuation identifier code along the capacitive transmitter, and a plurality of seats supported by the rail, each seat including a seat controller communicatively connected to the capacitive transmitter. Each seat controller is programmed to actuate a safety device when a device identifier code corresponding to the safety device matches the actuation identifier code.

A system and method are provided for improving safety of one or more vehicle occupants. The system may include an interior data collection component configured to collected interior configuration data representing a physical configuration of the interior space of the vehicle, a plurality of vehicle safety components configured to protect the one or more vehicle occupants when deployed and one or more processors configured to determine, by processing the interior vehicle configuration data, a location and orientation of the one or more vehicle occupants; select a subset of the plurality of vehicle safety components to be active based on the location and orientation of the one or more vehicle occupants; and set the selected subset of the plurality of vehicle safety components to an active state in which the selected subset of the plurality of vehicle safety components is deployed when an emergency condition is detected.

A vehicle includes a rail-mounted component. The rail-mounted component can be equipped with one or more restraints. A restraint monitoring system monitors the one or more restraints. The restraint monitoring system includes a restraint control module and a rail-mounted component control module. The rail-mounted component control module can include a restraint deployment loop and a restraint diagnostic loop for relaying restraint deployment signals and restraint diagnostic signals, respectively, between the restraint control module and the rail-mounted component control module.

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 seat position sensor arrangement for measuring a position of a seat with respect to a fixed part of an automotive vehicle includes a driving mechanism, a pair of wheels rotatably coupled by the driving mechanism and rotating with different angular speeds upon being driven by the driving mechanism, and at least one rotation sensor subassembly corresponding to each of the wheels. Each rotation sensor subassembly measures an angle of rotation of one of the wheels.

Various embodiments provide an electronic device and a method therefor, the electronic device comprising: at least one memory; a communication interface; one or more sensors; a location module; and at least one processor functionally connected to the at least one memory, the communication interface, the one or more sensors, and the location module, wherein the at least one processor is configured to acquire sensing data from at least one sensor among the one or more sensors, estimate a vehicle on-boarding state on the basis of the sensing data, and recognize, on the basis of the estimated vehicle on-boarding state, a vehicle on-boarding state by using the communication interface or the location module. Other embodiments are also possible.

A present implementation of an airbag system is adapted to include a curtain airbag assembly having a vertical barrier extended in a vertical direction when deployed, the vertical barrier having a first inflatable part deployed at a left side of a vehicle and a second inflatable deployed at a right side of the vehicle. The airbag system further includes sensors adapted to sense parameters associated with operational characteristics of a vehicle and an electronic control unit (ECU) adapted to receive the parameters from the sensors. The ECU is further adapted to monitor the plurality of parameters to determine if the vehicle is experiencing an accident. The airbag system further includes an inflation module adapted to deploy the curtain airbag assembly. If the ECU determines that an accident is occurring, the ECU provides a trigger signal to the inflation module to initiate a process to deploy the curtain airbag assembly.

An apparatus for helping to protect an occupant of a vehicle includes an airbag configured to be mounted to a seat back of a vehicle seat. The airbag is inflatable between the seat back and an adjacent side structure of the vehicle to one of a first deployed condition in which the airbag is configured for a non-reclined condition of the vehicle seat, and a second deployed condition in which the airbag is configured for a reclined condition of the vehicle seat. The airbag is configured to deploy to the first deployed condition in response to determining a non-reclined condition of the vehicle seat and to the second deployed condition in response to determining a reclined condition of the vehicle seat.

A restraint system (10) for helping to protect an occupant (60) of a vehicle (20) having a roof (32) and a cabin (40) with a seat (50) for the occupant (60) includes an airbag (70) mounted to the vehicle roof (32). The airbag (70) has a stored condition and is inflatable to a deployed condition. The airbag (70), when deployed, extends from an upper end (90) connected to the vehicle roof (32) to a lower end (92) positioned adjacent the occupant (60). The airbag (70) has a U-shaped configuration including a first leg (104) and a second leg (106) pivotable relative to the first leg (104) in response to occupant (60) penetration into the second leg (106). A tether (120) has first and second ends (122, 124) each connected to the airbag (70) for limiting pivotal movement of the second leg (106) relative to the first leg (104).

A method for operating an airbag of an occupant protection device of a vehicle moveable in autonomous driving mode involves positioning the airbag in an active position depending on at least one trigger condition. The airbag is automatically positioned and/or aligned within a vehicle interior depending on a positioning of a vehicle seat assigned to the airbag.