A handheld gimbal includes a handle and a gimbal. The gimbal is connected to the handle and includes at least two shaft assemblies. The at least two shaft assemblies are rotatably connected to each other. Each of the at least two shaft assemblies includes a motor. The motors of the at least two shaft assemblies are arranged one over another along a same straight line when the gimbal is in a folded state. The motors of the at least two shaft assemblies are arranged separately when the gimbal is in an unfolded state.

A display mounting system including a support column, a moving bracket, an arm assembly, and a tilt assembly is described. The display mounting system includes one or more display attachment brackets to support one or more electronic displays. The display mounting system is used to hold one or more electronic displays over a worksurface or in front of a wall, and it allows the user of the display mounting system to easily change the orientation of one or more electronic displays according to user's preferences.

A 360-degree camera device having atmosphere lamp includes a supporting platform, a supporting spindle, a supporting base, and a rotating shooting bracket. The supporting platform includes a first supporting element, a tempered glass, a first light source, and a reflecting mirror. The first supporting element is configured to support the tempered glass. The tempered glass is a single-sided perspective glass including a light-transmitting surface and a reflecting surface. An interval area is disposed between the tempered glass and the reflecting mirror. The reflecting mirror and the reflecting surface are oppositely disposed. The first light source is disposed in the interval area. The first light source is in a shape of graphics and/or characters. The first light source includes a plurality of point-shaped light-emitting parts. The first light source is substantially disposed in an annular shape and disposed along edge contour of the tempered glass or the reflective mirror.

An apparatus comprising, a capturing unit, a rotation unit for adjusting an image capturing direction by rotating the capturing unit, a control unit for controlling a rotational position of the rotation unit, a first detection unit for detecting a first shake of the apparatus, and a storage unit for storing a rotational position of the rotation unit in association with an anti-vibration setting, wherein the control unit determines the rotational position, based on a designated image capturing direction, and controls an operation of the rotation unit to cancel the detected first shake, during image capture at the determined rotational position, based on the stored anti-vibration setting.

Various embodiments concern locking release mechanisms that allow an articulated support arm to be moved between various vertical orientations. A locking release mechanism may include a handle release mechanism positioned within the handle of the articulated support arm, and a gas spring release mechanism positioned within the body of the articulated support arm. The articulated support arm can include a gas spring that remains locked until the handle release mechanism is activated, e.g. by applying pressure to a grip actuator. Other embodiments concern cable management techniques for articulated support arms. Oftentimes, an articulated support arm will include cables routed through the arm that are configured to support an attachment. For example, the cable(s) may be adapted for audio signals, video signals, power, etc. The cable(s) can be readily cleaned and/or serviced when routed through an articulated support arm composed of one or more removable pieces.

A method for object tracking. The method includes capturing a sequence of images of a scene, detecting, by a hardware processor, based on a pattern of local light change across the sequence of images, a reflective light source in the scene, comparing, by the hardware processor in response to detecting the reflective light source, a location of the reflective light source in at least one image of the sequence of images and a target position within the at least one image to generate a result, and generating, by the hardware processor based on the result, a control signal for changing a field-of-view of a camera device such that the reflective light source substantially aligns with the target position within the field-of-view, wherein the reflective light source emits an object-reflected light.

A display mounting system including a support column, a moving bracket, an arm assembly, and a tilt assembly is described. The display mounting system includes one or more display attachment brackets to support one or more electronic displays. The display mounting system is used to hold one or more electronic displays over a worksurface or in front of a wall, and it allows the user of the display mounting system to easily change the orientation of one or more electronic displays according to user's preferences.

A payload stabilizer and methods for stabilizing a payload suitable for use with video camera payloads. The support and stabilizing apparatus has a gimbal having two or more mutually perpendicular axes about which motion is generated by at least two of a pan motor, a tilt motor and a roll motor wherein the pan motor is integral to the gimbal handle and surrounds the main post. The stabilizer has a feedback system providing supplemental torques to the payload through a gimbal.

An apparatus comprising, a capturing unit, a rotation unit for adjusting an image capturing direction by rotating the capturing unit, a control unit for controlling a rotational position of the rotation unit, a first detection unit for detecting a first shake of the apparatus, and a storage unit for storing a rotational position of the rotation unit in association with an anti-vibration setting, wherein the control unit determines the rotational position, based on a designated image capturing direction, and controls an operation of the rotation unit to cancel the detected first shake, during image capture at the determined rotational position, based on the stored anti-vibration setting.

An electronic device is provided. The electronic device includes a display. The display includes a display surface and an opposed display back surface. A base is rotatably coupled to the display with a base hinge. The base includes an input surface and an opposed base bottom surface. The base hinge extends along an interface between the display and the base. A retractable standoff includes a standoff body having a standoff hinge to hingeably mount the standoff body to one of the display back surface or base bottom surface. The standoff hinge is moveable between a retracted position and extended position. The standoff body is flush with the display back surface or the base bottom surface when the retractable standoff is in the retracted position. The standoff body includes a standoff body outer edge to abut against another of the display back surface or the base bottom surface when the retractable standoff is in the extended position.