A printer includes a table, a print head, a detector, and a controller. The controller includes a storage to store initial print data including information of reference position marks, a reader to acquire, using the detector, positional information of position detection marks, a print data generator to modify the initial print data such that the reference position marks each coincide with an associated one of the position detection marks acquired by the reader, thus generating actual print data; and a printing controller to perform printing in accordance with the actual print data.

A smartphone may be freely moved in three dimensions as it captures a stream of images of an object. Multiple image frames may be captured in different orientations and distances from the object and combined into a composite image representing an three-dimensional image of the object. The image frames may be formed into the composite image based on representing features of each image frame as a set of points in a three dimensional depth map. Coordinates of the points in the depth map may be estimated with a level of certainty. The level of certainty may be used to determine which points are included in the composite image. The selected points may be smoothed and a mesh model may be formed by creating a convex hull of the selected points. The mesh model and associated texture information may be used to render a three-dimensional representation of the object on a two-dimensional display. Additional techniques include processing and formatting of the three-dimensional representation data to be printed by a three-dimensional printer so a three-dimensional model of the object may be formed.

An image reading device includes an imaging device to capture an image of a document placed below the imaging device to generate a document image and output an image signal based on the document image, circuitry to determine a size of a fed-sheet based on information on the fed-sheet, the fed-sheet being a sheet to be formed with the document image, generate a frame image for the document image, the frame image having a size equal to the size of the fed-sheet, and synthesize the frame image with the image signal output from the imaging device to generate a synthesized image, and a display to display the synthesized image.

There are provided a photographing apparatus and a photographing method capable of generating an added image by adding up images, the apparatus and the method achieving image quality of the added image. A photographing apparatus includes: a photographing section that photographs a subject a plurality of times sequentially; an image processing section that adds up images so as to generate an added image; and an exposure condition calculation section that calculates the minimum number of shots of the photography, which is for calculating a plurality of predetermined exposure time periods, and unit exposure time periods of the shots of the photography performed the minimum number of times, on the basis of set and input exposure conditions. The image processing section generates an added image of the plurality of exposure time periods by adding up images which are captured through the shots of the photography for the unit exposure time periods.

A mobile terminal including a main body; a display unit disposed on one surface of the main body; a 3D camera configured to capture an image of a 3D shape disposed together with reference markers; a controller configured to create scan data, based on distances to the image from the reference markers, and display a scan image of the 3D shape, based on the scan data.

The disclosure is related to a method and apparatus of scanning a target object in three dimensions (3D). The method may include projecting a color dashed line pattern onto a target object, scanning the target object with the color dashed line pattern projected thereto, and producing a 3D data of the target object by processing the scanning result. The color dashed line pattern may include multiple dashed line patterns each of which is individually used to calculate the 3D data of the target object.

An image reader device includes: an original placement part; a holder supporting the original placement part and forming, with the original placement part, a first boundary extending in a first direction; an image reading part movable in a vertical scan direction parallel to the first direction; and an open-close unit closable relative to the original placement part and including a press member which presses an original on the original placement part. The press member includes a first zone and a second zone arranged in the first direction. The first zone includes an extended portion extending beyond the first boundary from the original placement part to the holder when the open-close unit is located at a closed position.

An information processing apparatus includes a memory storing identification information on the information processing apparatus and a processor configured to: generate a code image including the identification information and cause a display to display the code image; detect a communication content from a terminal apparatus and, if the communication content includes the identification information on the information processing apparatus, make a connect request to the terminal apparatus as a transmission source of the communication content via a communication unit that performs wireless communication; and perform control to establish a connection to the terminal apparatus.

A mobile phone-based miniature microscopic image acquisition device, and image stitching and recognition methods are provided. The acquisition device comprises a support, wherein a mobile phone fixing table is provided on the support. A microscope head is provided below a camera of a mobile phone. A slide holder is provided below the microscope head, and an lighting source is provided below the slide holder. A scanning movement is performed between the slide holder and the microscope head along X and Y axes, so that images of a slide are acquired into the mobile phone. The slide sample images acquired into the mobile phone can be stitched and recognized, and can be uploaded to the cloud to be processed by cloud AI, thereby significantly improving the accuracy and efficiency of cell recognition, greatly reducing the medical cost, and ensuring more remote medical institutions can apply such technology for diagnosis.

A calculable 3D color printing method is used for generating, on a 3D object surface, a user-specified color texture pattern, including: performing modeling and simulated calculation with respect to a motion and a deformation of a PVA film in a traditional water transfer printing process to obtain a mapping function between each of pixels on the PVA film and points on an object surface; and calculating, by using the mapping function, a texture pattern to print on the PVA film. This disclosure further includes a set of mechanical devices and a 3D vision system for realizing precise and controllable water transfer printing which precisely prints a user-specified texture pattern onto an object surface. This disclosure further includes a multiple water transfer printing method, including: partitioning a complex object surface into a plurality of regions, and separately coloring each region, until eventually completing coloring of the entire object surface.