A gimbal pose correction method includes obtaining a first pose of a gimbal based on an Inertial Measurement Unit (IMU) arranged at a vertical compensation device configured to be coupled to the gimbal and compensate for movement of the gimbal in a vertical direction, obtaining a second pose of the vertical compensation device based on a vision device arranged at the vertical compensation device, and correcting the first pose according to the second pose.

A method of controlling operation of a linear actuator, including maintaining the linear actuator in equilibrium when supporting a first load, determining application of a second load on the linear actuator, and selectively actuating the linear actuator in response to application of the second load on the linear actuator.

A method for controlling a gimbal configured to carry a load includes detecting a motion state of a motion of the gimbal or the load, comparing the motion state to a preset threshold to obtain a comparison result, and controlling the gimbal to maintain the load in an original posture based on the comparison result.

A assembled support mechanism for an LED display screen, comprises: a bottom support, being in an assembled frame structure, provided with devices configured for longitudinal and transverse splicing at a periphery thereof, and the devices configured for longitudinal and transverse splicing comprising a longitudinal engagement device and a transverse engagement device; and middle portions of a front side and a rear side of the bottom support being respectively provided with screen connecting portions configured for connecting to an LED display screen in a vertical direction. A plurality of rotational stands, in detachable connection with the bottom support, and a respective rotational stand after being spliced and assembled being rotatable around the bottom support with a rotational angle range of 0° to 180°.

A method of installing a turbine assembly is provided. The method includes assembling a support member for supporting a turbine assembly during installation. The support member includes a platform having a plurality of modular platform components oriented to define an upper surface of the platform. The method also includes positioning a linear actuator on the upper surface of the platform. The method further includes positioning a column on the linear actuator. The method includes lifting the turbine assembly onto the column. The platform, the linear actuator, and the column are sized to support the turbine assembly.

A tablet stand is disclosed which incorporates a near field antenna configuration which couples to a near field antenna in the back of a tablet and provides a near field antenna coupling region for near field communication at the front of the tablet. The stand may be completely passive and use conductive antenna elements and passive resonance matching circuit elements to provide efficient coupling. In another aspect a thin profile passive keyboard adapted for use with a near field enabled tablet is provided. In another aspect a mounting bracket or holder, embedded antenna, and passive keyboard combination is provided adapted for converting a tablet into a notebook type configuration.

The present application provides an automatic photographing device and a self-service photographing machine, including a camera, a vertical guide rail, a slider adapted to the guide rail and a support plate with one end connected with the slider. The slider is provided with a drive mechanism, the other end of the support plate is provided with a horizontal rotation mechanism, the horizontal rotation mechanism is provided with a pitch rotation mechanism, the pitch rotation mechanism is provided with a bracket, and the camera is connected with the bracket through a turning mechanism. The present application can help people to shoot more professional photos with multiple angles and styles, and the photographed photos are more natural and beautiful, meanwhile, the shooting efficiency is improved, and the different needs of photographers are greatly met.

A protective casing structure includes a hood assembly including a hood, a casing used to be locked to the hood assembly to form a sealed cavity, and a mounting member arranged in the sealed cavity and used to mount an electronic device. One end of the casing is provided with an opening adapted to a shape of and abutting against the hood. The sealed cavity provides a space for the electronic device to move in the space.

A method for controlling a gimbal includes detecting a motion of the gimbal, determining whether a received control signal indicates that the motion of the gimbal corresponds to a user-intended motion, controlling the gimbal to move along a moving direction of the motion in response to determining that the received control signal indicates the motion of the gimbal corresponds to the user-intended motion, and controlling the gimbal to move along an opposite direction to the moving direction of the motion in response to determining that the received control signal does not indicate the motion of the gimbal corresponds to the user-intended motion.

The present disclosure relates to camera mounts and cameras implementable in mounting-restricted environments. The camera mount may comprise a bracket and an optional cover, wherein the bracket may be configured to mount to a surface and the bracket configured to protect the camera. The bracket may include a mounting portion, an angled portion and an adjustment portion, which each may be configured to angle the camera relative to the surface. The mounting component may be configured to include a clearance portion that may facilitate angling the camera. The angled portion may be configured to be a wedge angled relative to the surface. The adjusting portion may be pivotable around an axis parallel to the surface such that in combination, the adjusting portion and the angled portion may facilitate the positioning of the camera to include a viewing angle that may vary up to 65°.