A seatbelt assembly includes webbing elongated along a length, a clip slidable along the length of the webbing, an indicator extending along the length of the webbing, and a sensor coupled to the clip and sensitive to the indicator. The seatbelt assembly measures a length of a lap band stretched across an occupant. Safety features may be tailored to the body type of the occupant.

An active bolster for a vehicle is provided, wherein the bolster comprises an expansible hollow interior that is inflatable and is self-supporting in both an inflated and in an uninflated position. The bolster has an inflator module for inflating the expansible hollow interior. The bolster has an inner wall for projecting inwardly into the vehicle and away from the side of the vehicle on inflation of the expansible hollow interior. The bolster may have a relatively non-expansible component located between a first expansible chamber and a second expansible chamber. The bolster may comprise an outer wall having an attachment portion for attaching the outer wall to a portion of the side of the vehicle.

An active bolster for a vehicle is provided, wherein the bolster comprises an expansible hollow interior that is inflatable and is self-supporting in both an inflated and in an uninflated position. The bolster has an inflator module for inflating the expansible hollow interior. The bolster has an inner wall for projecting inwardly into the vehicle and away from the side of the vehicle on inflation of the expansible hollow interior. The bolster may have a relatively non-expansible component located between a first expansible chamber and a second expansible chamber. The bolster may comprise an outer wall having an attachment portion for attaching the outer wall to a portion of the side of the vehicle.

An apparatus for dynamically tilting a seatpan in an aircraft passenger seating assembly includes a seat frame, seatback, seat cushion, and cushion support structure (e.g., a seatpan), the seat cushion and seatpan together having a forward end and a rear end and together supporting a passenger occupying the seating assembly. Accelerometers may detect an inertial event such as a rapid deceleration that may cause the passenger to pitch forward; dynamic seatpan actuators (e.g., airbags or ballistic devices) connected to the accelerometers react to the inertial event by detonating, driving the seatpan and seat cushion upward. As a result, the head path of the passenger may be redirected upward, alleviating the risk of passenger injury and component damage. Additional airbags may react to the inertial event by tightening the passenger seatbelt.

An apparatus for dynamically tilting a seatpan in an aircraft passenger seating assembly includes a seat frame, seatback, seat cushion, and cushion support structure (e.g., a seatpan), the seat cushion and seatpan together having a forward end and a rear end and together supporting a passenger occupying the seating assembly. Accelerometers may detect an inertial event such as a rapid deceleration that may cause the passenger to pitch forward; dynamic seatpan actuators (e.g., airbags or ballistic devices) connected to the accelerometers react to the inertial event by detonating, driving the seatpan and seat cushion upward. As a result, the head path of the passenger may be redirected upward, alleviating the risk of passenger injury and component damage. Additional airbags may react to the inertial event by tightening the passenger seatbelt.

A vehicle includes left and right front wheels, a left shock absorber, a right shock absorber, a linkage mechanism including a right side member, a left side member, a plurality of cross members, and an air bag housing case having a bottom surface and side surfaces, and housing an undeployed air bag in a housing space defined by the bottom surface and the side surfaces. The air bag housing case is located behind the linkage mechanism in a front-rear direction and below an upper end of a handlebar in a top-bottom direction, and at least partially located above a lower end of a movable region of the right side member, the left side member, and the cross members of the linkage mechanism. The bottom surface is disposed along a surface including a rear portion of the movable region when seen from a side of the vehicle.

A vehicle includes left and right front wheels, a left shock absorber, a right shock absorber, a linkage mechanism including a right side member, a left side member, a plurality of cross members, and an air bag housing case having a bottom surface and side surfaces, and housing an undeployed air bag in a housing space defined by the bottom surface and the side surfaces. The air bag housing case is located behind the linkage mechanism in a front-rear direction and below an upper end of a handlebar in a top-bottom direction, and at least partially located above a lower end of a movable region of the right side member, the left side member, and the cross members of the linkage mechanism. The bottom surface is disposed along a surface including a rear portion of the movable region when seen from a side of the vehicle.

A roof airbag apparatus may include: a gas injection unit configured to discharge gas; a tether guide extending in a longitudinal direction of a roof; and an airbag configured to be deployed by gas transferred from the gas injection unit. The airbag may include: a first chamber part coupled to the tether guide and configured to be deployed in a longitudinal direction of the tether guide by gas transferred from the gas injection unit; and a second chamber part coupled to the first chamber part, and configured to be deployed by gas transferred from the first chamber part and cover the first chamber part.

A side curtain airbag assembly includes an inflatable cushion and a sock for housing the cushion in a folded state. At least one of the cushion and sock includes a plurality of spaced markings arrayed along its respective longitudinal extent. Each marking is defined by at least two indicia including a first indicium and a second indicium. Each of the first indicium and second indicium is formed from a plurality of similarly shaped and sized interconnected pixels which together provide for first and second indicia having a predetermined height and width.

A side curtain airbag assembly includes an inflatable cushion and a sock for housing the cushion in a folded state. At least one of the cushion and sock includes a plurality of spaced markings arrayed along its respective longitudinal extent. Each marking is defined by at least two indicia including a first indicium and a second indicium. Each of the first indicium and second indicium is formed from a plurality of similarly shaped and sized interconnected pixels which together provide for first and second indicia having a predetermined height and width.