A lens apparatus includes an aperture stop, configured to form an image via the aperture stop and detachably mountable to a camera apparatus, a storage storing correction data for correcting image data obtained by image pickup by the camera apparatus, with respect to a light amount distribution in the image; and a communication device configured to transmit the correction data to an external apparatus. The correction data includes a coefficient of an n-th order polynomial (n is a non-negative integer) with respect to an image height, which corresponds to each of a plurality of states of the aperture stop. Minimum F-numbers at a wide angle end a telephoto end, focal lengths at the wide angle end and at the telephoto end, and F-numbers corresponding to the correction data are appropriately set.

An integrated color imaging system has a housing with an objective lens, photocathode and image intensifier. The image intensifier has radiation sensitive sensors and a phosphor screen. A rotatable first filter wheel is located between the objective lens and the photocathode. The first filter wheel can include first channels selectively positionable in an optical path of the image, and at least one of the first channels is clear and unfiltered. A rotatable second filter wheel can be located inside the housing between the phosphor screen and an eyepiece lens of the housing. The second filter wheel can include second channels selectively positionable in the optical path between the phosphor screen and the eyepiece lens, and at least one of the second channels is clear and unfiltered. The clear and unfiltered channels of the first and second filter wheels can be selectively aligned and held in the optical path.

An integrated color imaging system has a housing with an objective lens, photocathode and image intensifier. The image intensifier has radiation sensitive sensors and a phosphor screen. A rotatable first filter wheel is located between the objective lens and the photocathode. The first filter wheel can include first channels selectively positionable in an optical path of the image, and at least one of the first channels is clear and unfiltered. A rotatable second filter wheel can be located inside the housing between the phosphor screen and an eyepiece lens of the housing. The second filter wheel can include second channels selectively positionable in the optical path between the phosphor screen and the eyepiece lens, and at least one of the second channels is clear and unfiltered. The clear and unfiltered channels of the first and second filter wheels can be selectively aligned and held in the optical path.

An image capturing apparatus includes: an image sensor that outputs an image signal obtained by image capturing by an imaging device, the imaging device performing image capturing of a photographic subject through an image capturing optical system; a display that displays a captured image based on the image signal; and a processor configured to determine, on the basis of a result of analysis of the captured image, a position of a boundary line along which the captured image is divided into a plurality of regions, adjust, in a case where a change occurs in the captured image, the determined position of the boundary line on the basis of the change in the captured image, and control, on the basis of a brightness of the captured image after the change, an exposure for at least one of the plurality of regions separated by the adjusted boundary line.

An automotive camera includes at least one lens unit, at least one image sensor having a plurality of light sensitive elements configured to collect incident light projected by the lens unit and transform it into an electrical signal, the image sensor being configured to read out the charge collected by the plurality of light sensitive elements with a predetermined frame rate, and at least one apparatus for light intensity adjustment which is mounted or mountable in front of the lens unit and includes a view control film (VCF).

An automotive camera includes at least one lens unit, at least one image sensor having a plurality of light sensitive elements configured to collect incident light projected by the lens unit and transform it into an electrical signal, the image sensor being configured to read out the charge collected by the plurality of light sensitive elements with a predetermined frame rate, and at least one apparatus for light intensity adjustment which is mounted or mountable in front of the lens unit and includes a view control film (VCF).

A projecting device includes a light source configured to output an image light; a projection lens configured to externally project the image light; a camera configured to photograph an object positioned between the camera and an external projection surface of the image light that is projected; a light blocker configured to block the image light output by the light source during a blocking period; and at least one processor configured to: obtain illuminance information regarding illuminance of the external projection surface, set the blocking period during which the image light output by the light source is blocked, based on the illuminance information, set a photographing period within the blocking period, control the light blocker to block the image light output by the light source during the blocking period, and control the camera to photograph the object during the photographing period.

A projecting device includes a light source configured to output an image light; a projection lens configured to externally project the image light; a camera configured to photograph an object positioned between the camera and an external projection surface of the image light that is projected; a light blocker configured to block the image light output by the light source during a blocking period; and at least one processor configured to: obtain illuminance information regarding illuminance of the external projection surface, set the blocking period during which the image light output by the light source is blocked, based on the illuminance information, set a photographing period within the blocking period, control the light blocker to block the image light output by the light source during the blocking period, and control the camera to photograph the object during the photographing period.

The present disclosure relates to a light shutter panel and a transparent display apparatus having the same. The light shutter panel comprises: a first light shutter panel and a second light shutter panel. Each of the first and second light shutter panels includes: a lower electrode plate, an upper electrode plate, a shutter layer, transparent spacers and a black ink. The lower electrode plate and the upper electrode plate are attached as facing each other. The shutter layer is disposed between the lower electrode plate and the upper electrode plate. The shutter layer includes a maximum light transmitting portion, a minimum light blocking portion, an ink storage portion and an electric field guide. The electric field guide is disposed between the ink storage portions. The transparent spacers maintain the gap between the lower electrode plate and the upper electrode plate. The black ink is filled into the ink storage portion.

An imaging device can include an image sensor, a control unit coupled to the image sensor, and a light blocking element coupled to the control unit. The control unit can be configured to adjust the light blocking element in response to image information received from the image sensor. The light blocking element can be configured to regulate light received at the image sensor.