Disclosed is an operation pedal for a simulation device. The present invention comprises: a fixing shaft horizontally installed; a pedal main body mounted on the fixing shaft and rotatable in the forward and backward directions by an external force; a foothold mounted on the upper surface of the pedal main body and rotatable in the left and right directions by an external force; a forward and backward rotation sensing means for sensing a forward and rearward rotation of the pedal main body and transmitting a signal thereof; and a left and right rotation sensing means for sensing a left and right rotation of the foothold and transmitting a signal thereof. According to the present invention, a user can easily operate and control various action motions of a play object in a program by using both feet, such that more various motions or environments can be applied.

A multi-function input apparatus of a steering wheel that includes an outer dial having a planar surface and a center dial having a capacitive surface such that the center dial is responsive to capacitive touch along the capacitive surface. The center dial being disposed within the outer dial and the outer dial is rotatable about a rotation axis independent of the center dial such that the center dial is rotatably fixed when the outer dial rotates. The outer dial including a recessed portion positioned along the planar surface such that the recessed portion is rotatable about the center dial. The recessed portion of the outer dial is translatable along the rotation axis.

A multi-function input apparatus of a steering wheel that includes an outer dial having a planar surface and a center dial having a capacitive surface such that the center dial is responsive to capacitive touch along the capacitive surface. The center dial being disposed within the outer dial and the outer dial is rotatable about a rotation axis independent of the center dial such that the center dial is rotatably fixed when the outer dial rotates. The outer dial including a recessed portion positioned along the planar surface such that the recessed portion is rotatable about the center dial. The recessed portion of the outer dial is translatable along the rotation axis.

Disclosed is a controlling method for an unmanned aerial vehicle (UAV) that includes an image device. The controlling method includes transmitting, by a remote controller when a dial of a dial structure of the remote controller is rotated, a first control signal for changing imaging device information of an imaging device of the UAV via a signal transmitting device of the remote controller. The imaging device information comprises at least one of an operating mode of the imaging device, a shutter speed of the imaging device, an aperture size of the imaging device, a light sensitivity of the imaging device, or a preview image of the imaging device. The controlling method further includes transmitting a second control signal for confirming imaging device information via the signal transmitting device by the controller when the dial is slid with a displacement,?

Disclosed is a controlling method for an unmanned aerial vehicle (UAV) that includes an image device. The controlling method includes transmitting, by a remote controller when a dial of a dial structure of the remote controller is rotated, a first control signal for changing imaging device information of an imaging device of the UAV via a signal transmitting device of the remote controller. The imaging device information comprises at least one of an operating mode of the imaging device, a shutter speed of the imaging device, an aperture size of the imaging device, a light sensitivity of the imaging device, or a preview image of the imaging device. The controlling method further includes transmitting a second control signal for confirming imaging device information via the signal transmitting device by the controller when the dial is slid with a displacement,?

A multi-function input apparatus of a steering wheel that includes an outer dial having a planar surface and a center dial having a capacitive surface such that the center dial is responsive to capacitive touch along the capacitive surface. The center dial being disposed within the outer dial and the outer dial is rotatable about a rotation axis independent of the center dial such that the center dial is rotatably fixed when the outer dial rotates. The outer dial including a recessed portion positioned along the planar surface such that the recessed portion is rotatable about the center dial. The recessed portion of the outer dial is translatable along the rotation axis.

A multi-function input apparatus of a steering wheel that includes an outer dial having a planar surface and a center dial having a capacitive surface such that the center dial is responsive to capacitive touch along the capacitive surface. The center dial being disposed within the outer dial and the outer dial is rotatable about a rotation axis independent of the center dial such that the center dial is rotatably fixed when the outer dial rotates. The outer dial including a recessed portion positioned along the planar surface such that the recessed portion is rotatable about the center dial. The recessed portion of the outer dial is translatable along the rotation axis.

The first transmission mechanism of the present invention includes a first permanent magnet, a first rocking member with a rod-like shape that includes one end at which the first permanent magnet is disposed and is extended in Z-axis direction, and two supporting bodies that rockably support the first rocking member at two different positions in Z-axis direction of the first rocking member. The first rocking member is rocked to move the first permanent magnet by an amount of displacement smaller than an amount of displacement inputted to the first supporting body, which is located on a side of the other end of the first rocking member in the two supporting bodies.

A manually operable control device for controlling moveable elements of a vehicle is disclosed. The control device may comprise a control rod element, which may be mounted so as to be slidable within a first guide path of a first control disc and within a second guide path; and the two control discs may be mounted so as to rotate independently of one another about a common axis in a continuous manner.

A manually operable control device for controlling moveable elements of a vehicle is disclosed. The control device may comprise a control rod element, which may be mounted so as to be slidable within a first guide path of a first control disc and within a second guide path; and the two control discs may be mounted so as to rotate independently of one another about a common axis in a continuous manner.