The present invention relates to an unmanned remote radiation detector capable of accurately detecting radiation radiating in different directions by approaching a place, where the radiation leaks, from above by the control of a user, the unmanned remote radiation detector having: an unmanned aircraft controlled by the user to fly above a nuclear power facility; and a detection part position adjustment part which is coupled to the unmanned aircraft, enables distance adjustment so as to bring a radiation detection part provided on one side thereof near the nuclear power facility, and orients the radiation detection part toward the nuclear power facility by driving same to incline forward, backward, left and right.

The present invention provides the use of a drone, or remotely piloted aircraft, equipped with a system for applying paint or industrial coating with epoxy paint and/or polyurethane.

Coating repair application system using remotely piloted aircraft, characterized by comprising remotely piloted aircraft (9), a portable painting system (2), (5), (7) and (8), linear guide (4), distance sensors (10), camera (11), remote control (12), battery (1), lattice structure (3).

The present invention provides the use of a drone, or remotely piloted aircraft, equipped with a system for applying paint or industrial coating with epoxy paint and/or polyurethane.

Coating repair application system using remotely piloted aircraft, characterized by comprising remotely piloted aircraft (9), a portable painting system (2), (5), (7) and (8), linear guide (4), distance sensors (10), camera (11), remote control (12), battery (1), lattice structure (3).

Systems, devices, and methods for stopping the rotation of propellers used in unmanned aerial vehicles (UAV) such as drones are disclosed. The propellers are stopped in response to detecting when beams of light adjacent the propellers are blocked.

An energy supply system, which is a system constituting a regional power system in a target region, includes a power transmission system including a first power generation facility and a second power generation facility, a power transmission and distribution system that supplies power to each consumer, a management system, and an unmanned flying object. The unmanned flying object has a transport function of transporting a cargo and a power supply function of supplying power to an outside. When the amount of power supplied by the power transmission system is less than the amount of power required by the power transmission and distribution system, the management system performs a power adjustment process of supplying power from the unmanned flying object to the power transmission and distribution system by using the power supply function of the unmanned flying object.

An energy supply system, which is a system constituting a regional power system in a target region, includes a power transmission system including a first power generation facility and a second power generation facility, a power transmission and distribution system that supplies power to each consumer, a management system, and an unmanned flying object. The unmanned flying object has a transport function of transporting a cargo and a power supply function of supplying power to an outside. When the amount of power supplied by the power transmission system is less than the amount of power required by the power transmission and distribution system, the management system performs a power adjustment process of supplying power from the unmanned flying object to the power transmission and distribution system by using the power supply function of the unmanned flying object.

A pan-tilt and an aerial camera containing a pan-tilt. This pan-tilt includes a motor which has a first part and a second part of relative movement, a slip ring which is installed in the motor and has a fixing part and a rotating part, and a control part which is installed under the motor and at which the second part is installed. The center of the motor has a first hole which longitudinally penetrates through, in which the slip ring is installed. The fixing part is static relative to the first part. The control part is electrically connected to the rotating part via a wire which is set to pass through the first hole. The control part is electrically connected with the motor. The pan-tilt can be rotated by 360 degrees.

An aircraft includes a fuselage, a first wing coupled to the fuselage and including a first wingtip that is movable relative to the fuselage during flight, and a second wing coupled to the fuselage, opposite the first wing, and including a second wingtip that is movable relative to the fuselage and relative to the first wingtip during flight. The aircraft also includes a first camera mounted to the first wingtip of the first wing and a second camera mounted to the second wingtip of the second wing. The aircraft further includes a processing unit configured to determine a real-time distance between the first camera and the second camera as the first camera and the second camera move relative to each other and relative to the fuselage during flight.

A wireless communication system may include a housing, a touch sensitive display included within the housing, multiple radio frequency transceivers included within the housing, multiple input mechanisms included within the housing, and a processor included within the housing. The processor may be configured to obtain visual information captured by an image capture subsystem of the unmanned aerial vehicle, display the visual information via the touch sensitive display, detect parameters of a touch on the touch sensitive display, determine inputs based upon the parameters of the touch and when one or more of the multiple input mechanisms are engaged, transmit instructions to the unmanned aerial vehicle based upon the inputs, establish a connection with a device, and transmit to the device instructions configured to cause the device to control the image capture subsystem.

A method for destroying enemy's targets is disclosed which comprises the following steps: (a) carrying a multicopter drone in a backpack of a first soldier; (b) removing the multicopter drone from the backpack, unfolding, and coupling a missile to the multicopter drone; (c) remote controlling the multicopter drone to search for the enemy' targets using a remote control; and (d) launching the missile from the multicopter drone when the enemy' targets are detected.