A vehicle seat haptic system includes a vehicle seat and a controller. The vehicle seat includes a plurality of discrete haptic zones defined across the vehicle seat, and a plurality of actuators positioned in the plurality of haptic zones and configured to generate a haptic output. The controller is communicatively coupled to the plurality of actuators and configured to output a control signal to one or more of the plurality of actuators to generate an asynchronous haptic output across the vehicle seat based upon a position of a user in the vehicle seat.

A vehicle seating assembly is provided herein. The seating assembly includes a seat-base. A seatback is pivotally coupled to the seat-base and includes a trim cover. The trim cover includes a front-portion, an upper-portion, and a rear-portion. A motorized system is coupled to the seatback and operable to pivot the seatback relative to the seat-base. A switch extends along the upper-portion and the rear-portion of the trim cover and is configured to activate the motorized system.

A vehicle and a control method of the vehicle are provided. The vehicle includes at least one touch input device that is mounted within the vehicle and configured to sense a touch input of a user based on an electrode pattern mounted on a base thereof by forming an electrode on an injection object. Additionally, a controller operates apparatuses mounted within the vehicle based on the sensed touch input.

A seat adjustment system for a seat of a motor vehicle, including at least one motor driving the adjustment and at least one operating element, which can be actuated by an operator, for at least one adjustment function, and the actuation of which closes a switch provided in a line from the motor associated with the adjustment function to a power supply, wherein a relay is provided downstream of the switch to the motor in the line, said relay being open in the non-energized state, and the seat adjustment system has a control unit which is designed to close the relay when an operating element is actuated and there is no collision signal indicating a collision of the motor vehicle and leaves the relay open at least temporarily if there is a collision signal when an operating element is actuated.

An apparatus adapted to prevent unintended seat adjust switch actuation in a vehicle side impact or crash includes a wall, having a window, a seat adjustment switch behind the wall, an actuator connected to the seat adjustment switch and extending through the window and a stop adapted to limit displacement of the actuator when the actuator is displaced inboard toward the wall. That stop may be carried on one of the wall or the actuator. A new and improved seat assembly is also disclosed.

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 have 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.

An aircraft seat device for an aircraft seat includes at least one mounting unit, having at least one seat bottom which is coupled with the mounting unit and is configured to implement a seating region and to this end has at least one main unit and at least one sub-unit that in relation to the mounting unit is implemented so as to be adjustable between a stowage position and a use position. The at least one adjustable sub-unit is configured for enlarging the seating region in at least one position, and having at least one actuation mechanism by means of which the adjustable sub-unit of the seat bottom is adjustable between its stowage position and its use position.

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 clement 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.

An electronically-activated support positioning system for a passenger seat can include a sensor capable of detecting a tactile input from a passenger and sending a signal, optionally through a controller, to a lock actuator coupled to a lockable hydraulic spring to either lock or unlock the lockable hydraulic spring. The lockable hydraulic spring can control movement of a support of the passenger seat, such as reclining of a seatback. In an example, when tactile input is detected, the lock actuator can unlock the lockable hydraulic spring, allowing an attached seatback to be adjusted. When tactile input is no longer detected, the lock actuator can lock the lockable hydraulic spring, securing the seatback from adjustment. The sensor can be sufficiently small to fit within the confines of an armrest. The sensor can be a microswitch positioned to detect deflection of a tab formed in the wall of the armrest.

A control element housing has a front face that receives at least one control element, a rear face lying opposite the front face, a first side face and a second side face lying opposite the first side face, the two side faces connecting the front face to the rear face, a base which interconnects the two side faces and the rear face, and an upper face lying opposite the base, the upper face connecting the front face, the first side face, the second side face and the rear face. The base and/or the upper face has or have at least one structural weakening that allows the control element housing to be deformed under mechanical stress. Also disclosed is a door interior trim having the control element housing.