A control system for controlling operation of a vehicle system is described. The control system includes a trim cover textile configured to cover at least a portion of a vehicle component and having an electrically conductive element configured to provide a capacitive touch functionality. In response to a user touch, the electrically conductive element generates a signal representative of a user command for the vehicle system. The system also includes a control unit adapted to be provided in electrical communication with the electrically conductive element of the trim cover. The control unit is configured to receive the user command signal and, in response, generate a control signal to effectuate control of the vehicle system.

A leather cover for a vehicle interior assembly such as a vehicle seat, a steering wheel, a console, etc. includes a leather layer and an electrically conductive coating applied onto the leather layer. The electrically conductive coating is either applied to a finish side of the leather layer or to a flesh side of the leather layer. The electrically conductive coating may function as: a wire harness component and is connected to wiring of a wire harness system of a vehicle; an electrical resistance heater and is connected to wiring of a heater system of a vehicle; an electrically conductive touch control and is connected to wiring of a control system of a vehicle; or electroluminescent or electrochromic lighting and is connected to wiring of a lighting system of a vehicle.

A vehicle seat includes a seat bottom, a seat back, and an armrest. A human-machine interface for controlling features of the vehicle seat or vehicle is coupled to the armrest.

A seat position controller performs seat position change processing by performing longitudinal position change processing and at least one of vertical position change processing and tilt angle change processing. When the seat position controller performs the seat position change processing, a change degree setting part sets the degree of speed change in the longitudinal direction of a seat main body during the longitudinal position change processing smaller than the degree of speed change in the vertical direction of the seat main body during the vertical position change processing, and the degree of speed change in a tilt angle direction of a seat back during the tilt angle change processing.

A swivel assembly for a vehicle seating assembly includes a fixed plate defining a first opening. A rotating plate defines a second opening. The rotating plate is positioned substantially parallel to the fixed plate. A gear ring is positioned about a periphery of the first opening. An inner retaining bracket is received by the first and second openings and is coupled with the gear ring. An outer retaining bracket is coupled with the rotating plate and defines a channel. The fixed plate is at least partially received by the channel. A washer is positioned between the fixed plate and the rotating plate. A bearing member includes first and second legs. The first leg is positioned between the rotating plate and the fixed plate. The second leg is positioned between the fixed plate and the inner retaining bracket.

An electrical assembly includes a primary controller, a secondary controller, and a switch assembly. The primary controller, the secondary controller, and/or the switch assembly may be electrically connected, and/or the secondary controller may be configured to control the primary controller according to a position of a switch of the switch assembly. The switch assembly may be connected to the primary controller, and/or the primary controller may be configured to control movement of a vehicle seat according to the position of the switch. The primary controller may include a first state and/or a second state; and the primary controller may be configured to instruct the secondary controller to change the primary controller from the second state to the first state. The first state of the primary controller may be a low power mode.

A device and method for providing support to a user prior to activating a switch to electromotively adjust a component of a transportation means is disclosed. The transportation means and a device and a method for assisting a user prior to an activating of a switch for electric motor adjustment of a component of a transportation means are disclosed. The method comprises the steps of recognizing of an approach of the user to a first switch and in response displaying of a prompt to a function coordinated with the first switch.

A user interface for a snow groomer or other tracked vehicle, such as tracked carrier to carry and enable use of work equipment on various terrains, is provided. The user interface may comprise an input device, an output device and a controller. The controller is configured to receive from the input device an indication of a desired snow grooming distance, and the controller is further configured to measure a distance traveled by the snow groomer, and to cause the output device to convey a remaining distance to be traveled by the snow groomer, the remaining distance being the difference between the desired snow grooming distance and the distance traveled by the snow groomer.

A vehicle interior component providing a user interface for an occupant is disclosed. The component may comprise a base; a cover comprising a surface; an intermediate layer comprising a foam material; and a sensor to detect an electrical signal in response to input at the user interface, contact at the surface of the cover, or compression of the foam material. The foam material may comprise electrical properties, conductivity, resistance, compression-responsive electrical properties, or variation in voltage. The foam material may comprise an additive, an additive material, a conductive material, a conductive additive, conductive particles, carbon particles, carbon black particles, carbon dust, carbon particles in a substrate, or carbon particles interspersed with a non-conductive substrate. The foam material may comprise foam with conductive particles, carbon foam, carbon additive foam, polyurethane foam, or polyurethane with carbon particles. The cover may comprise a non-conductive material, leather, vinyl, textile, or fabric.

A control system for a motor-displaceable cargo compartment device of a motor vehicle, wherein the cargo compartment device comprises a motor-displaceable closure element, wherein an operator occurrence sensor is provided, wherein a control arrangement monitors the operator occurrence sensor to determine whether a predetermined operator occurrence exists and, upon detection of such a predetermined operator occurrence, displaces the cargo compartment device with the aid of a motor, wherein the control arrangement displaces the closure element in the opening direction with the aid of a motor upon detection of a primary operator occurrence via the operator occurrence sensor. Further the cargo compartment device comprises at least one motor-displaceable cargo compartment component and the control arrangement displaces at least one such cargo compartment component with the aid of a motor upon detection, via the operator occurrence sensor, of a secondary operator occurrence following the primary operator occurrence.