A seat adjuster, comprising an adjustable vehicle seat, that may be adjusted by an external force between an initial position and a target position in an interior of a vehicle, the adjustment of the vehicle seat from the initial position into the target position requiring at least pivoting of the vehicle seat about a pivot axis extending from a floor to a ceiling of the vehicle, and an electronic control device for controlling an adjustment drive to adjust the vehicle seat from the initial position into the target position. A characteristic-map memory coupled to the electronic control device is provided, in which characteristic-map memory characteristic-map data for adjustment movements to be carried out by the vehicle seat are stored. The electronic control device controls the adjustment drive by means of the characteristic-map data to adjust the vehicle seat from a current initial position into a certain target position.

A seat assembly includes a seat frame, a sub frame, an electric motor, a transmission, and a flexible drive shaft. The seat frame includes a front support portion and supports a bottom cushion. The sub frame has a top plate and a base plate. The top plate supports a front cushion and rotatably supports a screw gear. The electric motor includes a first output member and is fixedly mounted to the front support portion of the seat frame. The transmission includes an input member and a second output member. The transmission is fixedly mounted to the base plate of the sub frame. The second output member of the transmission is drivingly connected to the screw gear of the sub frame. The flexible drive shaft is drivingly connecting the first output member of the electric motor to the input member of the transmission.

A vehicle seating assembly includes an actuation carriage coupled to an underside thereof, a plurality of anchors extending from the actuation carriage, each of the anchors being rotatable about a fixed vertical axis, and a plurality of rollers rotatably coupled to each of the anchors by an axle.

It is provided an adjusting device for the longitudinal adjustment of a vehicle seat, comprising at least one rail for defining a longitudinal seat axis along which a seat base of the vehicle seat is adjustable, and for supporting at least one adjusting unit of the adjusting device, and at least two shiftably guided adjusting units arranged one behind the other along the longitudinal seat axis, to which the seat base is to be fixed in order to be adjustable along the longitudinal seat axis. The at least two adjusting units are adjustable relative to each other along the longitudinal seat axis, and each adjusting unit is assigned a separate drive for the power-operated adjustment along the longitudinal seat axis.

An electrical assembly includes a track assembly, a support member configured to move along the track assembly, a first ECU connected to the support member, and a second electronic control unit (ECU) connected to the track assembly and configured to provide power from a power source to the track assembly. The first ECU may be configured to disconnect the electrical load and/or cause the electrical load to operate in a low-current mode if a connection system is partially engaged. The second ECU may have a first mode in which the second ECU provides power in a first voltage range to the track assembly. The second ECU may have a second mode in which the second ECU provides power in a second voltage range. The second ECU may be configured to switch between the first mode and the second mode according to information from the first ECU.

A wire harness for seats includes: a relay device provided to a rotation shaft of a seat; a first wiring material having one end electrically connected with the relay device; a winding device installed on the vehicle floor side, and connected with the other end of the first wiring material so as to electrically connect the first wiring material with a power supply on the vehicle floor side, the winding device unwinding and winding the first wiring material along a sliding direction of the seat in association with slide movement of the seat along the sliding direction and rotation of the seat with the rotation shaft serving as a rotation center; and a second wiring material provided to the seat and having one end electrically connected with the first wiring material via the relay device and the other end electrically connected with electrical equipment provided to the seat.

A vehicle load-bearing member includes an electro-active material, a lead wire for delivering an electric current to the electro-active material, and a controller in communication with a power supply for supplying electric current to the electro-active material for changing dynamic characteristics of the electro-active material, wherein changing dynamic characteristics of the electro-active material changes at least one of dampening and stiffness of the vehicle load-bearing member by changing the shape of the electro-active material.

It is provided an adjusting device for the longitudinal adjustment of a vehicle seat, comprising at least one rail for defining a longitudinal seat axis along which a seat base of the vehicle seat is adjustable, and for supporting at least one adjusting unit of the adjusting device, and at least two shiftably guided adjusting units arranged one behind the other along the longitudinal seat axis, to which the seat base is to be fixed in order to be adjustable along the longitudinal seat axis. The at least two adjusting units are adjustable relative to each other along the longitudinal seat axis, and each adjusting unit is assigned a separate drive for the power-operated adjustment along the longitudinal seat axis.

A message is received that a mobile device is in proximity to a vehicle. For example, a cloud system may receive a message that the mobile device is in proximity to the car of a specific person. Based on the mobile device being in proximity to the vehicle, sensor information is received from one or more sensors on the vehicle. For example, an array of cameras on the vehicle may be used to detect a gesture. The received information from the one or more sensors on the vehicle is processed to identify one or more actions to implement on the vehicle. One or more commands are then sent to implement one or more actions on the vehicle. For example, the one or more commands may be to open a specific door on the vehicle and to turn on a specific heating system in the vehicle.

A shape memory alloy (SMA) controlled hinge assembly is provided, including assemblies and combinations for adjusting a shape or position of an occupant support component, such as a vehicle seat support component or other seating component. The assembly includes an occupant support component and a hinge assembly configured to adjust a shape or position of at least a portion of the occupant support component. The hinge assembly includes a stationary plate and a movable plate rotatable relative to the base plate about a fixed axis of rotation. The hinge assembly includes a shape memory alloy wire coupling the stationary plate with the movable plate. An actuator is provided and configured to transform the phase of the shape memory alloy wire. In various aspects, the occupant support component is selected from one of a seat bottom; a seatback; a seat bolster; a seat head rest, and the like.