A seating system for a vehicle, comprising, from the front to the rear of the vehicle: a first seat, a second seat, a third seat, the first seat, second seat, and third seat being located one behind the other in a longitudinal direction of the vehicle, the second seat being provided with a mechanism configured to cause, at least in an easy entry mode, the transition of the second seat from a position of use to an advanced position of non-use configured to facilitate lateral access to the third seat in the third row, and wherein a control device configured to limit automatically the amplitude of the kinematics of the mechanism, by the detection of an indirect contact between the second seat and the first seat, when the mechanism of the second seat is operated, in easy entry mode, from the position of use to the advanced position of non-use.

A system and method are provided for controlling an interior configuration of a vehicle. The system may include an interior vehicle component, an actuator component configured to adjust a physical configuration of the interior vehicle component, an external communication component configured to collect driving environment data representing an external environment of the vehicle, and one or more processors configured to receive driving environment data and detect, by processing the driving environment data, an external driving condition. When the one or more processors detect the external driving condition, the one or more processors may cause the actuator component to adjust the interior vehicle component from a first physical configuration to a second physical configuration, or may cause the actuator component to restrict movement of the interior vehicle component to a predetermined range of physical configurations.

An assembly includes a seat bottom having a rear and a pair of sides extending in a seat-forward direction from the rear. The assembly includes a seatback rotatably supported by the seat bottom. The assembly includes an active actuator operatively connected to the seatback to rotate the seatback about a vertical axis toward one of the sides of the seat bottom.

An extensively reconfigurable seat design can include a vehicle seat system including: a vehicle seat defining a vehicle occupant accommodating space, the vehicle seat including a seat cushion portion including multiple individually adjustable bladders, where each of the multiple individually adjustable bladders has a connected valve that controls fluid communication with an internal space of the individually adjustable bladder to adjust a pressure level within the internal space of the individually adjustable bladder, and an associated sensor configured to detect the pressure level within the internal space of the individually adjustable bladder. A computer can actively sense and control the pressure levels within the bladders, using the sensors and valves, to provide customization, adaptive, ride-active and intelligent control over a reconfigurable cushion for a vehicle.

An actuation system for a vehicle seat includes a housing and a gear system located in the housing having one or more gears coupled together. The gears of the actuation system have a low actuation efficiency such that the gears move in response to a first input. The actuation system further includes an efficiency switch that may be activated so that the actuation system has a higher actuation efficiency.

A slide for a vehicle seat, comprising a female rail having at least one substantially planar wall, a male rail also having at least one substantially planar wall, mounted to slide relative to the female rail, the female rail surrounding the male rail with the substantially planar wall of the female rail facing the substantially planar wall of the male rail, and a position sensor integral with the substantially planar wall of the male rail and provided between the substantially planar wall of the male rail and the substantially planar wall of the female rail, protruding from the substantially planar wall of the male rail towards the substantially planar wall of the female rail.

A seat arrangement for a vehicle includes a first seat including an airbag module having an inflatable airbag, and a second seat positionable adjacent to the first seat. The second seat includes a pivotable seatback that is pivotable between an upright use position and a forward pivoted position, and a movement mechanism associated with the seatback for moving the seatback from the use position to the pivoted position. The arrangement further includes a control system configured to actuate the movement mechanism to move the seatback of the second seat from the use position to the pivoted position when the second seat is unoccupied and upon detection of a potential vehicle impact, so that the airbag of the airbag module of the first seat may deploy between an occupant of the first seat and the seatback of the second seat.

An assembly includes a seat bottom having a rear and a pair of sides extending in a seat-forward direction from the rear. The assembly includes a seatback rotatably supported by the seat bottom. The assembly includes an active actuator operatively connected to the seatback to rotate the seatback about a vertical axis toward one of the sides of the seat bottom.

A roof airbag system includes a roof airbag, a lifting mechanism, a collision sensor, memory, and a processor coupled to the memory. The roof airbag is provided at a roof portion of a vehicle, receives a supply of gas from an inflator and deploys toward an upper body side of a vehicle occupant sitting on a vehicle seat. The lifting mechanism is provided at a seat cushion side of the vehicle seat and lifts a thigh area of the vehicle occupant. A collision sensor detects a collision of the vehicle. The processor is configured to, when a seat back of the vehicle seat is tilted more than a predetermined angle to the seat rear side and the collision sensor detects a collision of the vehicle, control the lifting mechanism to lift the thigh area of the vehicle occupant and control operation of the inflator to deploy the roof airbag.

An armrest apparatus for a vehicle includes: a lower arm located on a side surface of a seat and configured to rotate with respect to the seat by power of a lower arm motor; and an upper arm extending along a lengthwise direction of the lower arm and configured to rotate with respect to the lower arm by power of an upper arm motor.