A camera module is provided. The camera module includes an optical assembly including one or more lens and an image sensor, a first driving unit configured to move the optical assembly in a first direction to retract the optical assembly into a housing of an electronic device in which the optical assembly is disposed, or configured to move the optical assembly in a second direction, opposite to the first direction, so that the optical assembly protrudes externally from the housing, and a second driving unit configured to rotate the optical assembly in a protruding state based on a rotation axis, parallel to the first direction.

A wireless speaker and camera assembly includes a remote control for storing data comprising a remote control program. A housing is included and a speaker is integrated into the housing to emit audible sound outwardly therefrom. A camera is integrated into the housing to capture images of the environment in which the housing is positioned. A transceiver is integrated into the housing and the transceiver is in communication with the speaker and the camera. Additionally, the transceiver is in remote communication with the remote control to send and receive audio data and image data with respect to the remote control thereby facilitating the speaker to stream audio received from the remote control.

An imaging apparatus with reduced flare includes an imaging structure including a solid state imaging element (1) and a transparent substrate (2) disposed on the imaging element. The imaging apparatus includes a circuit substrate (7) including a circuit, a spacer (10) including at least one fixing portion (11) that guides the imaging structure to a desired position on the circuit substrate (7) when the imaging structure is mounted on the circuit substrate, and a light absorbing material (13) disposed on at least one side surface of the imaging structure such that that light absorbing material (13) is between the imaging structure and the at least one fixing portion.

A method includes capturing, by a camera disposed behind a display panel of an electronic device, an original image through a semi-transparent pixel region of the display panel. The original image includes one or more color components. The method further includes determining, for a plurality of pixel regions of the original image, a point spread function (PSF) for each of the one or more color components. The method further includes performing, for the plurality of pixel regions of the original image, a deconvolution of each of the one or more color components of the original image based at least in part on their respective PSFs. The method thus includes generating a reconstructed image corresponding to the original image based on the deconvolutions of the one or more color components of the plurality of pixel regions of the original image.

The present disclosure relates to a camera module capable of achieving a smaller height, a method of manufacturing a camera module, an imaging apparatus, and an electronic apparatus. An imaging device having its imaging surface bonded to a provisional substrate is attached, and the imaging device in that state is joined to a substrate via an electrode having a TSV structure. After the provisional substrate is detached, an IR cut filter (IRCF) on which a light blocking film is printed or jet-dispensed in a region other than the effective pixel region is bonded to the imaging surface via a transparent resin. Because of this, there is no need to provide any sealing glass in the stage before the imaging surface, and the optical length of the lens can be shortened. Thus, a smaller height can be achieved. The present disclosure can be applied to camera modules.

Disclosed is an electronic device including a camera module including at least one lens, a display including a camera exposure region at least partially overlapping with the lens and a border region surrounding a periphery of the camera exposure region in a direction corresponding to an optical axis of the lens, and a processor operatively connected to the camera module and the display. When a shooting-related application is executed or when the camera module is activated, the processor may control a luminance of the border region to be within a specified range. Besides, various embodiments as understood from the specification are also possible.

A system for compounding medications. The system includes one or more compounding devices, and a central computer system. The central computer system receives requests, at least some of which require the compounding of one or more medications, and pushes assignments of respective compounding tasks to the one or more compounding devices. The assignments are made in accordance with a set of rules designed to promote efficient use of compounding resources.

A system for compounding medications. The system includes one or more compounding devices, and a central computer system. The central computer system receives requests, at least some of which require the compounding of one or more medications, and pushes assignments of respective compounding tasks to the one or more compounding devices. The assignments are made in accordance with a set of rules designed to promote efficient use of compounding resources.

An apparatus is described that includes an integrated two-dimensional image capture and three-dimensional time-of-flight depth capture system. The three-dimensional time-of-flight depth capture system includes an illuminator to generate light. The illuminator includes arrays of light sources. Each of the arrays is dedicated to a particular different partition within a partitioned field of view of the illuminator.

A lens barrel (3) holding an imaging lens (2) is inserted into a carrier (5) accommodated in an actuator (4), and the carrier (5) is held at a position in an optical axis direction of the imaging lens (2) by the actuator (4). The position of the imaging lens (2) in the optical axis direction and the eccentricity of the imaging lens (2) are adjusted on the basis of imaging information of an image sensor (6), and the lens barrel (3) is fixed to the carrier (5).