A control system is disclosed. The control system comprises a controlling terminal and a controlled device; the controlling terminal comprises a height measuring device and a processing unit; the height measuring device is configured to measure and obtain a height information of the controlling terminal, and send the height information to the processing unit; the processing unit is configured to receive the height information and generate an operation command; the controlled device is configured to receive the operation command and perform a corresponding motion according to the operation command.
G05D 1/08 - Control of attitude, i.e. control of roll, pitch, or yaw
H04W 4/80 - Services using short range communication, e.g. near-field communication [NFC], radio-frequency identification [RFID] or low energy communication
B64C 39/02 - Aircraft not otherwise provided for characterised by special use
G05D 1/00 - Control of position, course, altitude or attitude of land, water, air or space vehicles, e.g. using automatic pilots
G06F 21/32 - User authentication using biometric data, e.g. fingerprints, iris scans or voiceprints
H04W 4/02 - Services making use of location information
Disclosed are a somatosensory remote controller, a somatosensory remote control flight system and method, and a remote control method. The somatosensory remote controller comprises: a motion sensor, a controller, a first transmission module, and a remote controller body. The motion sensor, the first transmission module, and the controller are all disposed on the remote controller body, and the motion sensor and the first transmission module are electrically connected to the controller. The motion sensor acquires initial state information of a current position of the remote controller body and movement information about movement of the remote controller body, and transmit the same to the controller. The controller is configured to receive, according to the initial state information and the movement information, a flight instruction, and send the flight instruction via the first transmission module.
G05D 1/00 - Control of position, course, altitude or attitude of land, water, air or space vehicles, e.g. using automatic pilots
G08C 17/02 - Arrangements for transmitting signals characterised by the use of a wireless electrical link using a radio link
G05D 1/08 - Control of attitude, i.e. control of roll, pitch, or yaw
G06F 3/00 - Input arrangements for transferring data to be processed into a form capable of being handled by the computerOutput arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
G01C 21/10 - NavigationNavigational instruments not provided for in groups by using measurement of speed or acceleration
09 - Scientific and electric apparatus and instruments
12 - Land, air and water vehicles; parts of land vehicles
28 - Games; toys; sports equipment
Goods & Services
Industrial robots, namely, underwater robots controlled through a wired cable or wirelessly by a hand-held computing device; Industrial robots, namely, aerial robots controlled through a wired cable or wirelessly by a hand-held computing device; Aircraft engines; Starters for motors and engines; Motors other than for land vehicles; Spraying machines; Propulsion mechanisms other than for land vehicles, namely, electric motors; Boosters, namely, engines for underwater scooters and not for land vehicles; Engines, other than for land vehicles; Motors for boats; Freewheels, other than for land vehicles Surveying machines and instruments; Echo sounding devices; Sonars; Motion detectors; cameras specially adapted for use with aerial and underwater robots that are controlled through a wired cable or wirelessly by a hand-held computing device; Virtual reality headsets; Recorded computer operating programs, for drones and autonomous boats; Downloadable computer game programs, for drones and autonomous boats Electrically-powered motor vehicles; Underwater remotely operated vehicles (ROVs) for transport; Remotely controlled land vehicle for transport; Motorcycles; Autonomous boats, for fishing, photographing and searching for, identifying and monitoring objects; Remotely operated vehicles for underwater inspections; Autonomous underwater vehicles for seabed inspections; Suspension shock absorbers for vehicles; Direction signals for vehicles Portable games with liquid crystal displays; Controllers for game consoles; Toy models; Toy drones; Toy boats; Remote control toys, namely, cars, airplanes, boats; Gyroscopes and flight stabilizers for model aircraft; Toy robots
An aircraft and an outer shell therefor. The aircraft includes an outer shell; and main body components, accommodated in the outer shell. The outer shell includes: an inner cavity, the inner cavity being provided with a space for at least accommodating the main body components of the aircraft; an outer surface, the outer surface enclosing the inner cavity.
A control system (1) comprises a controlling terminal (1a) and a controlled device (1b); the controlling terminal (1a) comprises a height measuring device and a processing unit; the height measuring device is configured to measure and obtain a height information of the controlling terminal (1a), and send the height information to the processing unit; the processing unit is configured to receive the height information and generate an operation command; the controlled device (1b) is configured to receive the operation command and perform a corresponding motion according to the operation command.
An unmanned aerial vehicle (50) control method and an unmanned aerial vehicle (50) control system, relating to the technical field of unmanned aerial vehicle (50) control, and for use in resolving the problem of slow development of a consumer-grade unmanned aerial vehicle (50) market caused by a complicated unmanned aerial vehicle (50) control process, shortage of controllers, and high costs in the prior art. The unmanned aerial vehicle (50) control method comprises: receiving an input signal (110); determining a function command corresponding to the input signal (120); converting the function command into one or more continuous action commands (130); and controlling an unmanned aerial vehicle (50) to execute the action command (140). The unmanned aerial vehicle (50) control method is used for controlling an unmanned aerial vehicle (50), and simplifies the unmanned aerial vehicle (50) control process.
Disclosed are a somatosensory remote controller, a somatosensory remote control flight system and method, and a remote control method. The somatosensory remote controller comprises: a posture sensor (4), a controller (1) and a first transmission module (2), and a remote controller body (3). The posture sensor (4), the first transmission module (2) and the controller (1) are all disposed on the remote controller body (3), and both the posture sensor (4) and the first transmission module (2) are electrically connected to the controller (1). The posture sensor (4) is configured to acquire initial state information about a current position of the remote controller body (3) and movement information about movement of the remote controller body (3), and transmit the same to the controller (1). The controller (1) is configured to receive, according to the initial state information and the movement information, a flight instruction, and send the flight instruction via the first transmission module (2). Since any position can serve as a central position of the somatosensory remote controller, a requirement for a technical level of an operator is reduced, facilitating an operation performed by the operator.
An outer shell and a main body of an aircraft, and an aircraft. The outer shell comprises: an inner cavity (2a), the inner cavity being provided with a space for at least accommodating the main body components of the aircraft; an outer surface (2b), the outer surface surrounding the inner cavity and the outer surface being defined by a closed envelope surface. The main body comprises the outer shell and main body components accommodated in the inner cavity of the outer shell. The aircraft comprises the main body and a mechnical arm and/or a leg frame.
An aircraft support leg (2), the support leg (2) being movably connected to a main body of an aircraft. The support leg (2) can rotate to at least a first position and a second position. In the first position, an angle is provided between the support leg and the main body of the aircraft, and in the second position, the support leg (2) substantially abuts against the main body of the aircraft or is at least partly arranged in the main body of the aircraft. Such a support leg is convenient for the storage of the aircraft. Also disclosed are a control method for said support leg and an aircraft having said support leg and a control method for the aircraft.
09 - Scientific and electric apparatus and instruments
12 - Land, air and water vehicles; parts of land vehicles
Goods & Services
Robots [machines]; handling machines, automatic [manipulators]; dynamos; aeroplane engines; aeronautical engines; taps [parts of machines, engines or motors]; transmissions for machines; bearings [parts of machines]; belts for machines; lifting apparatus; radiators [cooling] for motors and engines; starters for motors and engines; driving motors other than for land vehicles; spraying machines; control mechanisms for machines, engines or motors. Intercommunication apparatus; vehicle radios; electro-dynamic apparatus for the remote control of signals; monitoring apparatus, electric; camcorders; enlarging apparatus [photography]; close-up lenses; shutter releases [photography]; shutters [photography]; cameras [photography]; cases especially made for photographic apparatus and instruments; surveying instruments; surveying apparatus and instruments; clothing for protection against accidents, irradiation and fire; theft prevention installations, electric. Aeroplanes; aircraft; vehicles for locomotion by land, air, water or rail; screw-propellers; remote control vehicles, other than toys; electric vehicles; vehicle wheel tires [tyres]; cycle cars; hubs for vehicle wheels; traction engines; air vehicles; airships; aeronautical apparatus, machines and appliances; suspension shock absorbers for vehicles; direction signals for vehicles.
