The present embodiments relate to a dual camera module comprising: a first camera module including a first lens module and a first image sensor disposed below the first lens module; and a second camera module including a second lens module and a second image sensor disposed below the second lens module, wherein the second camera module has a wider angle of view than the first camera module, and the second image sensor is disposed at a position higher than the first image sensor.

The present embodiments relate to a dual camera module comprising: a first camera module including a first lens module and a first image sensor disposed below the first lens module; and a second camera module including a second lens module and a second image sensor disposed below the second lens module, wherein the second camera module has a wider angle of view than the first camera module, and the second image sensor is disposed at a position higher than the first image sensor.

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 invention provides a method and system for acquiring operating parameters of a photographic lens, including: a control circuit and a storage unit that are configured in the photographic lens, where the control circuit acquires an operating parameter of the photographic lens by using a focusing ring position sensor, a zoom ring position sensor, an aperture ring position sensor, an accelerometer and a gyro sensor; and the control circuit is further connected to a camera or an external data reading device by using a communication interface, to output the operating parameter after data encapsulation in real time.

The present invention provides a method and system for acquiring operating parameters of a photographic lens, including: a control circuit and a storage unit that are configured in the photographic lens, where the control circuit acquires an operating parameter of the photographic lens by using a focusing ring position sensor, a zoom ring position sensor, an aperture ring position sensor, an accelerometer and a gyro sensor; and the control circuit is further connected to a camera or an external data reading device by using a communication interface, to output the operating parameter after data encapsulation in real time.

The present disclosure relates to an imaging apparatus, an imaging method, and a program that enable operation in which a display unit is brought into a turn-off state when a predetermined time elapses after start of capturing a moving image, a command from a remote commander is accepted and executed, and the captured moving image is output to an external apparatus. In a case where a manipulation unit that outputs a command depending on content of a user manipulation is manipulated and a command causing a moving image to be recorded on a recording medium is output, recording of the moving image is started and the display unit is controlled to a turn-off state in which an image is not displayed. The present disclosure can be applied to an imaging apparatus.

The present embodiments relate to a dual camera module comprising: a first camera module including a first lens module and a first image sensor disposed below the first lens module; and a second camera module including a second lens module and a second image sensor disposed below the second lens module, wherein the second camera module has a wider angle of view than the first camera module, and the second image sensor is disposed at a position higher than the first image sensor.

The present embodiments relate to a dual camera module comprising: a first camera module including a first lens module and a first image sensor disposed below the first lens module; and a second camera module including a second lens module and a second image sensor disposed below the second lens module, wherein the second camera module has a wider angle of view than the first camera module, and the second image sensor is disposed at a position higher than the first image sensor.

Provided is an electronic device including: a sensor; an image acquisition unit; a storage unit that stores a reference image that is an image of a target object; a feature-point position determining unit that determines the positions of feature points indicating local feature quantities in the reference image; a feature-point distance calculating unit that repeatedly executes detection of points corresponding to the feature points in the reference image from the acquired image of the space and calculation of the distances with respect to the positions of the detected points; a judgment unit that judges whether the amount of movement is equal to or less than a predetermined allowable reference value; and a control unit that obtains the acquired image of the space and stores the image of the space if it is judged that the amount of movement is equal to or less than the allowable reference value.

The present embodiments relate to a dual camera module comprising: a first camera module including a first lens module and a first image sensor disposed below the first lens module; and a second camera module including a second lens module and a second image sensor disposed below the second lens module, wherein the second camera module has a wider angle of view than the first camera module, and the second image sensor is disposed at a position higher than the first image sensor.