An image capturing apparatus (1) includes a first image capturer (100) including a first image capturing optical system (101) and a first image sensor (102), and a second image capturer (110) including a second image capturing optical system (111a) and a third image capturing optical system (111b) with different viewpoints from each other and a second image sensor (112), an angle of field of each of the second image capturing optical system and the third image capturing optical system is larger than an angle of field of the first image capturing optical system, each of the second image capturing optical system and the third image capturing optical system includes at least two reflection members (P1a, P2a; P1b, P2b) that introduces light from an object to the second image sensor, and a predetermined conditional expression is satisfied.

In an image sensor according to related art, charge information cannot be read at the same time from a pair of photoelectric conversion elements placed corresponding to one microlens. According to one embodiment, an image sensor includes a first photoelectric conversion element and a second photoelectric conversion element placed corresponding to one microlens, a first transfer transistor placed corresponding to the first photoelectric conversion element and a second transfer transistor placed corresponding to the second photoelectric conversion element, a read timing signal line that supplies a common read timing signal to the first transfer transistor and the second transfer transistor, a first output line that outputs a signal of the first photoelectric conversion element to the outside, and a second output line that outputs a signal of the second photoelectric conversion element to the outside.

In an image sensor according to related art, charge information cannot be read at the same time from a pair of photoelectric conversion elements placed corresponding to one microlens. According to one embodiment, an image sensor includes a first photoelectric conversion element and a second photoelectric conversion element placed corresponding to one microlens, a first transfer transistor placed corresponding to the first photoelectric conversion element and a second transfer transistor placed corresponding to the second photoelectric conversion element, a read timing signal line that supplies a common read timing signal to the first transfer transistor and the second transfer transistor, a first output line that outputs a signal of the first photoelectric conversion element to the outside, and a second output line that outputs a signal of the second photoelectric conversion element to the outside.

There is provided a method of improving the accuracy of image analysis by applying an image analysis result of a stereo camera to an image analysis process of a monocular camera. There is provided an imaging apparatus including a motion detecting unit that calculates motion information of a subject, a distance information detecting unit that calculates distance from an imaging apparatus to the subject, and an overall control unit that controls the motion information detecting unit and the distance information detecting unit, in which the motion information detecting unit removes unnecessary information from the motion information by using the distance information of the subject calculated by the distance information detecting unit.

An image capturing apparatus, comprises an image sensor having a focus detection pixel; a focus detection unit configured to perform focus detection, by using a signal from the focus detection pixel; a focus adjustment unit configured to control focus adjustment of an imaging lens; a lock unit configured to lock the focus adjustment of the imaging lens; and a control unit configured to control so as to, if the focus adjustment of the imaging lens is caused to transition from a locked state to a state where the focus adjustment lock is cancelled in continuous shooting, temporarily cause the continuous shooting to stop, and, after performing the focus adjustment of the imaging lens and confirming that the imaging lens has focused on the subject, restart the continuous shooting.

An image capturing apparatus (1) includes a first image capturer (100) including a first image capturing optical system (101) and a first image sensor (102), and a second image capturer (110) including a second image capturing optical system (111a) and a third image capturing optical system (111b) with different viewpoints from each other and a second image sensor (112), an angle of field of each of the second image capturing optical system and the third image capturing optical system is larger than an angle of field of the first image capturing optical system, each of the second image capturing optical system and the third image capturing optical system includes at least two reflection members (P1a, P2a; P1b, P2b) that introduces light from an object to the second image sensor, and a predetermined conditional expression is satisfied.

Systems and methods of processing images of expense receipts are provided. Images of expense receipts are received from an image capture device and an image filter is used to process the images. The filtered images are displayed to the user in a real-time preview portion of a user interface.

In an image sensor according to related art, charge information cannot be read at the same time from a pair of photoelectric conversion elements placed corresponding to one microlens. According to one embodiment, an image sensor includes a first photoelectric conversion element and a second photoelectric conversion element placed corresponding to one microlens, a first transfer transistor placed corresponding to the first photoelectric conversion element and a second transfer transistor placed corresponding to the second photoelectric conversion element, a read timing signal line that supplies a common read timing signal to the first transfer transistor and the second transfer transistor, a first output line that outputs a signal of the first photoelectric conversion element to the outside, and a second output line that outputs a signal of the second photoelectric conversion element to the outside.

In an image sensor according to related art, charge information cannot be read at the same time from a pair of photoelectric conversion elements placed corresponding to one microlens. According to one embodiment, an image sensor includes a first photoelectric conversion element and a second photoelectric conversion element placed corresponding to one microlens, a first transfer transistor placed corresponding to the first photoelectric conversion element and a second transfer transistor placed corresponding to the second photoelectric conversion element, a read timing signal line that supplies a common read timing signal to the first transfer transistor and the second transfer transistor, a first output line that outputs a signal of the first photoelectric conversion element to the outside, and a second output line that outputs a signal of the second photoelectric conversion element to the outside.

[Object] To make it possible to further improve convenience of a user.

[Solution] There is provided a control device including: an autofocus control section configured to execute an autofocus operation by moving at least one optical member; and an autofocus operation determination section configured to determine whether it is possible for the autofocus operation to bring biological tissue into focus, the biological tissue serving as an object. In a case where the autofocus operation determination section determines that it is not possible for the autofocus operation to bring the object into focus, the autofocus control section moves the at least one optical member to a predicted focal position set in advance in accordance with a purpose of imaging.