An image capture apparatus according to an embodiment of the present technology includes an image generation unit, an edge detection unit, and a color control unit. The image generation unit generates a captured image by capturing a subject. The edge detection unit detects an edge portion included in the generated captured image. The color control unit controls a color of a highlighted display for highlighting the edge portion for each detected edge portion based on color information about the edge portion in the captured image.

A control apparatus includes an angle control unit configured to change a tilt angle by tilting an imaging sensor, a first determination unit configured to determine a first area from among a plurality of areas in an image, an evaluation value acquisition unit configured to acquire a contrast evaluation value of each of second areas excluding the first area among the plurality of areas by changing the tilt angle through the angle control unit, and a second determination unit configured to determine the tilt angle for each area based on the contrast evaluation value acquired by the evaluation value acquisition unit, and determining the tilt angle of the image sensor based on the tilt angle determined for each area. The angle control unit tilts the image sensor so as to obtain the tilt angle determined by the second determination unit.

Aspects of the present disclosure are directed to a method for focusing a camera. In one embodiment, the method includes: dividing the field of view of the camera in to at least two segments: assigning, in each case, at least one operating element or at least one position of an operating element to the at least two segments; recognizing and tracking at least one object in at least two segments; automatically assigning the recognized at least two objects to the respective operating element or position of the operating element depending on which segment the objects are assigned to; and focusing the camera on the object assigned to the operating element or the position of the operating element in response to the operating element being actuated or the operating element being brought into the corresponding position.

Aspects of the present disclosure are directed to a method for focusing a camera. In one embodiment, the method includes: dividing the field of view of the camera in to at least two segments: assigning, in each case, at least one operating element or at least one position of an operating element to the at least two segments; recognizing and tracking at least one object in at least two segments; automatically assigning the recognized at least two objects to the respective operating element or position of the operating element depending on which segment the objects are assigned to; and focusing the camera on the object assigned to the operating element or the position of the operating element in response to the operating element being actuated or the operating element being brought into the corresponding position.

Systems and methods described herein can be used to improve camera modules (e.g., camera components), particularly when the camera lens depth of focus is very small. Improvement of a camera with a small depth of focus is particularly important in various applications, such as in cameras used in autonomous navigation (e.g., advanced driver assistance systems (ADAS) and autonomous vehicle (AV) systems).

Systems and methods described herein can be used to improve camera modules (e.g., camera components), particularly when the camera lens depth of focus is very small. Improvement of a camera with a small depth of focus is particularly important in various applications, such as in cameras used in autonomous navigation (e.g., advanced driver assistance systems (ADAS) and autonomous vehicle (AV) systems).

Aspects of the present disclosure are directed to a method for setting the focus of a film camera. In one embodiment, for example, the method includes the steps of: obtaining distance information from a measuring device arranged in a region of the film camera, the measuring device producing a real image and a depth image; setting the focus of the film camera using the obtained distance information; producing a real image which is augmented with depth information from the measuring device; and calculating the real image into the image of the film camera by means of an image transformation.

Aspects of the present disclosure are directed to a method for setting the focus of a film camera. In one embodiment, for example, the method includes the steps of: obtaining distance information from a measuring device arranged in a region of the film camera, the measuring device producing a real image and a depth image; setting the focus of the film camera using the obtained distance information; producing a real image which is augmented with depth information from the measuring device; and calculating the real image into the image of the film camera by means of an image transformation.

In a method of processing an image, a first image including a plurality of objects and image information associated with the first image are obtained. Image processing information associated with an image operation to be performed on the first image is obtained based on an object among the plurality of objects included in the first image and a user command specified in at least one of voice information of a user and touch information from the user. A second image is generated by performing the image operation on the first image based on the image information and the image processing information.

Aspects of the disclosure relate to an apparatus including multiple image sensors sharing one or more optical paths for imaging. An example method includes identifying whether a device including a first aperture, a first image sensor, a second image sensor, and an optical element is to be in a first device mode or a second device mode. The method also includes controlling the optical element based on the identified device mode. The optical element directs light from the first aperture to the first image sensor in a first optical element mode. Light from the first aperture is directed to the second image sensor when the optical element is in the second optical element mode.