The disclosed embodiment is a control surface for use in a forest machine. The control surface includes a base panel, wherein the base panel comprises multiple buttons and/or switches to be used with an operators hand. A joystick protruding from the base panel. The joystick includes a handle part. The handle part has multiple buttons and/or switches to be used with an operator's hand. The handle part has a thumb button/switch to be used by an operator's thumb. The thumb button is adjustable in the height position in relation to the base.

A modular input interface device having multi-axial functionality in a housing having an input interface that is capable of up to seven directions of movement. The modular interface device provides input to at least one processor associated with one or more vehicle systems.

A remote control device for a remotely controlled device including; a first input controller, including a grippable body which a user is able to apply a force and torque thereto with a first hand in order to be able to control yaw, pitch, roll and elevation of a remotely controlled vehicle; a second input controller enabling a user to control, with a second hand, a peripheral device associated with remotely controlled device; a communication device; and a controller, configured to: receive one or more first input and one or more second input signals from the first input controller and the second input controller respectively; and control the communication device for transmitting: a first output signal indicative of a first command based on the force and torque applied to the grippable body; and a second output signal indicative of a second command for controlling the peripheral device.

An inductive joystick may include a control structure including an elongate member movable along at least one direction substantially perpendicular to its length; and a position sensing assembly including a printed circuit board having at least one surface arranged adjacent to the control structure and at least one metal dial arranged over the at least one surface. The at least one surface may be substantially parallel with the elongate member's length and with the at least one direction, and may be provided with at least one transmitter coil and at least one receiver coil. In use, the transmitter coil(s) may induce signal(s) in the receiver coil(s) and the metal dial(s) may interfere with the induction. Moving the elongate member may cause relative movement between the surface(s) and the metal dial(s) which may vary the induced signal(s) based on a position of the metal dial(s).

A controller is capable of controlling an asset or target in physical and/or virtual three-dimensional space using a single hand by generating control inputs in four or more degrees of freedom while also limiting cross-coupling (unintended motions). The controller includes a first control member is configured to be gripped in a user's single, second control member is disposed on or near a top end of the first member movable with at least one degree of freedom independently of the movement of the first control member, and a third control member positioned on the first member for displacement by one or more digits of the user's single hand and coupled with the second member to move in opposition to movement of the second control member.

A control input device can include a housing defining an inner volume with a floor, and a shaft having an axis, a manipulating portion, and a sensing end. The control input device can further include a magnet mounted on the sensing end of the shaft such that the magnet is within the inner volume of the housing, and a movement mechanism configured to allow the manipulating portion of the shaft to be moved with respect to the housing such that the movement of the manipulating portion results in corresponding movement of the magnet. The control input device can further include a magnetic sensor at least partially embedded in the floor of the housing and configured to sense the movement of the magnet.

Disclosed are a multi-directional input device and a game machine. The operating part includes a hemispherical upper hemisphere at a lower end. The upper hemisphere includes a hemispherical plane part at a lower part. Diameters of the hemispherical plane part and the upper hemisphere are the same. The diameter of the upper hemisphere is greater than that of the operating part. An upper support is fixed to the base and defines a hemispherical hole and hole wall of which is abutted against the upper hemisphere. The upper support further defines a through hole above the hemispherical hole, and the operating part is penetrated through the through hole. A diameter of the through hole is greater than that of the operating part. The upper support includes an upper support plane part below the hemispherical hole. A diameter of the upper support plane part is greater than that of the hemispherical hole.

Disclosed are a multi-directional input device and a game machine. The multi-directional input device includes a first rocker arm and a second rocker arm, the first rocker arm and the second rocker arm are distributed in up-down direction, each of the first rocker arm and the second rocker arm includes a C-shaped part, a rotating shaft part is provided on opposite ends of the C-shaped part, the rotating shaft part is fixed by the cover, and a rotating axis is defined at both ends of the rotating shaft part; the first rocker arm and the second rocker arm rotate relative to the cover through their respective rotating shaft part; the operating part is penetrated through the C-shaped part, and the C-shaped part defines an elongated hole guiding the operating part to pivot.

A finger pointing joystick with magnetic induction is provided. The finger pointing joystick with magnetic induction includes a main housing having a bottom case and an upper cover; a support frame having a fixed end fixedly to an end of the bottom case; a movable sphere disposed on a receiving ring; a joystick body fixed on the movable sphere; an elastic piston piece having a connecting rod inserted through a piston groove, an elastic disc fixed below the connecting rod, a return spring fixed between the movable sphere and the elastic disc, and a magnet correspondingly fixed to the elastic disk; and a magnetic induction element disposed below the magnet.

There is disclosed a multi-dimensional user interface controller apparatus for providing a multi-dimensional user input. In an embodiment, the apparatus comprises a disc adapted to be tilted to control at least two-axes, and depressible in a third axis, and an outer ring surrounding the disc, the outer ring adapted to rotate about the disc to control a fourth axis. In use, the disc and the outer ring are controllable to provide at least four-axes of simultaneous control inputs. In an embodiment, the multi-dimensional user interface controller apparatus further comprises a plurality of magnetic sensors to sense the tilt of the disc or a press on the disc. In another embodiment, the disc further comprises a touch-sensitive top surface adapted to sense one or more fingers touching the surface.