According to various embodiments, an electronic device may comprise: a power converter; a camera module including a camera; and a processor configured to: identify a first illuminance value of a surrounding of the electronic device in a state in which a switching frequency of the power converter transferring power to the camera module is a first frequency; determine whether the first illuminance value meets a first reference; and set the switching frequency of the power converter to a second frequency different from the first frequency based on the first illuminance value meeting the first reference.

A method of capturing instrument data using a communications device includes sending an actuation signal to a camera to take a photograph of at least one instrument, one of either transmitting or receiving a trigger message between the communications device and the at least one instrument, storing the photograph in a memory on the communications device, determining associated information for the photograph, and transmitting the photograph, associated information and user information to a network. A communications device has a camera having an actuator, at least one communications link, a memory, and a processor configured to execute instructions that cause the processor to: send an actuation signal to the camera to take a photograph of an instrument when a user activates the actuator; send a trigger message to the instrument to save instrument data; store the photograph in the memory with associated information about the photo including user information; and transmit at least the photo, associated information, and the user information to a remote location.

An object recognition system of the disclosure includes: a light source emitting dot light having a predetermined pattern to an object; an event detection sensor receiving the dot light having the predetermined pattern reflected by the object and detecting the fact that a change in luminance of a pixel has exceeded a predetermined threshold as an event; and a signal processor removing information other than event information originated from the dot light emitted from the light source and having the predetermined pattern among event information detected by the event detection sensor.

The disclosure relates to an apparatus and a method for controlling an image sensor, a storage medium, and a movable object. The apparatus for controlling an image sensor includes: a data obtaining unit configured to obtain parameter data related to one or more moving scenarios; and an instruction generation unit configured to generate, based on the parameter data, an instruction for controlling operation modes of the image sensor, where the moving scenarios are scenarios in which a movable object with the image sensor is located; and the operation modes correspond to setting manners of active pixels of the image sensor. According to the solutions of one or more embodiments of the disclosure, different operation modes are set for the image sensor in different scenarios, so that while sensing requirements in different scenarios are met, the power consumption can be reduced and requirements for a system can be lowered as far as possible.

A method for an apparatus includes setting, as a first setting, a first item relating to a type of a detection target, setting, as a second setting, a second item relating to an AF area, executing object detection processing on an object of the type set in the first setting, executing focus detection processing based on information about the AF area set in the second setting, and storing the settings as a combination of the set first item and the set second item, wherein the stored settings are called by a user through a specific operation, and the object detection processing and the focus detection processing are executed based on the called settings.

A semiconductor device includes a first substrate, a semiconductor device includes a first substrate, a color filter layer over the first substrate in an effective pixel region, a second substrate over the color filter layer, a joint member joining the first and second substrates, and a pattern layer over the first substrate outside the effective pixel region. The color filter layer has a color filter material and the pattern layer has the color filter material. In a planar view with respect to a surface of the first substrate on which the joint member is disposed, the pattern layer is disposed between two portions of the joint member, the two portions being separate from and adjacent to each other. In the planar view, the joint member is not disposed between the pattern layer and an end of the first substrate closest to the pattern layer among ends of the first substrate.

Provided is an optimal user interface for curbing sound generated by an imaging device. For this purpose, the imaging device includes a user interface control unit that performs user interface processing of enabling selection of whether or not to curb at least a part of sound generated in a first period from a power-on state until issuance of a transition instruction to a power-off state and a second period from the issuance of the transition instruction until the power-on state, and a switching control unit that changes control related to sound according to a selection result of the user interface processing.

Systems, methods, and computer-readable media are provided for low power, variable focus. An example method can include obtaining, based on a trigger, a first image of a scene captured by an image sensor, the first image being captured with a lens of the image sensor in a first configuration of a plurality of available lens configurations; determining, based on the first image and a first detection result, whether an object of interest is present in the first image; in response to determining that the object of interest is not present in the first image, adjusting the lens to a second configuration selected from the plurality of lens configurations; obtaining, by the image sensor, a second image of the scene while the lens is in the second configuration; and determining, based on the second image and a second detection result, that the object of interest is present in the second image.

An aerial vehicle system, such as an unmanned aerial vehicle, that includes a camera system with replaceable camera modules that have different spectral, optical and/or sensing characteristics from one another. By replacing one camera module with another camera module, different information can be gathered and analyzed by the camera system of the aerial vehicle system.

An image processing device is provided. The image processing device includes an image signal processor for processing a raw image received from a camera and a memory for storing a previous frame of the raw image and an intermediate image generated by the processing, wherein the image signal processor estimates an initial global motion vector between the previous frame and a current frame, receives focus region information in the raw image, divides the raw image into a foreground (FG) region and a background (BG) region based on the focus region information, generates a final global motion vector by divisionally updating the initial global motion vector based on the FG region and the BG region, performs motion compensation by applying the final global motion vector to the previous frame, and outputs a final image by blending the motion-compensated previous frame with the current frame.