Abstract:
An image processor includes a reading unit (10, 13, 17) that moves a scanning optical system (10, 13) toward a reference white sheet (101) to read the reference white sheet (101) from a direction along which the scanning optical system (10, 13) returns to the carried document reading glass (6) before reading one sheet of a document mounted on a carried document reading glass (6) by an automatic document feeding unit (3) in a sheet document reading mode of forming an image of the document carried by the automatic document feeding unit (3) by an image sensor (15) through the scanning optical system (10, 13) facing the carried document reading glass (6).
Abstract:
There is described an imaging device for capturing images of at least portions of moving objects. The system comprises a stationary camera lens (1 1 ) configured for reproducing an image of at least a portion of each moving object (10) in an imaging plane when said object (10) moves across a capturing region (12). The device further comprises at least one image sensor (13; 23; 33; 43; 53) located in the imaging plane for receiving the reproduced image of the at least a portion of the corresponding moving object (10) and converting said image into electronic signals. The at least one image sensor (13; 23; 33; 43; 53) is mounted on a sensor support (14; 24; 34; 44; 54) adapted to be actuated in a manner that the at least one image sensor (13; 23; 33; 43; 53) is moved in the imaging plane relative to the stationary camera lens (1 1 ), and in a manner that the motion of said at least one image sensor (13; 23; 33; 43; 53) is synchronized with the motion of the moving object (10) to be captured. This ensures that there is substantially no relative movement between the reproduced image in the imaging plane and the image sensor (13; 23; 33; 43; 53) when said moving object (10) moves across the capturing region (12). As a result motion blur of the captured image of the at least a portion of each moving object (10) is prevented or significantly reduced.
Abstract:
Generally, a scanner of the present embodiment, which reads a first surface with a first reading section configured to read the first surface of a sheet and a second surface with a second reading section configured to read the second surface opposite to the first surface of the sheet, executes individual processing on a first reading image of the first surface and a second reading image of the second surface.
Abstract:
Generally, a scanner of the present embodiment, which reads a first surface with a first reading section configured to read the first surface of a sheet and a second surface with a second reading section configured to read the second surface opposite to the first surface of the sheet, executes individual processing on a first reading image of the first surface and a second reading image of the second surface.
Abstract:
An image reader is provided, which includes a first analog front end unit configured to perform A/D conversion for analog signals that are output via a first group of channels of a number resulting from rounding up, to a closest whole number, an average value between a number of at least one channel for a first image reading unit and a number of channels for a second image reading unit, among analog signals output from the first image reading unit and the second image reading unit, and a second analog front end unit configured to perform A/D conversion for analog signals that are output via a second group of channels other than the channels in the first group, among the analog signals output from the first image reading unit and the second image reading unit.
Abstract:
An image reader is provided, which includes a feeder feeding a document sheet, a first reading sensor, a first reference member, a moving mechanism moving the first reading sensor to a document reading position to read an image of the document sheet and a reference reading position to read an image of the first reference member, and a controller that controls the moving mechanism to move the first reading sensor to the reference reading position, controls the first reading sensor to read the image of the first reference member, and controls the moving mechanism to move the first reading sensor to the document reading position after the first reading sensor reads the image of the first reference member. The controller controls the feeder to start feeding the document sheet to the document reading position before the first reading sensor reaches the document reading position from the reference reading position.
Abstract:
A document scanning device reads an image on a document while scanning the image, and generates image data based on the image. The document scanning device selects and sets a scanning speed in accordance with a transfer mode used when the document scanning device transfers the image data to another apparatus. The document scanning device controls the amount of generated image data by using the set scanning speed to successively read the image, whereby optimal transfer processing in accordance with the transfer mode can be performed. By switching a transfer path in accordance with the type of the read data, i.e., binary data per pixel or multilevel data per pixel, efficient data transfer can be performed.
Abstract:
An image reading apparatus includes a platen for placing the original, a reading device for reading the original placed on the platen to obtain image data in a first reading mode or a second reading mode; a transport device for transporting the original to be capable of returning the original to the platen; and a detection device for determining whether the image data read by the reading device is a first kind of data or a second kind of data. A control device operates the transport device for ejecting the original and outputting the image data read in the first reading mode when the image data is the first kind, and operates the transport device to return the original to the platen and actuates the reading device to read in the second reading mode when the image data is the second kind.