An image forming device is provided. The image forming device includes a network port for accessing a specific network through a network server; and a network monitoring device. The network monitoring device includes: a data acquirer configured to connect with the network port and to output network data of the network port; a data analyzer connected with the data acquirer and configured to analyze the network data to determine whether the network data transmitted from the data acquirer contains information indicating that the image forming device is connected to the specific network; and an alert message transmitter connected with the data analyzer and configured to, when the data analyzer determines that the network data contains information indicating that the image forming device is connected to the specific network, send an alert message to a user of the image forming device.

The present invention relates to a novel objective method for assessing high contrast resolution of images based on Rayleigh criterion and a testing operating method. The novel objective method for assessing high contrast resolution of images based on Rayleigh criterion involves combining the Rayleigh criterion with regional pixel intensity profiles for simultaneous application to high contrast resolution images of CT equipment, which allows objective assessment by using the Rayleigh criterion after the drawing of the regional pixel intensity profiles; the introduction of a normalized margin and the use of a Lanczos window function for interpolation processing on original images enable a considerably practical, time-effective and operable objective assessment method that is convenient for testers to use and also easy for CT equipment operators to use. Such a method, just like a modulation transfer function (MTF) method, is capable of tracking subtle and slow changes of the high contrast resolution of CT equipment in the life cycle thereof objectively and accurately, thus allowing improvement of the use efficiency of the CT equipment in the life cycle thereof; therefore, the method is suitable for extensive popularization and application.

An image forming device is provided. The image forming device includes a network port for accessing a specific network through a network server; and a network monitoring device. The network monitoring device includes: a data acquirer configured to connect with the network port and to output network data of the network port; a data analyzer connected with the data acquirer and configured to analyze the network data to determine whether the network data transmitted from the data acquirer contains information indicating that the image forming device is connected to the specific network; and an alert message transmitter connected with the data analyzer and configured to, when the data analyzer determines that the network data contains information indicating that the image forming device is connected to the specific network, send an alert message to a user of the image forming device.

A target area of image data of a scanned document is set, in which the target area has a predetermined size and a target pixel, characteristic amounts indicating the brightness at two pixels among the plurality of pixels included in the set target area are obtained, a determination is made on whether or not the difference between the obtained characteristic amounts indicating the brightness is higher than a threshold, a brightness correction amount is decided based on a characteristic amount indicating the brightness of the target pixel and the result of the determination, and the brightness characteristic amount indicating the brightness of the target pixel is corrected based on the decided correction amount.

An image communication apparatus, to communicate with a telephone set, includes a first control unit, a detection unit, a generation unit, and a second control unit. The first control unit controls the image communication apparatus. The detection unit detects an occurrence of a telephone set off-hook state. The generation unit generates a pseudo-CI signal for ringing the telephone set or an intermittent off-hook voltage to be supplied to the detection unit. The telephone set is connected to a communication line or the generation unit. The second control unit controls the generation unit. Where the telephone set is controlled to wait for a call without being allowed to ring in a power-saving state, the telephone set is connected to the generation unit and placed in the power-saving state. In the power-saving state, the second control unit controls the generation unit to supply a generated intermittent off-hook voltage to the detection unit.

Provided is an image reading apparatus for suppressing an image defect ascribable to shading correction using a white reference plate arranged at a position different from a reading position of an original. The image reading apparatus includes a reading unit configured to read an image from the original passing through the reading position, the white reference plate arranged such that a distance between the reading unit and the white reference plate is larger than the distance between the reading unit and the reading position, and a control system. The control system includes a memory for backup configured to store in advance correlation data representing a correlation between a reading result of the white reference plate obtained by the reading unit, and a reading result of a reference member having a uniform density and arranged at the reading position.

The present invention relates to a novel objective method for assessing high contrast resolution of images based on Rayleigh criterion and a testing operating method. The novel objective method for assessing high contrast resolution of images based on Rayleigh criterion involves combining the Rayleigh criterion with regional pixel intensity profiles for simultaneous application to high contrast resolution images of CT equipment, which allows objective assessment by using the Rayleigh criterion after the drawing of the regional pixel intensity profiles; the introduction of a normalized margin and the use of a Lanczos window function for interpolation processing on original images enable a considerably practical, time-effective and operable objective assessment method that is convenient for testers to use and also easy for CT equipment operators to use. Such a method, just like a modulation transfer function (MTF) method, is capable of tracking subtle and slow changes of the high contrast resolution of CT equipment in the life cycle thereof objectively and accurately, thus allowing improvement of the use efficiency of the CT equipment in the life cycle thereof; therefore, the method is suitable for extensive popularization and application.

Disclosed is an optical imaging method and device enabling display and 3D measurement of tridimensional objects (1), whereby at least two individual images are captured one after the other and the image conversion is controlled or regulated differently for these individual images. By employing adjustable optical means (10-14) for the illumination of the object or in the optical path for the imaging of the object on the image converter (15) it is possible to acquire a larger amount of visual information on the object observed than that which is available in an individual image due to the limitations imposed by the design of the converter used (15). The invention relates to processes and design forms of the device enabling recording units to be designed, using simply and generally commercial components, which are able to display and measure larger objects (1) despite a reduced field of vision imposed by the design. This is especially useful for diagnosis in invasive applications in the bodies of humans or animals.