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.

An apparatus for enveloping a portable communication or storage device includes a plurality of walls configured to at least partially enclose the portable communication or storage device. The apparatus also includes a processor, and a first shutter that is associated with one or more of the walls. The first shutter is operatively coupled to the processor, and is disposed so as to overlie a first camera lens of the portable communication or storage device. The first shutter has a first condition in which the taking of digital impressions with the first camera lens is unobstructed, and a second condition in which the taking of digital impressions with the first camera lens is hindered. The processor is configured to verify that a plurality of conditions is met before allowing the first shutter to toggle between the first and second conditions of that first shutter.

A method for film production includes the steps of obtaining information on the position of a defect (D) in a separator (12a) and providing marks (LA, LB) at the respective positions in the vicinity of the defect (D), the marks indicating the position of the defect.

Disclosed is a control device for a serial network protocol controller configured to selectively disable control of a parameter of a controllable media device by at least one channel while the serial network protocol controller continues to transmit the at least one channel to the at least on serial network protocol controllable media device.

A tilt-type anti-shake compensation structure for auto-focus module includes an auto-focus module having a lens assembly held thereto and driving the latter to move forward and rearward in a light entering path, i.e. in z-axis direction, so as to focus a captured image; an outer frame enclosing the auto-focus module therein, and having an elastic supporting member provided therein to connect to and between upper ends of the outer frame and the auto-focus module; and a compensation driving unit arranged behind the auto-focus module for driving the auto-focus module to tilt leftward and rightward on x-axis, or forward and rearward on y-axis, within the outer frame, so as to compensate any image deviation due to shake caused by hands. The anti-shake structure is simple and can quickly compensate shake caused by hands.

A tilt-type anti-shake compensation structure for auto-focus module includes an auto-focus module having a lens assembly held thereto and driving the latter to move forward and rearward in a light entering path, i.e. in z-axis direction, so as to focus a captured image; an outer frame enclosing the auto-focus module therein, and having an elastic supporting member provided therein to connect to and between upper ends of the outer frame and the auto-focus module; and a compensation driving unit arranged behind the auto-focus module for driving the auto-focus module to tilt leftward and rightward on x-axis, or forward and rearward on y-axis, within the outer frame, so as to compensate any image deviation due to shake caused by hands. The anti-shake structure is simple and can quickly compensate shake caused by hands.

[Object] To provide a control device which enables a flight vehicle device to obtain a highly precise image.

[Solution] Provided is the control device including an illuminating control unit configured to adjust a light amount of an illuminating device according to an inclination of a body of a flight vehicle device that has an imaging device configured to photograph a photographing target and the illuminating device configured to illuminate the photographing target.

In a first operation mode, signals are read from pixels including ranging pixels in a pixel array and ranging and image generation are performed based on the read signals. In a second operation mode, signals are read from the pixels excluding the ranging pixels and exposure is controlled based on the read signals.

The present invention provides a mobile phone stabilizer, comprising a fixing device for mobile phone, an angle adjusting device and a two-hand control device, wherein the angle adjusting device comprises an X-axis adjusting mechanism, a Y-axis adjusting mechanism and a Z-axis adjusting mechanism which are orthogonally arranged in three-dimensional space; wherein the Z-axis adjusting mechanism has a connecting end fixedly connected with the two-hand control device and has an output end rotatablely connected with a connecting end of the Y-axis adjusting mechanism, the Y-axis adjusting mechanism has an output end rotatablely connected with a connecting end of the X-axis adjusting mechanism, the X-axis adjusting mechanism has an output end rotatablely connected with the fixing device for mobile phone. The mobile phone stabilizer of the present invention has a simple structure and can effectively improve the shooting stability of the mobile phone.

A carrier slide-bar device in arc motion includes: a first, a second, and a third slide bar respectively having a first, a second, and a third guide rail, where the third slide bar is provided with an active seat and a passive seat pivotally connected to the first and the second slide bar respectively, the active seat is provided with a first sliding member assembled with the first guide rail and is connected to a first power source to enable the first sliding member to move along the first guide rail, the passive seat is provided with a second sliding member assembled with the second guide rail, a pivot bar is vertically provided on the passive seat, and the rotary seat is pivotally connected to at least a third sliding member; thereby, the carrier such as a camera can take pictures while moving by various arcs and angles.