An electronic apparatus includes an operation member configured to receive user operation to specify at least a part of a brightness range of a first image using a percentage; a combining unit configured to generate a second image by combining a pattern image with a region of the first image, the region corresponding to the part of the brightness range specified by the user operation; and an output unit configured to output the second image to a display unit.

An image capture system provides automated prompts for aiding a user in capturing images for use in 3D model creation. While a user is preparing to capture an image, the system provides visual indications that indicate whether a quality-based condition is satisfied. Based on the visual indications, a user can determine whether an image, if captured, would likely be suitable for use in creating a 3D model. Determining if the quality-based condition is satisfied may include monitoring output generated by one or more sensors and comparing the output against a threshold value. Additionally, the system may analyze the visual content or metadata associated with an image to determine if the quality-based condition is satisfied and request user input to further identify certain image features that were identified by the system.

There is provided an image capturing control apparatus. A non-blur region setting unit sets, within a screen, a non-blur region to which blur processing is not applied. In response to an operation performed by a user, a focus detection region setting unit sets, within the screen, a focus detection region in which focus detection is performed. When the focus detection region is outside the non-blur region, a control unit performs control to issue a notification that is not issued when the focus detection region is inside the non-blur region.

A device has a camera and a screen for displaying an image captured by the camera. A user specifies desired modification to an image displayed on the screen to produce a desired modified image. This may for example make the user look more attractive. Required light output characteristics of a lighting device are then derived so that subsequent captured images using the altered lighting are closer to the desired modified image.

In a method, it is determined that a detachable lens is mounted on an image capture device in a first orientation. A first image of a controlled scene is captured with the detachable lens mounted in the first orientation. It is determined that the detachable lens is mounted on the image capture device in a second orientation that is rotated approximately 180 degrees from the first orientation. A second image of the controlled scene is captured with the detachable lens in the second orientation. A first image circle center of the first image is determined. A second image circle center of the second image is determined. An average image circle center is determined, based on the first image circle center and the second image circle center. The average image circle center is provided to an image stabilization algorithm when the detachable lens is mounted on the image capture device.

The disclosure includes: a first acquisition section that acquires a first image captured by an imaging device mounted on a vehicle after driving of the vehicle is finished; a second acquisition section that acquires a second image captured by the imaging device when driving of the vehicle is started; and a detection section that detects misalignment between the first image and the second image.

There is provided a camera apparatus, including circuitry configured to: output a first image signal for displaying a first image, output a second image signal for displaying a second image. The second image signal is an image signal transmitted as a return signal. Further, the second image is an image that includes one of a location of a focus adjustment in the first image and an enlarged image corresponding to a part of the first image.

The invention relates to a camera (2) for a motor vehicle (1), including a housing (8) and a circuit board (9) and a retaining element (12), by which the circuit board (9) is retained in the housing (8), wherein the retaining element (12) has a first retaining flap (16) resilient in the direction perpendicular to a longitudinal axis (15) of the housing (8) and a second retaining flap (17) resilient in the direction perpendicular to the longitudinal axis (15), which engage with opposing border sides (20, 21) of the first circuit board (9), wherein the first retaining flap (16) is pressed to a first border side (20) of the first circuit board (9) by an inner side (28) of a first sidewall (24) of the housing (8) in perpendicular direction to the longitudinal axis (15) in the assembled final state of the camera (2), and the second retaining flap (17) is pressed to a second border side (21) of the first circuit board (9) by an inner side (29) of a second sidewall (25) of the housing (8) in perpendicular direction to the longitudinal axis (15) in the assembled final state of the camera (2).

A camera module includes a lens assembly comprising a plurality of solid lenses, an image sensor disposed on an optical axis of the plurality of solid lenses, a liquid lens disposed on the optical axis, the liquid lens being disposed on the image sensor, and a controller configured to move the image sensor in a direction perpendicular to the optical axis.

An electronic device comprises a camera; a memory configured to store a plurality of tone mapping information sets, each of the tone mapping information sets comprising image information of an image frame and tone mapping information of the image frame; and a processor, wherein the processor is configured to: select a tone mapping information set based on user input; acquire a first image frame captured through the camera; obtain a first feature of the first image frame by analyzing the first image frame; identify a second feature of second image frame corresponding to the selected tone mapping information set, based on image information of the second image frame; compare the first feature and the second feature; based on the comparison result, apply tone mapping to the first image frame using tone mapping information of the second image frame; and store image data of the first image frame, in the memory.