An assembly for a vehicle includes a vehicle roof and a vehicle floor spaced from the vehicle roof. The assembly includes a post elongated from the vehicle floor to the vehicle roof. The post being slidable along the vehicle roof and the vehicle floor in a vehicle-longitudinal direction. The assembly includes an airbag supported by the post.

In various examples, systems and methods are disclosed that accurately identify driver and passenger in-cabin activities that may indicate a biomechanical distraction that prevents a driver from being fully engaged in driving a vehicle. In particular, image data representative of an image of an occupant of a vehicle may be applied to one or more deep neural networks (DNNs). Using the DNNs, data indicative of key point locations corresponding to the occupant may be computed, a shape and/or a volume corresponding to the occupant may be reconstructed, a position and size of the occupant may be estimated, hand gesture activities may be classified, and/or body postures or poses may be classified. These determinations may be used to determine operations or settings for the vehicle to increase not only the safety of the occupants, but also of surrounding motorists, bicyclists, and pedestrians.

A braking system for vehicles with collapsible actuation pedal may have an operating pedal operatively connected to a hydraulic pump having a delivery circuit fluidically connected to an accumulator device. The delivery circuit may have a hydraulic branch equipped with at least one normally closed control valve. The control valve may be connected to a control actuator which commands its opening when an impact or accident is detected by an appropriate detector or the control valve may be calibrated to open automatically when a limit pressure and/or flow rate value is reached in the hydraulic branch following the lowering of the actuation pedal.

A vehicle safety system for helping to protect an occupant of a vehicle seat includes a seatbelt extensible around the occupant to help restrain the occupant in the vehicle seat. The seatbelt includes a lap belt configured to extend across the occupant at the hips. An airbag is secured to the lap belt and configured to inflate and deploy upward from the lap belt to a deployed position in front of the occupant. The system is configured to adjust the deployed position of the airbag in response to the position of the occupant.

A vehicle includes a rail-mounted component and a restraint monitoring system. The rail-mounted component can include one or more restraints. The restraint monitoring system includes a restraint control module, an encoder-decoder 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. The restraint deployment loop can include a deployment signal amplifier. The restraint diagnostic loop can include a diagnostic signal amplifier. In examples that include both the deployment signal amplifier and the diagnostic signal amplifier, the deployment signal amplifier and the diagnostic signal amplifier may be wired in parallel.

A vehicle airbag device includes: an inflator configured to generate gas when a first squib and a second squib are fired, respectively; an airbag including a main bag portion configured to inflate and deploy between an occupant seated in a passenger seat and an instrument panel and between the occupant and a windshield when the gas generated by the inflator is supplied into the airbag, and a center bag portion configured to project between the passenger seat and a driver seat from the main bag portion; and a controlling portion configured to control the inflator such that, when a head-on collision occurs, the second squib is fired after the first squib is fired, and when an oblique collision occurs, the second squib is fired after the first squib is fired and at a timing earlier than that when the head-on collision occurs.

A vehicle safety system for helping to protect an occupant of a vehicle seat includes a seatbelt extensible around the occupant to help restrain the occupant in the vehicle seat. The seatbelt includes a lap belt configured to extend across the occupant at the hips. An airbag is secured to the lap belt and configured to inflate and deploy upward from the lap belt to a deployed position in front of the occupant. The system is configured to adjust the deployed position of the airbag in response to the position of the occupant.

An occupant protection device including a seat belt including a shoulder belt and a lap belt, a locking tongue that is detachably joined to a buckle, that allows the seat belt to pass therethrough, and that is capable of switching between an unlock state in which the seat belt is allowed to move with the locking tongue being between the shoulder belt and the lap belt and a lock state in which movement thereof is restricted, a shoulder-belt puller that is capable of pulling the shoulder belt to apply a tensile force thereto, a side-collision detector that detects a side collision or a precursor thereof, and a control unit that changes a state of the locking tongue into the lock state and causes the shoulder-belt puller to pull the shoulder belt when the side-collision detector detects the side collision that occurs opposite an occupant or the precursor thereof.

The invention relates to a marking object that can be placed on a vehicle child seat for adaptive actuation of an airbag, which is configured to reflect electromagnetic radiation and mark a position and/or orientation of the vehicle child seat in relation to a vehicle seat for an imaging sensor based on the reflection, in order to actuate the airbag depending on the position and/or orientation of the vehicle child seat, wherein the marking object is a Quick Response code, radar reflector, lidar reflector, or infrared reflector. The invention also relates to a vehicle child seat, a method for determining a position and/or orientation of a vehicle child seat in relation to a vehicle seat, and interior monitoring system, a computer program for adaptive actuation of an airbag and a computer readable data carrier.

An electrical assembly includes a support assembly and/or a track assembly. The support assembly may include a first controller and/or a plurality of safety devices. The electrical assembly may include a track assembly and/or a second controller. The first controller and/or the second controller may be configured to control the plurality of safety devices via a conductor of the track assembly. The plurality of safety devices may include a first safety device, a second safety device, and/or a third safety device. The first safety device may include an airbag and/or may be configured to be activated by pyrotechnics. The first safety device may be configured to be activated by a first deployment current pulse. The support assembly may include a first portion that may include a first contact. The track assembly may include a first track that may include the conductor.