A surface object comprises a surface with a boundary, the surface having a background color. At least one optical marker is provided on the surface for assisting of image processing for improving appearance of an image of the surface with the boundary. At least one optical marker includes at least one color which is lighter or darker than the background color and the color different ΔE between the background color and the at least one color of the optical marker being between ΔE=2 and ΔE=18.

To improve operability for a user who uses an image processing apparatus which images an original document and displays an image indicating the imaged original document, a camera scanner causes a displaying device to display a remaining image corresponding to the image indicating the original document at a position where the original document was put, and, when detecting that an original document enters a detecting region, causes the displaying device to display a thumbnail image of the remaining image such that the thumbnail image does not overlap the original document which enters the detecting region.

A mobile terminal including a projector configured to project image information; a capturing unit configured to recognize a writing motion on a paper medium and a writing of a specific symbol in an area selected by the writing motion; and a controller configured to execute a control command for the specific symbol in the selected area if the specific symbol matches a preset symbol, and control the projector to project image information corresponding to a result of the execution of the control command on the area with the written specific symbol.

An enclosure that can be utilized with an image capture device for digitizing documents can include a bin having a platform panel, an aperture panel, and side support panels. The aperture panel comprises an aperture passing through it. Documents or objects may be gathered and/or stored within the bin. When a user desires to digitally capture the documents or objects, the user may turn the bin on its side so that the aperture panel is on top and the platform panel is on bottom, place a document on the platform with the document facing the aperture, place an image capture device on the aperture panel with the image capture sensor aligned with the aperture and therefore facing the document, and capture an image of the document.

An enclosure that can be utilized with an image capture device for digitizing documents can include a bin having a platform panel, an aperture panel, and side support panels. The aperture panel comprises an aperture passing through it. Documents or objects may be gathered and/or stored within the bin. When a user desires to digitally capture the documents or objects, the user may turn the bin on its side so that the aperture panel is on top and the platform panel is on bottom, place a document on the platform with the document facing the aperture, place an image capture device on the aperture panel with the image capture sensor aligned with the aperture and therefore facing the document, and capture an image of the document.

Objects are to provide a small imaging device that can take an image of a thick book without distortion of an image of a gutter and to improve the portability of an imaging device by downsizing the imaging device. The imaging device has imaging planes on both surfaces. All elements included in the imaging device are preferably provided over one substrate. In other words, the imaging device has a first imaging plane and a second imaging plane facing opposite to the first imaging plane.

Objects are to provide a small imaging device that can take an image of a thick book without distortion of an image of a gutter and to improve the portability of an imaging device by downsizing the imaging device. The imaging device has imaging planes on both surfaces. All elements included in the imaging device are preferably provided over one substrate. In other words, the imaging device has a first imaging plane and a second imaging plane facing opposite to the first imaging plane.

An image reader includes a first judging section which judges whether a newly captured image is an image obtained by page-turning of a book to a destination position of the page; a temporary storage section which temporarily stores the newly captured image as a previous captured image when it is judges that the newly captured image is not an image obtained by page-turning to a destination position; a second judging section which, prior to temporarily storing the newly captured image as a previous captured image, judges whether, based on a latest image temporarily stored as a previous captured image and the newly captured image to be temporarily stored, the latest captured image and the newly captured image are an image of same pages; and a determining section which determines the latest captured image as a storage target when it is judged that the latest captured image and the newly captured image are not an image of a same page.

Disclosed is a magnification device for use by blind and/or low vision individuals. The device includes an X-Y table upon which an item to be magnified can be placed. A stationary camera arm and a pivotal monitor arm are oriented over the X-Y table. The monitor arm includes a video monitor pivotally mounted at its distal end. The camera arm also includes two laterally disposed lighting arms. A series of controls are provided along a lower edge of the monitor via a mounting bracket.

Selecting objects in a video stream of a smart phone includes detecting quiescence of frame content in the video stream, detecting objects in a scene corresponding to the frame content, presenting at least one of the objects to a user of the smart phone, and selecting at least one of the objects in a group of objects in response to input by the user. Detecting quiescence of frame content in the video stream may include using motion sensors in the smart phone to determine an amount of movement of the smart phone. Detecting quiescence of frame content in the video stream may include detecting changes in view angles and distances of the smart phone with respect to the scene. Detecting objects in a scene may use heuristics, custom user preferences, and/or specifics of scene layout. At least one of the objects may be a person or a document.