A vehicle system for mitigating the effects of rear or front collisions includes a vehicle seat having a vehicle seat cushion and a vehicle seatback. The vehicle seatback is rotatable relative to the vehicle seat cushion. An actuation system adjusts the position of the vehicle seatback relative to the vehicle seat cushion or the vehicle seat cushion relative to the vehicle seatback. Characteristically, the vehicle system also includes a profile selector that receives vehicle seat contextual data and determines an actuation travel profile that is applied to the vehicle seatback via the actuation system in response to the vehicle seat contextual data indicating a collision triggering event.

A vehicle seat for supporting an occupant in a vehicle. The vehicle seat includes a backrest and a headrest.

A protective system for a high voltage module of an electrified vehicle arranged at least partially in a crush zone of the vehicle comprises a housing defining a front end and a rear end and having the high voltage module disposed therein, wherein the front end is securely connected to a frame of the vehicle and the rear end is disconnected from or loosely connected to the frame, the front end including high voltage wiring for the high voltage module, and a displacement device connected to the frame behind the rear end of the housing, wherein in response to a vehicle impact event that compresses the frame in the crush zone, the displacement is configured to vertically displace the rear end of the housing and the high voltage module therein, thereby protecting the high voltage module and the high voltage wiring from damage during compression of the crush zone.

An airbag includes an upper portion and a lower portion. The upper portion is for extending from a vehicle roof and engagement with a head rest of a seat in an inflated position. The lower portion forms a cushion board that extends downwardly from the upper portion for engagement with and disposition between a seatback and a restraining bar located rearward of the seatback in the inflated position.

An occupant protection apparatus includes a seat arrangement determination unit that determines the arrangement of seats and a collision determination unit that determines information about collision occurring to a vehicle. A deployment control unit deploys an airbag when the direction of the seat and the direction of the seat determined by the scat arrangement determination unit (94) are opposed to each other, and the direction of the collision determined by the collision determination unit is on the front side of the seat, or on the front side of the seat.

An occupant protection system includes a seat disposed such that a rear surface of a seatback in a seat front-rear direction faces a wall portion of a vehicle cabin; an airbag provided in the wall portion or the seatback and configured to support the seatback by inflating and deploying between the wall portion and the seatback; and an inflator configured to generate gas to be supplied to the airbag in a case where a collision that causes an occupant seated in the seat to inertially move rearward in the seat front-rear direction is detected or predicted. The airbag has a vent hole through which the gas inside the airbag is discharged outside.

A collision avoidance system includes a sensor system and a control system. The sensor system includes at least one sensor associated with a subject vehicle. The control system includes at least one processing device. The control system is operable to receive sensor data from the sensor system. The control system is operable to generate acceleration data to prepare for an acceleration action of the subject vehicle. The control system is operable to generate steering data to prepare for a steering action of the subject vehicle. The control system is operable to perform operations to provide driving assistance to the subject vehicle if a driving control input is received after the control unit generates the acceleration data and the steering data. The control system is operable to control the subject vehicle in an autonomous driving mode if driving control input is not received after the control unit generates the acceleration data and the steering data.

A deployable containment system of a vehicle includes a pair of guide channels that surround an opening facing one of a forward direction of travel of the vehicle and a backward direction of travel of the vehicle. Each of the guide channels has a first end and a second end. A housing is mounted to the first ends of the guide channels. A shield is configured to: deploy from the housing; travel along the guide channels toward the second ends of the guide channels; and cover at least a portion of the opening, An actuator is configured to, in response to being triggered, deploy the shield from the housing and move the shield along the guide channels toward the second ends of the guide channels.

An example vehicle for monitoring windshield vibrations for vehicle collision detection includes a windshield, a vibration sensor coupled to the windshield to detect window vibrations of the windshield, a first accelerometer to detect vehicle body vibrations of a vehicle body, and a restraint control module. The restraint control module is to detect an event based upon the window vibrations and determine whether the event is a collision event or a non-collision event responsive to comparing the window vibrations and the vehicle body vibrations.

A reversing assistance device suited for a mining dump truck measures a first distance to a first object, which exists at a first height comprising a trajectory of a rear wheel of the dump truck during reversing, and a second distance to a second object, which exists at a second height comprising a trajectory of a vessel during the reversing, for computing the position of the first object. If the distance between the position of the first object and a designated loading position designated by an operator of a loading machine is equal to or smaller than a threshold, the first object is determined to be an approachable object, a smaller one of the first distance and the second distance is determined as a target stop distance, and based on the target stop distance, a target stop position is computed.