A camera device according to an aspect of the invention includes an imaging unit, an imaging direction adjustment unit, a direction control unit that controls the imaging direction adjustment unit, a camera-side tracking processing unit that analyzes captured image data to acquire first target information indicating the position of a tracking target and outputs the first target information, a camera-side communication unit that receives second target information from a terminal device, and a camera-side target information correction unit that corrects the first target information on the basis of the second target information.

Described herein is a mount assembly for mounting a device to a surface, including: a socket assembly; a mounting element including a unitary mounting ball receivable by the socket assembly to pivotally couple the mounting element to the socket assembly to position the mounting element relative to the socket assembly, where the socket assembly includes a resilient member configured to define a socket to receive and engage the unitary mounting ball, the resilient member configured to permit the unitary mounting ball to be urged into the socket against a resilient bias; and the socket including at least one formation and the unitary mounting ball including at least one complementary formation, the at least one formation and at least one complementary formation configured to interact to inhibit rotational movement about a roll axis of the mounting element relative to the socket assembly.

Described herein is a mount assembly for mounting a device to a surface, including: a socket assembly; a mounting element including a mounting ball receivable by the socket assembly to pivotally couple the mounting element to the socket assembly to position the mounting element relative to the socket assembly; where the socket assembly includes: a resilient member configured to define a socket to receive and engage the mounting ball, the resilient member configured to permit the mounting ball to be urged into the socket against a resilient bias; a biasing element to bias the resilient member into the socket; and a retention element to inhibit deflection of an end of the resilient member away from the socket.

The present embodiment relates to a lens driving device comprising: a housing comprising a first hole and a second hole; a first bobbin disposed in the first hole of the housing; a second bobbin disposed in the second hole of the housing; a first coil disposed on the first bobbin; a second coil disposed on the second bobbin; a first magnet disposed in the housing to face the first coil; a second magnet facing the second coil; and a third magnet disposed between the first coil and the second coil.

An electronic apparatus includes an imaging unit configured to image a subject, an eyepiece portion configured to visually recognize an image of the subject, a display unit configured to enable visual recognition via the eyepiece portion, a detection unit configured to detect a gaze point by a line-of-sight of a user looking at the display unit, and a control unit configured to, in a state where selected position specification based on the gaze point is performed, perform control, upon performance of a move operation for movement while in contact with an operation surface of an operation unit, to move a selected position displayed on the display unit from a position based on the gaze point to a position corresponding to a direction and an amount of movement of the move operation.

A camera system includes a plurality of cameras configured to capture images in different directions. The camera system rotates the plurality of cameras in a predetermined direction. The plurality of cameras are configured such that, even during rotation, one of the cameras captures an image of a preset specific region. The camera system acquires parallax information regarding an object present in the specific region on the basis of a plurality of captured images of the specific region.

An image providing system capable of quickly providing a plurality of different cropped images is disclosed. The image providing system acquires position information about a position of a user designated by the user. The image providing system determines a range of an image that was captured by an image capturing unit, the range corresponding to the position information as a cropping range, before the image capturing unit starts a series of image capturing in which the image capturing unit captures a plurality of images. After the series of image capturing is started, the system applies cropping that cuts out a part of a captured image based on the cropping range. During the series of image capturing, the system provides a cropped image to which the cropping has been applied in a way in which a user can obtain the cropped image.

A mounting bracket for a camera. The mounting bracket for a camera includes a bracket. The bracket has a first end extends in an opposite direction of a second end. The first end includes a first arm and a second arm extending therefrom. The first arm and the second arm are mounted on an upper surface of the bracket in a way that permits rotation. The second arm is rotatably mounted on the upper surface of the bracket, on an opposing edge thereof, from the first arm. The first arm and the second arm are threadably engaged with each other, such that the area between the first arm and the second arm is expandable and retractable via an adjuster.

A mounting bracket for a camera. The mounting bracket for a camera includes a bracket. The bracket has a first end extends in an opposite direction of a second end. The first end includes a first arm and a second arm extending therefrom. The first arm and the second arm are mounted on an upper surface of the bracket in a way that permits rotation. The second arm is rotatably mounted on the upper surface of the bracket, on an opposing edge thereof, from the first arm. The first arm and the second arm are threadably engaged with each other, such that the area between the first arm and the second arm is expandable and retractable via an adjuster.

An elevator assembly includes a first bracket, a second bracket, a first connecting rod and a second connecting rod. The second bracket is slidably disposed on the first bracket. The first connecting rod has a first pivot end and a first sliding end. The first pivot end is pivoted to the first bracket and provided with a first gear portion, and the first sliding end is slidably disposed on the first bracket and connected to the second bracket. The second connecting rod has a second pivot end and a second sliding end. The second pivot end is pivoted to the first bracket and provided with a second gear portion, the second sliding end is slidably disposed on the second bracket and connected to the second bracket, and the first gear portion and the second gear portion are engaged with each other.