A seat arrangement for a vehicle includes a vehicle seat and a seat backrest. The seat backrest can be switched from an upright position into a folded position with an electric and/or electronic adjusting device for switching the seat backrest from the upright position into the folded position. The vehicle seat can be moved in a seat direction F with a mechanical traveling device for moving the vehicle seat in the seat direction depending on the position of the seat backrest.

A vehicle seat includes a seat bottom adapted to slide along a floor, a seat back coupled to the seat bottom, and powered means for rearranging the vehicle seat by sliding the seat bottom along the floor and/or pivoting the seat back relative to the seat bottom.

Arrangement for controlling a component having multiple states includes a device that generates a signal at a frequency that enables it to be conducted through a human body, and a conductive surface coupled to the device, situated in a position accessible by a part of the human, and which enables proximity or contact of the part of the human to the conductive surface to develop a reactive coupling between the human and the conductive surface. The component has multiple, different states and is controlled by the human to change from a first state to a second state upon completion of an electrical circuit including the component, the conductive surface and the device upon developing reactive coupling between the human and the conductive surface when the device is generating the signal conducted through the human. The component may be a vehicular component such as a door or window.

A user identification method and apparatus using recognition of a grip pattern of a lever-type door are provided. The user identification method using recognition of a grip pattern of a lever-type door includes activating a sensing module disposed within a lever of a vehicle door when a smart-key is sensed. A grip pattern is then sensed using the sensing module and a user profile that corresponds to the grip pattern is identified. A user-customization module is activated in response to the identified user profile.

A seat assembly includes a first member and a second member located proximate to the first member. An adjustment system for adjustably positioning the first and second members of the seat assembly includes at least one positioning mechanism operatively connected to one or more of the first member and the second member and at least one actuator connected to the at least one positioning mechanism. A control assembly including a housing having a control region, one or more guide surfaces extending from the control region and one or more recessed areas cooperating with the one or more guide surfaces. At least one of the guide surfaces or recessed areas cooperates with at least one switch configured to send a first signal to a controller when a user activates the at least one switch. The controller is configured to generate an activation signal to activate the at least one actuator.

Disclosed is an electronic seat switch for a power seat of an autonomous vehicle and a method of operating the power seat by using the electronic seat switch, wherein the power seat is configured to be operated by using the electronic seat switch that is compact and slim.

An operation device according to the present invention includes a touch-sensitive operation surface placed in a vehicle and a detecting unit configured to detect touch operation by an operator on the touch-sensitive operation surface. On the touch-sensitive operation surface, a guide part having a convex shape or a concave shape and a planar operation part to be an operation location having a planar shape located around the guide part are formed. The detecting unit is configured to detect slide operation on the guide part from the planar operation part, and accept later operation on a predetermined operation location as an operation instruction set in accordance with a status of the slide operation on the guide part.

A vehicle seat includes a seat bottom and a seat back coupled to the seat bottom to extend upwardly away from the seat bottom and move relative to the seat bottom. The vehicle seat is coupled to a vehicle floor for movement relative to the vehicle floor between a use arrangement and a storage arrangement.

A vehicle seat includes a seat bottom and a seat back coupled to the seat bottom to extend upwardly away from the seat bottom and move relative to the seat bottom. The vehicle seat is coupled to a vehicle floor for movement relative to the vehicle floor between a use arrangement and a storage arrangement.

A vehicle seat includes a seat bottom adapted to slide along a floor, a seat back coupled to the seat bottom, and powered means for rearranging the vehicle seat by sliding the seat bottom along the floor and/or pivoting the seat back relative to the seat bottom.