An electronic controller of a restraint control system for a vehicle comprises an electronic control unit including a first serial interface. The electronic controller also comprises a communications controller including a second serial interface and a plurality of PSI5 (Peripheral Sensor Interface 5) digital communications interfaces. Each of the first and second serial interfaces are Serial Peripheral Interfaces (SPI) in direct communications with one another, and the digital communications interfaces are each configured to communicate with a remote sensor. The communications controller is configured to transmit a voltage sync pulse to each of the remote sensors via the PSI5 digital communications interfaces in response to a synchronization command received from the electronic control unit via the serial interconnection. The voltage sync pulses on each of the PSI5 interfaces may be staggered and non-overlapping to reduce EMI production and to reduce the current load of the electronic controller.

A method for determining an adjustment of a vehicle seat in a vehicle having at least one occupant-protection arrangement, in which an occupant type of an occupant is ascertained when the occupant enters the vehicle, and an adjustment of the vehicle seat is determined as a function of the ascertained occupant type, so that the determined occupant type is optimally aligned with respect to the at least one occupant-protection arrangement of the vehicle.

A vehicle occupant re-straining device, comprising, an air bag inflated and deployed on both sides of a vehicle occupant; tension cloth housed so as to extend from the inside of the seat back of a seat into a seat cushion; an angle detection means for detecting the reclining angle of the seat back; and an inner pressure control means for controlling, depending on the reclining angle, pressure in the air bag at the time of inflation and deployment thereof, wherein the tension cloth is deployed on the sides of the seat when the surface material of the seat is broken open by the inflation and deployment of the air bag, thereby holding the surfaces of the air bag, which are located on the opposite sides of the vehicle occupant, and wherein the inner pressure control means reduces pressure in the air bag.

An occupant protection system for a vehicle seat on which an occupant sits, the occupant protection system including: an acquiring unit that acquires information of at least one of a state of the vehicle seat, a state of the occupant seated on the vehicle seat, a traveling state of the vehicle, or an environment state of a periphery of the vehicle; a plurality of airbags disposed in correspondence with each portion of the occupant and inflated by supply of gas; a gas generator that generates the gas to be supplied to the airbags; and a control unit that, based on the information acquired by the acquiring unit, selects airbag out of the plurality of airbags, necessary to suppress the occupant from moving in an acting direction of inertial force from the vehicle seat, and that controls a supply amount of the gas to each airbag such that the selected airbag inflates.

An airbag deployment apparatus includes: an active sensor detecting information of a collision object to a vehicle; a pressure sensor detecting pressure applied to the vehicle during a collision of the vehicle; an inertia sensor detecting acceleration of the vehicle; a first collision determination part determining whether a vehicle collision occurs or not by information of the active sensor; a second collision determination part additionally determining whether a vehicle collision occurs or not by information of the pressure sensor and a result of the first collision determination part; a third collision determination part additionally determining whether a vehicle collision occurs or not by information of the inertia sensor and results of the first and second collision determination parts; and an airbag deployment determination part determining whether an airbag is deployed or not by a result of the third collision determination part.

Upon detecting that an occupant has donned electronic smart glasses, an occupant protection system in a vehicle takes into account that the occupant is wearing electronic smart glasses.

An assembly of a dash for a vehicle includes a first plate and a second plate movable along an axis away from the first plate. The second plate moves from an undeployed position to a deployed position. The assembly includes spring between the first plate and the second plate that biases the second plate toward the deployed position. The assembly includes a post extending along the axis from the second plate through the first plate. The assembly includes a pin releasably engaging the post with the first plate in the undeployed position. The assembly includes a release supported by the first plate and connected to the pin. The pin is disengageable from the post transverse to the axis by the release.

An apparatus for helping to protect an occupant of a vehicle includes an airbag configured to be mounted to a support structure of the vehicle. The airbag is inflatable to deploy from a stored condition away from the support structure toward a vehicle seat in which the occupant is seated 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 roof curtain airbag for a vehicle includes an airbag cushion that is expanded to a space between passengers seated on respective seats when a plurality of seats are arranged to face each other, so that a collision between the passengers is prevented and the passengers are protected from impact by the airbag cushion.

An apparatus for operating an airbag of an autonomous vehicle may include: an interior image sensor configured to capture an interior image of a vehicle; an input unit configured to receive collision prediction information from an autonomous driving system and the interior image from the interior image sensor; an airbag module installed at the front and side of the interior of the vehicle, and configured to deploy an airbag; and an airbag control unit configured to estimate the sitting position and dynamic behavior of the passenger from the interior image inputted from the input unit, estimate a collision status from the collision prediction information, determine an airbag to be deployed and a time to deploy the airbag according to the sitting position, and then output a deployment signal to the airbag module.