A head and neck support and protection device includes an arm that is pivotably mounted, at a first end, to a support and has at a second end a slidably-mounted element connected to a helmet clip. The helmet clip engages a helmet pin. A resistance block transfers energy into a vehicle chassis when the arm hits the resistance block. The slidably-mounted element slides out of the arm, in a controlled manner, when conditions indicating a crash have been met.

Based on a detection information from a plurality of sensors detecting a surrounding object in different fashions, a vehicle control apparatus configured to perform vehicle control for avoiding or mitigating a collision with the object determines an occurrence of a detection capability impaired state in which a detection capability for detecting the object is impaired at any of sensors, based on the detection information about the sensor or the other sensors. The vehicle control apparatus shortens an actuation time until implementing the vehicle control, in comparison with a time when the sensor detects the object without causing the detection capability impaired state, if the object is detected by the sensor in which the detection capability impaired state has been eliminated within a predetermined time after determining that the detection capability impaired state has been eliminated.

A seat belt test apparatus for testing a safety restraint system for a vehicle comprises a first, a second, and a third test stand, an impactor apparatus, and a resistor apparatus. The first, a second, and a third test stand are selectively fixed to a test bench. The first, second and third test stands each comprises a pulley disposed proximate a top end of each of the first, second, and third test stand. The first test stand further comprises a first pretensioner mount. The third test stand further comprises a second pretensioner mount.

A vehicle seat mounted with an occupant restraint device, the vehicle seat includes: a seat cushion frame; a seatback frame including a seatback side frame extending in a seat vertical direction at a seat width direction end portion of the seatback frame, the seatback frame being swingable at a seat rear end side of the seat cushion frame, and the seatback frame extending from the seat rear end side toward a seat upper side; a metal inflating body disposed along the seatback side frame, and configured so as to be stretched out toward a seat lower side such that a lower end of the metal inflating body abuts a vehicle floor surface; and a drive member configured to stretch out the metal inflating body in a case in which a vehicle collision at a seat front side occurs or the vehicle collision at the seat front side has been predicted.

A vehicle seat mounted with an occupant restraint device, the vehicle seat includes: a seat cushion frame; a seatback frame including a seatback side frame extending in a seat vertical direction at a seat width direction end portion of the seatback frame, the seatback frame being swingable at a seat rear end side of the seat cushion frame, and the seatback frame extending from the seat rear end side toward a seat upper side; a metal inflating body disposed along the seatback side frame, and configured so as to be stretched out toward a seat lower side such that a lower end of the metal inflating body abuts a vehicle floor surface; and a drive member configured to stretch out the metal inflating body in a case in which a vehicle collision at a seat front side occurs or the vehicle collision at the seat front side has been predicted.

A vehicle safety system is mounted on a far-side vehicle seat for protecting a far-side occupant in a near-side impact crash event. The vehicle safety system includes an occupant restraint mounted on an inboard side of a seat back of the far-side vehicle seat. The restraint includes a support frame rotatable from a stowed condition where the support frame is aligned with the seat back and a deployed condition where the support frame is forward of the seat back. The support frame includes a rear arm and a forward arm each rotatably connected to the seat back at separate mounting points with the mounting point of the rear arm located above the mounting point of the forward arm. In a near-side impact crash event the restraint is rotated into the deployed condition inboard of the far-side vehicle seat to restrain the far-side occupant against lateral movement within the vehicle.

A vehicle safety system is mounted on a far-side vehicle seat for protecting a far-side occupant in a near-side impact crash event. The vehicle safety system includes an occupant restraint mounted on an inboard side of a seat back of the far-side vehicle seat. The restraint includes a support frame rotatable from a stowed condition where the support frame is aligned with the seat back and a deployed condition where the support frame is forward of the seat back. The support frame includes a rear arm and a forward arm each rotatably connected to the seat back at separate mounting points with the mounting point of the rear arm located above the mounting point of the forward arm. In a near-side impact crash event the restraint is rotated into the deployed condition inboard of the far-side vehicle seat to restrain the far-side occupant against lateral movement within the vehicle.

An energy-absorbing restraint web assembly may include a motor vehicle seat restraint web and an energy absorption web having a first length, a first end attached to the restraint web at a first location thereof and a second end, opposite the first end of the energy absorption web, attached to the restraint web at a second location thereof, the energy absorption web responsive to a transverse force applied to the restraint web between first and second ends thereof that is greater than a threshold force to elongate and absorb energy while elongating, wherein the restraint web defines a second length between the first and second locations thereof, the second length of the restraint web greater than the first length of the energy absorption web such that the overall length of the restraint web increases as the energy absorption web elongates.

A system allowing a wheelchair bound user to embark and disembark a vehicle without assistance. The user requests entry into the vehicle. The vehicle is manually or autonomously driven into a safe position for ingress. The vehicle checks if the area is clear to open the door. The vehicle autonomously opens the door. The vehicle verifies the person is wheelchair bound. If the passenger is wheelchair bound, then: the vehicle verifies if the area is clear to deploy an inclined ramp or lift. The vehicle deploys the inclined ramp or lift. The vehicle waits until the user is on top of the lift and starts lifting the wheelchair bound person. The vehicle waits until the user at the correct height and transitions from the lift/ramp into the securement station inside of the vehicle. The vehicle verifies that the wheelchair is properly positioned for securement. The vehicle secures the wheel chair.