Knob on display (KoD) devices and related systems, methods, and devices are disclosed. A KoD device includes a touch surface including a conductive material. The touch surface is configured to be positioned in a released position and in a depressed position. The touch surface is configured to be positioned in the depressed position responsive to pressure applied to the touch surface. The KoD device also includes a push electrode pad configured to be positioned in engagement proximity to a touch sensor of a touch screen device in both the released position and the depressed position. The push electrode pad is electrically connected to the conductive material of the touch surface responsive to the depressed position and electrically isolated from the conductive material of the touch surface in the released position.

Provided are embodiments of control devices capable of simultaneously measuring six degrees of freedom and electronic systems comprising the control devices. In some embodiments, the control devices are useful for controlling and/or directing movement of vehicles and virtual entities through operation of the control device with a computer processor, computer interface and, optionally a display.

An operating device has: a lever configured to be operated by tilting; a resistor having a flat strip shape and provided on a surface of a substrate; and a slider configured to change an output voltage value by sliding on a surface of the resistor in accordance with tilting operation of the lever. In this operating device, the resistor has a low-resistance portion that has a lower resistance value than other portions of the resistor, and that is a portion in contact with the slider when the lever is in a neutral position.

An adaptive joystick preferably includes a rotatable cylinder bar, an outer base ring, an inner ring and an industrial joystick base. An adaptive controller receives an output from the adaptive joystick and outputs a control signal to a valve solenoid to control a hydraulic cylinder. Angle, depth and pressure sensors are preferably used to monitor a position of the hydraulic cylinder. The sensor outputs are fed into the adaptive controller. An inward wrist curl of the rotatable cylinder bar combined with a forearm pull rearward of the outer base ring are used to cause a digging motion. An outward wrist curl of the rotatable cylinder bar combined with a forearm push forward of the outer base ring are used to cause a dumping motion. A hand movement to the left is associated with swinging the excavator left. A hand movement to the right is associated to swinging the excavator right.

A remote driving device (100) includes an operation lever (1) to be operated based on an operation command signal, and a first operation mechanism (30) which tilts the operation lever (1). The first operation mechanism (30) includes a first actuator (31) which generates a driving force to tilt the operation lever (1) based on the operation command signal, a first transmission device (41) which transmits the driving force of the first actuator (31), a first detector (61) which detects a tilting amount of the operation lever (1), and a first drive shaft (51). On the first drive shaft (51), a first rotation output part (52) is provided, and the first drive shaft rotates with the tilting of the operation lever (1). The first detector (61) detects the tilting amount of the operation lever (1) via the first rotation output part (52).

One or more examples relate to a knob-on-display. An apparatus of such a knob-on-display includes a touch surface, a dome switch pad, a dome switch, a rotation electrode pad, and an electrically conductive structure. The touch surface may include an electrically conductive material, the touch surface movable to a released position and to a depressed position. The dome switch may include an electrically conductive material. The dome switch may be physically mounted to and electrically connected to the dome switch pad. The rotation electrode pad may be in engagement proximity to a touch sensor of a touch screen device in both the released position and the depressed position. The electrically conductive structure may be physically and electrically connected to the dome switch pad and the rotation electrode pad, the electrically conductive structure defining a continuous electrically conductive path from the rotation electrode pad, through the dome switch, to the electrically conductive material of the touch surface in both the released position and the depressed position.

A manipulation input device has a first detector and a second detector, disposed at different positions on a manipulative member, that detect the displacement of the manipulative member, the displacement being caused when the manipulative member receives a manipulation force, and also has a processor that performs processing to identify a position at which the manipulative member has received the manipulation force according to detection results obtained from the first detector and second detector and to the positions of the first detector and second detector on the manipulative member.

Tracked vehicle comprising: a frame extending along a longitudinal axis; a plurality of tracks; at least an accessory device selected from a group comprising a blade, a tiller assembly and a winch assembly; and a user interface comprising a control device coupled to the plurality of tracks to drive the advance of the tracked vehicle; and a joystick coupled to the at least accessory device to drive the movements of the at least accessory device; wherein the joystick comprises a lever configured so that it can be move in any direction with respect to a rest position; wherein the joystick comprises a detector assembly to detect a movement of the lever with respect to the rest position and to emit an output signal based on the detected movement.

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 cruise control system for work machines. The system comprises one or more levers for controlling the velocity of the work machine and one or more magnet assemblies. The magnet assemblies comprise means of overcoming the neutral bias of a control lever so that the velocity of the work machine may be maintained without manual input from the operator. The magnets may act directly upon a control lever or a surface adjacent a control lever. Additional controls may be employed to set a maximum cruising speed for the work machine when cruise control is engaged.