An image recording device having a projected viewfinder is described that projects individual, or multiple sets of synchronized framing beams onto a target image that are coaxially aligned with the field of view of the camera. The set of framing beams is projected onto the target image beyond the scope of the field of view being recorded by the image recording device but still within the field of vision of the operator of the device. In this way, the operator of the image recording device will be able to clearly see the framing beams identifying the limits of the recorded areas, while not having any portion of the field of view of the image recording device obscured by the framing beams themselves.

An image recording device having a projected viewfinder is described that projects individual, or multiple sets of synchronized framing beams onto a target image that are coaxially aligned with the field of view of the camera. The set of framing beams is projected onto the target image beyond the scope of the field of view being recorded by the image recording device but still within the field of vision of the operator of the device. In this way, the operator of the image recording device will be able to clearly see the framing beams identifying the limits of the recorded areas, while not having any portion of the field of view of the image recording device obscured by the framing beams themselves.

It is an object of the present disclosure to enable displaying information on unused area of an input image while displaying an enlarged image of the input image An image processing device includes a specified area setting part configured to set a specified area in an input image, an additional information setting part configured to set additional information on at least a part of non-specified area which is an area in the input image other than the specified area, and a display control part configured to display the specified area and the additional information on the display as an output image. The user can view the image of the specified area and the additional information at the same time. Therefore, the device can utilize the information of the input image more effectively.

It is an object of the present disclosure to enable displaying information on unused area of an input image while displaying an enlarged image of the input image An image processing device includes a specified area setting part configured to set a specified area in an input image, an additional information setting part configured to set additional information on at least a part of non-specified area which is an area in the input image other than the specified area, and a display control part configured to display the specified area and the additional information on the display as an output image. The user can view the image of the specified area and the additional information at the same time. Therefore, the device can utilize the information of the input image more effectively.

An image recording device having a projected viewfinder is described that projects individual, or multiple sets of synchronized framing beams onto a target image that are coaxially aligned with the field of view of the camera. The set of framing beams is projected onto the target image beyond the scope of the field of view being recorded by the image recording device but still within the field of vision of the operator of the device. In this way, the operator of the image recording device will be able to clearly see the framing beams identifying the limits of the recorded areas, while not having any portion of the field of view of the image recording device obscured by the framing beams themselves.

An image recording device having a projected viewfinder is described that projects individual, or multiple sets of synchronized framing beams onto a target image that are coaxially aligned with the field of view of the camera. The set of framing beams is projected onto the target image beyond the scope of the field of view being recorded by the image recording device but still within the field of vision of the operator of the device. In this way, the operator of the image recording device will be able to clearly see the framing beams identifying the limits of the recorded areas, while not having any portion of the field of view of the image recording device obscured by the framing beams themselves.

It is an object of the present disclosure to enable displaying information on unused area of an input image while displaying an enlarged image of the input image An image processing device includes a specified area setting part configured to set a specified area in an input image, an additional information setting part configured to set additional information on at least a part of non-specified area which is an area in the input image other than the specified area, and a display control part configured to display the specified area and the additional information on the display as an output image. The user can view the image of the specified area and the additional information at the same time. Therefore, the device can utilize the information of the input image more effectively.

Camera field of view visualizers differentially illuminate objects visible within and without a camera lens focal area, and also supporting surfaces located outside of but relative to the focal area wherein objects located thereon are visible within the focal area, relative to different supporting surfaces that are also located outside of the focal area but relative to the focal area wherein objects located thereon are not visible within the focal area. At an end of an illumination time period an amount or type of illumination that is visible within image information acquired from objects illuminated thereby within the focal area is reduced or revised for an image data acquisition time period so that it is not visible within image information acquired by an image data receiving means, and image information is captured via the image data receiving means from objects that are located within the focal area.