A stabilization degree adjustment method includes obtaining a stabilization degree adjustment instruction and adjusting a stabilization degree of a stabilization mechanism according to the stabilization degree adjustment instruction. The stabilization mechanism is configured to support a load.

A method of controlling a gimbal includes receiving angular velocity information transmitted by a somatosensory controller, the angular velocity information including an angular velocity of the somatosensory controller in a geodetic coordinate system, determining a target attitude of the gimbal according to the angular velocity information, and controlling the gimbal according to the target attitude.

A motor including a rotor, a first arm, a mount, a stator, a first bearing, and a second bearing. The motor is configured to rotate the rotor. The mount connected to the first arm. The stator coupled to the mount. The first bearing located between and connecting the rotor to the stator. The second bearing located between and connecting the rotor to the mount. The first arm prevents movement of the stator and the mount.

A stabilizer folding structure and a handheld stabilizer. a stabilizer folding structure for rotationally connecting the motor base and the rocker arm such that the motor base and the rocker arm have an unfolded first state and a stored second state during relative rotation, comprising: an elastic member, applying An elastic force for abutting the motor base and the rocker arm; and a snap structure at a position where the motor base abuts the rocker arm, in the first state and the second state, The snap structure is engaged to restrict relative rotation of the motor base and the rocker arm. In other states, the snap structure is disengaged such that the motor base and the rocker arm are relatively rotatable. The folding structure of aspects of the invention facilitates the folding and storage of the stabilizer, and is convenient for the user to use.

A handheld image stabilization device or an image capture device includes a housing, a motor, a microphone, and a dampener. The housing includes a first port. The motor is attached to the housing. The microphone detects audio waves via the first port and vibration noise of the motor via the housing. The audio waves may include acoustic noise from the motor. The dampener is coupled to the housing. The dampener reduces the acoustic noise from the motor and the vibration noise from the motor.

The present disclosure provides a gimbal control method, a device, a gimbal, a system, and a storage medium. The gimbal includes at least one axis of rotation. The method includes: determining a current first working mode of the gimbal; and if the gimbal satisfies a preset mode switching condition, controlling the gimbal to switch from the first working mode to a second working mode, and enabling the gimbal to maintain smooth and stable operation during the switching process, where in the first working mode, the axis of rotation is configured to enable the gimbal to face a first direction, and in the second working mode, the axis of rotation is configured to enable the gimbal to face a second direction. In this way, smooth transition of the gimbal can be maintained during mode switching, so that stability of image shooting during mode switching of the gimbal is improved.

An aircraft system (1) includes an aircraft apparatus (31) including an image capturing device (33) and a remote control (32). The remote control (32) includes a display (321), a first communication circuit (322) adapted for transmitting aircraft control signals to the aircraft apparatus (31), and a second communication circuit (323) adapted for receiving image signals of the image capturing device. The display (321) is adapted for displaying the image signals.

An embodiment provides a motorized monopole for a camera, including: a hand-held monopole; a first motor positioned at an end of the hand-held monopole; a first connecting element attached to the first motor; a second motor positioned at an end of the first connecting element; a second connecting element attached to the second motor; a third motor positioned at an end of the second connecting element; and a camera mounting plate attached to the second connecting element by the third motor, where components of the multi-axis gimbal are positioned such that a camera viewing axis, a horizontal image axis, and a vertical image axis of a camera mounted on the camera mounting plate need not be aligned with any of a rotational axis of the first motor, a rotational axis of the second motor, or a rotational axis of the third motor. Other aspects are described and claimed.

An apparatus for locating, inspecting, or placing marks on a roadway. The apparatus includes a GPS-based machine vision locator for sampling discrete geographical location data of a pre-existing roadway mark evident on the roadway. A computer may determine a continuous smooth geographical location function fitted to the sampled geographical location data. A marker is responsive to the GPS-based locator and geographical location function for replicating automatically the pre-existing roadway mark onto the roadway. The apparatus is typically part of a moving vehicle. A related method is disclosed for locating, inspecting, and placing marks on a resurfaced roadway. A similar apparatus can be used to guide a vehicle having a snow plow along a snow-covered roadway, or a paving machine along an unpaved roadway surface. The apparatus provides for accurate determination of roadway mark locations, roadway mark inspection apparatus and roadway markers using Bayesian model-based filtered enhanced GPS geographical location data.

The present disclosure provides a hand-held three-dimensional panoramic pan-tilt kit, comprising a hand-held portion, a first motor, a second motor and a third motor that are perpendicular to each other in spatial positions, the first motor is located at a top end of the hand held portion, a first connecting arm is connected to the first motor, the other end of the first connecting arm is connected to the second motor, a second connecting arm is connected to the second motor, the other end of the second connecting arm is connected to the third motor, the third motor is fixedly connected with a connecting member, a front end of the connecting member is connected with a holding member, a first slip ring is arranged between a rotating shaft of the first motor and the first connecting arm, a second slip ring is arranged between a rotating shaft of the second motor and the second connecting arm , a third slip ring is arranged between a rotating shaft of the third motor and the connecting member. By using the slip rings, the present invention ensures 360-degree rotation of the first connecting arm, the second connecting arm and the connecting member during use of the pan-tilt kit, enables the pan-tilt kit to be suitable for a variety of shooting conditions and scenes, thus utilization ratio of the pan-tilt kit is significantly increased and consumers' demand for use is satisfied.