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, a vehicle operation controller configured to generate vehicle operation data representing the operation of the vehicle, and one or more processors configured to receive vehicle operation data and detect, by processing the vehicle operation data, a specific action taken by the vehicle. When the one or more processors detect a specific action taken by the vehicle, the one or more processors may cause the actuator component to restrict movement of the interior vehicle component to a predetermined range of physical configurations.

A seat includes a seatback and an armrest supported by the seatback. The armrest is rotatable relative to the seatback to a deployed position. A swing bar is supported by the armrest and is rotatable relative to the armrest to a downward position. The swing bar in the downward position is elongated downwardly from the armrest. A drive belt is indexed with the armrest and the swing bar to rotate the swing bar to the downward position when the armrests rotates to the deployed position.

An occupant protection system for a vehicle may include a seat-back actuator system, including a seat-back actuator configured to move a portion of a seat toward a back of an occupant of the vehicle during a collision in which the occupant is facing opposite a direction of travel of the vehicle. The seat-back actuator system may also include an actuator controller configured to receive a triggering signal indicative of one or more of an actual change in velocity of the vehicle, a predicted change in velocity of the vehicle, a collision, or a predicted collision, and cause the seat-back actuator to move the seat toward the back of the occupant. By moving the seat toward the back of the occupant, a maximum rate of change of velocity of the back of the person may be reduced, reducing the likelihood or severity of injury to the occupant due to the collision.

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/restrict movement of a physical configuration of the interior vehicle component; one or more sensors configured to collect data corresponding to a state of the vehicle, an action of the vehicle, and/or an internal or external environment of the vehicle; and one or more processors configured to receive sensor data and detect, by processing the sensor data, a vehicle accident condition. After the one or more processors detect the vehicle accident 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.

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, a vehicle operation controller configured to generate vehicle operation data representing the operation of the vehicle, and one or more processors configured to receive vehicle operation data and detect, by processing the vehicle operation data, a specific action taken by the vehicle. When the one or more processors detect a specific action taken by the vehicle, 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.

A car seat system for automatically displacing the movable components of the car seat. The car seat including sensors and a computing module to detect the measurements of a child placed in the car seat. The car seat system determines the current position of the movable components and displaces the movable components automatically based on the child's measurements or a desired amount. The car seat system automatically learns child's behaviors when the child is placed in the car seat. The car seat system learns schedules utilized by the child, routes taken by the driver of the car, and other data over a period of time. The behavioral, scheduling, routing, and other data obtained is stored by the car seat system and utilized to enhance the safety and comfortability of the child during a car ride. The car seat system also determines thickness of clothing worn by the child while placed in the car seat and adjusts the shoulder belts to accommodate for the clothing while providing a snug fit of the shoulder belts that fall within safety recommendations. The car seat also auto reclines to a desired angle and also rotates about itself to face the door. The car seat system includes an auto-incident detection mode. In this mode, the system detects an incident, such as an accident, hard braking, or another hazard, and automatically displaces the features in the car seat to make the car seat secure during the crash minimizing the effect of the incident on the child. The car seat also includes pretensioners and motors to release, pull back, and lock the car seat belts.

A multidirectional control apparatus for a vehicular seat is provided to perform anteroposterior tilting, lateral tilting, control of height and tilting in other directions in consideration of the body size of a passenger and the traveling environment. The multidirectional control apparatus improves passenger comfort by tilting the seat in a lateral direction when entering or exiting a vehicle, prevents the passenger from leaning to one side by tilting the seat in a lateral direction during turning of the vehicle, and offers a safety function of protecting the passenger by inclining the seat in the direction of a collision in the event of a collision of the vehicle.

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 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.

Embodiments related to active seat suspensions as well as their methods of operation are disclosed. In one particular embodiment, a failure state of an active seat suspension may be detected after which operation of one or more actuators of the active seat suspension may be limited in response to the detected failure state. In another embodiment, a crash or imminent crash of a vehicle may be detected and an active seat suspension may be operated to lower a seat connected thereto to lower the seat toward an underlying portion of the vehicle. In yet another embodiment, operation of an active seat suspension may be limited to reduce a temperature of the active seat suspension when a rate of change and/or a magnitude of a sensed temperature of an actuator of an active seat suspension is greater than a predetermined threshold.