A vehicle passenger accident prevention system includes a vehicle operation status measurement unit that measures operation states of a vehicle and outputs corresponding signals, a driving unit to drive the vehicle, a braking unit to brake the vehicle, a FCA system that controls the operation of the driving unit and the braking unit, and a controller that detects the seated state of a passenger in the vehicle or a wearing state of a seat belt according to the output signal of the vehicle operation status measurement unit. In particular, the controller controls the operation of the FCA system according to a predetermined control mode in advance when a standing passenger in the vehicle is detected or an unbuckled seat belt is detected.

An assembly includes a seat. The assembly includes an anchor fixed relative to the seat. The assembly includes a blanket engageable with the anchor and inflatable to an inflated position. The assembly includes a computer having a processor and a memory storing instructions to inflate the blanket in response to detecting engagement of the blanket with the anchor and to deflate the blanket in response to detecting disengagement of the blanket from the anchor.

An assembly includes a seat. The assembly includes an anchor fixed relative to the seat. The assembly includes a blanket engageable with the anchor and inflatable to an inflated position. The assembly includes a computer having a processor and a memory storing instructions to inflate the blanket in response to detecting engagement of the blanket with the anchor and to deflate the blanket in response to detecting disengagement of the blanket from the anchor.

A safe exiting assistance system includes an object detector that detects an object which approaches from a rear side of a vehicle, a body detector that detects physical information of a passenger in the vehicle, a door opening/closing detector that detects door opening or closing information of the vehicle, a determiner that determines whether a situation requires alert to the passenger in response to detection results of the object detector and the door opening/closing detector and calculates a value sensed by the body detector in response to vehicle information set in advance, and a controller that differently controls a position and an irradiation angle of a light source in response to the physical information when information in which the alert is necessary is received from the determiner.

A safe exiting assistance system includes an object detector that detects an object which approaches from a rear side of a vehicle, a body detector that detects physical information of a passenger in the vehicle, a door opening/closing detector that detects door opening or closing information of the vehicle, a determiner that determines whether a situation requires alert to the passenger in response to detection results of the object detector and the door opening/closing detector and calculates a value sensed by the body detector in response to vehicle information set in advance, and a controller that differently controls a position and an irradiation angle of a light source in response to the physical information when information in which the alert is necessary is received from the determiner.

A gap blocking system includes a loading platform having a gap separating a first portion of the loading platform from a second portion of the loading platform. A ride vehicle is coupled to a transport extending through the gap. The gap blocking system also includes a panel assembly coupled to the loading platform and comprising a plurality of panels, wherein each panel of the plurality of panels is coupled to a respective biasing mechanism coupled to the first portion of the loading platform and configured to bias each panel towards a closed configuration in which each panel extends radially away from the first portion of the loading platform.

A gap blocking system includes a loading platform having a gap separating a first portion of the loading platform from a second portion of the loading platform. A ride vehicle is coupled to a transport extending through the gap. The gap blocking system also includes a panel assembly coupled to the loading platform and comprising a plurality of panels, wherein each panel of the plurality of panels is coupled to a respective biasing mechanism coupled to the first portion of the loading platform and configured to bias each panel towards a closed configuration in which each panel extends radially away from the first portion of the loading platform.

The invention relates to a method of folding an airbag (10), especially a driver airbag module, comprising a front airbag layer (11) which is connected at least in portions to a rear airbag layer (12), the method comprising the following steps of: a) flatly spreading the airbag (10) onto a support surface (15) so that the front airbag layer (11) comes to rest on the rear airbag layer (12), b) folding, especially zigzag folding, at least in portions each of a left-hand lateral airbag portion (30) and a right-hand lateral airbag portion (31) in the direction of a longitudinal axis (L) of the airbag (10), c) furling each of an upper airbag portion (20) and a lower airbag portion (21) in the direction of a transverse axis (Q) of the airbag (10).

The invention relates to a method of folding an airbag (10), especially a driver airbag module, comprising a front airbag layer (11) which is connected at least in portions to a rear airbag layer (12), the method comprising the following steps of: a) flatly spreading the airbag (10) onto a support surface (15) so that the front airbag layer (11) comes to rest on the rear airbag layer (12), b) folding, especially zigzag folding, at least in portions each of a left-hand lateral airbag portion (30) and a right-hand lateral airbag portion (31) in the direction of a longitudinal axis (L) of the airbag (10), c) furling each of an upper airbag portion (20) and a lower airbag portion (21) in the direction of a transverse axis (Q) of the airbag (10).

A door-mounted air bag and a control method for deploying the same are proposed. The door-mounted air bag is configured to minimize injuries to a passenger on a two-wheeled vehicle and a passenger in a vehicle when the passenger on the two-wheeled vehicle hits a door, and the door-mounted air bag includes a door-mounted air bag including: an air bag mounted to a door, and a cushion provided in the air bag and configured to be deployed in an inward direction of the door, and configured to be deployed in a form that covers an inner surface of a door trim and an edge of a door rear end.