An electronic control system for vehicle seatbacks is provided. The electronic control system can detect an obstruction or a motor stall by comparing the energy consumed by a seatback motor with an obstruction threshold and a stall threshold, the threshold being selected based upon the position of the seatback. The electronic control system can additionally control the synchronous folding of two or more adjacent powered seatbacks. The electronic control system causes the motor for the lagging seatback to receive a maximum driving voltage and causes the motor for the leading seatback to receive a partial driving voltage. Once the seatbacks are in alignment, a normal driving voltage is provided to both motors.

A system for changing rear seat positions in a vehicle between deployed and folded configurations. The system comprises means to effect the steps of initiating a movement of the rear seating and, after initiation, moving the front seat so that collision between the seating is avoided. The front seat is returned to its previous position, or as near as possible thereto, afterwards. The system includes means to detect the position of the seating and to calculate whether a collision will occur, and automatically to effect the requisite movements of the front seating to avoid the collision.

An adjustment device for the automatic seat position change in a vehicle from an actual setting into a predefinable target setting including an electronic control unit for automatically setting at least one actuator for adjusting at least one seat-position-dependent adjustable vehicle component depending on detected vehicle occupant data. In this case, the control unit has an analysis unit for determining an efficiency-oriented adjustment space requirement for the adjustment of the actual setting into the target setting depending on the vehicle occupant data and the vehicle interior geometry.

A seat having a fixed section, a movable section mounted so as to slide on the fixed section, a seating portion supported by the movable section, and a backrest mounted so as to rotate relative to the movable section to allow folding the backrest forward. The movable section is controlled to move rearward when the backrest is folded forward.

A vehicle includes a front seating assembly and a rear seating assembly. An occupant sensor senses occupancy of the front seating assembly. A proximity sensor senses an object in a footwell behind the front seating assembly. A rear door sensor senses the opening of a rear door. A controller activates an actuator to move the front seating assembly forward based on the sensed occupancy, a sensed object, and sensed door opening. A method of controlling a vehicle seating assembly includes the steps of: sensing the front seating assembly is unoccupied with the occupant sensor; detecting in the footwell behind the front seating assembly with the proximity sensor; sensing a rear door position with the door sensor; and moving the front seating assembly forward when the front seating assembly is unoccupied, an object is in the footwell, and the rear door is in an open position.

A vehicle control system includes: a seat (310) in which an occupant sits; a first slide mechanism (320) configured to enable movement of the seat in a longitudinal direction of a vehicle; a second slide mechanism (322) configured to enable movement of the seat in the longitudinal direction of the vehicle and to be movable in the longitudinal direction of the vehicle along the first slide mechanism; an automated driving control unit configured to execute automated driving of automatically controlling at least one of acceleration/deceleration and steering of the vehicle; and a seat control unit configured to enable movement of the seat using the first slide mechanism and the second slide mechanism in a case that the automated driving is being executed by the automated driving control unit and to enable movement of the seat using the first slide mechanism in a case that the automated driving is not being executed.

A deployable working surface is provided for use in a reconfigurable passenger cabin of a personal automotive vehicle. The vehicle includes a first seat that can rotate to an inwardly-rotated position. The working surface is provided by a panel that is mounted on a second seat for movement between a stowed position and a working position. This movement includes vertical movement and rotational movement about a vertical axis. When the panel is in the working position, the working surface extends in a radial direction that is perpendicular to the direction the first seat is facing when in the rotated position and is positioned higher that an occupant seating surface of the first seat and in front of a backrest of the first seat.

The problem of a front seat occupant moving the front seatback so far so as to interfere with the proper positioning of a rear-facing child safety seat or to touch a child's legs while sitting in a front-facing child safety seat is solved by transforming the lower anchor into a segment of an electrical circuit with a normally open switch that is forced to the closed position when a child safety seat attachment system has attached to the lower anchor and the vehicle prevents the front seat from moving beyond a present distance toward the rear seat. The closing of the electrical circuit can be used to supply an input signal to a controller in the vehicle programmed to notify the operator that a child safety seat has been attached to prevent the front seat from moving beyond a fixed distance from the rear seat.

The problem of a front seat occupant moving the front seatback so far so as to interfere with the proper positioning of a rear-facing child safety seat or to touch a child's legs while sitting in a front-facing child safety seat is solved by transforming the lower anchor into a segment of an electrical circuit with a normally open switch that is forced to the closed position when a child safety seat attachment system has attached to the lower anchor and the vehicle prevents the front seat from moving beyond a present distance toward the rear seat. The closing of the electrical circuit can be used to supply an input signal to a controller in the vehicle programmed to notify the operator that a child safety seat has been attached to prevent the front seat from moving beyond a fixed distance from the rear seat.

In a seat for a construction machine, comprising a seat console, a device for lateral displacement of the seat in a transverse direction relative to the direction of travel of the construction machine, and a seat rotating device, it is provided that a stop limiter device is operative to limit the maximum allowable rotational angle of the seat in a variable manner, each time in dependence on the set position of the lateral displacement of the seat.