A crash sensor system includes an electronic control unit (ECU). The ECU has an accelerometer to measure longitudinal acceleration of the vehicle. Front crash satellite sensors are mounted at the front of the vehicle to detect a front or a rear crash event. When a front or rear crash event occurs, the first accelerometer is utilized to determine if the crash occurred at the front or the rear of the vehicle, regardless of the polarity of the front crash satellite sensors.

A transport vehicle for transporting at least four passengers through an airport has a body. A front passenger seat is disposed in the body and is dimensioned to seat two adults thereon. A rear passenger seat disposed in the body and is dimensioned to seat two adults thereon. An operator area, for supporting an operator of the vehicle is disposed on the body. The rear passenger seat is disposed between the front passenger seat and the operator area. A distance from a front of the body to a rear of the operator area is less than a depth of an airport elevator, and a width of the body is less than a width of an airport elevator door.

A seat airbag apparatus for a vehicle and a method of controlling the operation thereof, includes side cushions deployed from the seatback, front cushions configured to be deployed from the side cushions, and inflators for the side cushions and inflators for the front cushions. The deployment operation of the side cushions and the deployment operation of the front cushions are respectively controlled depending on a normal seating mode and a relax mode of an occupant and a side collision and a front collision of the vehicle.

The airbag includes a bag body that deploys and inflates to cover the interior side of the window, and a strap having an upper end attached to an upper window frame, a lower end attached to a lateral frame, and an intermediate portion connected to the body. The strap has an insertion portion, which is inserted through the insertion hole of the body, on the intermediate portion, so that the part from the upper end to the insertion portion is an outer side portion, which is placed on the outside of the body in the inflated state, and the part from the insertion portion to the lower end is an inner side portion. When the inflation of the body is completed, the inner side portion is pressed to the inside of the vehicle by the front edge side inflation portion, and generates tension in the strap and the body.

A control device for controlling a passenger protection device for a vehicle includes an input unit configured to receive a first acceleration signal in a first axial direction and a second acceleration signal in a second axial direction which are generated by an acceleration sensor disposed in a side door of a vehicle, a determination unit configured to determine whether a collision has occurred in the side door of the vehicle using at least one of the first acceleration signal and the second acceleration signal, and a control unit configured to control a passenger protection device disposed adjacent to the side door of the vehicle based on a result of determining whether the collision has occurred.

An airbag device for a vehicle provided with a door and a side sill includes an airbag and an application state detector. The airbag is deployed from a container to be disposed on a lower side of the door on a vehicle body to a region on a vehicle-widthwise outside of the door. The application state detector detects a load application state of a load from the airbag to the vehicle body. The airbag includes a first air chamber, a second air chamber, and an internal pressure controller. The first air chamber transmits a load applied from the vehicle-widthwise outside to a side surface of the side sill. The second air chamber couples a lower part of the first air chamber and the container. The internal pressure controller controls an internal pressure of the second air chamber based on the load application state detected by the application state detector.

A safety restraint system for a vehicle that includes seat belts that extend over both side pelvic portions and both side rib cage portions of the vehicle occupant and directly prevents inward and outward lateral displacement of the side pelvic portions and side rib cage portions during a side collision event. Said side belts attach to a forward-facing seat belt system with two shoulder belts, one on either side of the neck, for improved performance on the torso in a collision event, and a lap belt, while still maintaining the convenience of a single buckle click task for the occupant to secure the belt system.

Detecting off-zone crashes involving a vehicle using lateral acceleration values detected at locations within the vehicle. In one example method, an electronic processor receives a first acceleration value at a centerline of the vehicle from a first acceleration sensor of at least two acceleration sensors. The electronic processor also receives a second acceleration value at the centerline of the vehicle from a second acceleration sensor of the at least two acceleration sensors. The method also includes deriving, with the electronic processor, an approximate yaw acceleration at the centerline of the vehicle based on the first acceleration value and the second acceleration value. The method also includes comparing, with the electronic processor, the approximate yaw acceleration to a threshold and initiating, with the electronic processor, one or more actions in response to the yaw acceleration exceeding the threshold.

A side airbag apparatus includes an inflator, an airbag having a main inflation portion and an auxiliary inflation portion, and a restriction portion. The main inflation portion is configured to be inflated by inflation gas supplied from the inflator and deployed forward in a space between a side wail of the vehicle and an occupant seated in a normal posture in a vehicle seat. The auxiliary inflation portion is configured to be inflated in a seat back by the inflation gas from the inflator, thereby pushing the occupant toward an inner side of the vehicle. The restriction portion restricts the auxiliary inflation portion from being inflated toward a gap that is between the rear end section in the outer side portion of the seat back and the rear end section in the middle portion of the seat back.

An airbag system for a vehicle body includes an inflator and an airbag wherein the inflator is mounted on the vehicle body. The airbag includes a plurality of mounting portions, an inflatable main portion and a supplemental portion integral to the inflatable main portion at an upper edge of the inflatable main portion. The inflatable main portion includes an outboard interface side and an inboard engagement side while the supplemental portion includes an outboard vehicle side and an inboard interface side which is disposed adjacent to a portion of the outboard interface side of the inflatable main portion. The inflatable main portion is configured to deploy inboard of a vehicle window while the supplemental portion is configured to deploy between an upper region of the inflatable main portion and an upper vehicle rail thereby urging an upper region of the inflatable main portion toward an inboard direction.