A remote controller comprising a shifter lever structure, a controller, and a signal emission device electrically coupled to the controller. The shifter lever structure includes a base, a press key movably connected to the base, a shifter lever arranged surrounding the press key and movably connected to the base, and a sensor coupled to the press key and the shifter lever. The sensor is configured to obtain moving state information about the press key and the shifter lever. The sensor includes at least one of an angle sensor, an angular displacement sensor, an angular velocity sensor, an angular acceleration sensor, a torque sensor, a distance sensor, a linear displacement sensor, a linear velocity sensor, a linear acceleration sensor, or a pressure sensor. The controller is configured to receive the moving state information from the sensor and emit a control signal corresponding to the information via the signal emission device.

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 device for a human-machine interface includes a base and a moveable member in the form of a lever or a push element, which can be moved relative to the base. The control device further includes at least one electroactive element positioned between the moveable member and a fixed element of the base.

Provided is an input assistance device that generates multiple signals without removal of a hand from a rotating body. This input assistance device 10 is equipped with: an operation unit having a shaft 2 that tilts in multiple directions from a neutral position and a rotating body 3 that rotates with respect to the shaft 2; a first sensor 5 that detects the tilt direction of the shaft 2; a second sensor 6 that detects the rotational angle of the rotating body 3; and a signal generation unit 9 that generates signals using the detection result from the first sensor 5 and the detection result from the second sensor 6. Multiple signals can be generated by means of the signal generation unit 9 by selecting the type of signal on the basis of the tilt direction of the shaft 2 as detected by the first sensor 5 and adjusting the size of the signal on the basis of the rotational angle of the rotating body 3 as detected by the second sensor 6.

The present invention relates to the field of remote control technologies, and provides a remote control, including: a body, a first rocker device, a processor, and a signal transmission device. A first joystick component of the first rocker device may move in parallel relative to the body. The processor is connected to the first rocker device, and when the first joystick component moves in parallel relative to the body, the processor generates a remote control instruction, where the remote control instruction is used to control a movable object to move in a horizontal plane of the movable object. The signal transmission device is connected to the processor, and used to receive the remote control instruction generated by the processor, and send the remote control instruction to the movable object. In the remote control of the present invention, when the first joystick component moves in parallel relative to the body, the processor generates a remote control instruction, where the remote control instruction is used to control the movable object to move in a horizontal plane of the movable object, and the parallel moving direction of the first joystick component may be set to correspond to the moving direction of the movable object in the horizontal plane of the movable object, so that the operation of the remote control is intuitive and simple.

A wearable electronic device includes a body defining an aperture therethrough, sized and shaped to receive a digit of a user. The wearable electronic device may include a processor housed in the body and an input device at least partially extending from an outer surface of the body to receive input from another digit of the user. The input device has an actuating surface that is movable between a first position and a second position. Movement of the actuating surface between the first position and second position provides an input to the processor. The wearable electronic device includes a transmitter coupled to the processor and configured to send electronic transmissions to an external electronic device, the electronic transmissions corresponding to the inputs received from the user, and a power source for providing power to the processor, the input device, and the transmitter.

Devices for controlling movement of aerial buckets via hydraulic systems. Each hydraulic system has valves that control movement of the aerial bucket. A control head of the device has a joystick that is moveable and encoders that detect movement of the joystick. A valve actuator manifold of the device is coupled between the control head and the hydraulic system and supports valve actuators moveably coupled to the valves. Servo drive systems supported by the valve actuator manifold are coupled to the valve actuators and are controllable to move the valve actuators. A processor module of the device is in communication with the encoders and the servo drive systems. The processor module controls the servo drive systems based on input from the encoders such that moving the joystick controls movement of the aerial bucket.

A surgical instrument includes a housing, an elongate shaft assembly extending distally from the housing, and an articulation joint extending distally from the elongate shaft assembly. The articulation joint includes a proximal joint portion coupled to the elongate shaft assembly and a distal joint portion movably coupled to the proximal joint portion. The surgical instrument further includes an end effector including an anvil and a staple cartridge. At least one of the anvil and the staple cartridge is movable relative to the other one of the anvil and the staple cartridge to capture tissue therebetween. A first interface extends distally from the distal joint portion and the first interface is distal to the articulation joint. A second interface extends proximally from the end effector and the second interface is configured to releasably couple the end effector to the first interface.

Provided is a multi-operating switch device for a vehicle, including: a housing unit; a substrate; a switch shaft unit; a rotary switch unit; a directional switch unit; and a push switch unit. The directional switch unit includes: a directional slide part within the housing unit; a directional switch disposed on the substrate, and configured to be operated by a change in the position of the directional slide part to generate a signal indicating the change in the position of the directional slide part; and a directional return part. The directional switch includes: a directional switch housing; and a directional switch knob partially exposed to the outside from one surface of the directional switch housing to contact with the directional slide part so that when the directional switch knob is pressedly rotated pivotally about an axis parallel with the substrate, it is received in the directional switch housing.

A remote control includes a body, a first rocker device, a second rocker device, a processor, and a signal transmission device. The first rocker device and the second rocker device are installed on the body. The processor connects to the first rocker device, the second rocker device, and the signal transmission device. The first rocker device includes a joystick component. The second rocker device includes a second joystick component. When the first joystick component moves in parallel relative to the body, the processor generates a remote control instruction used to control a movable object to move in a horizontal plane. When the second joystick component moves straightly relative to the body along a first direction or a second direction, the processor generates a remote control instruction used to control the movable object to move upward or move downward in a vertical direction of the movable object.