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Jun Enomoto
Jun Enomoto, Ashigarakami-Gun JP
| Patent application number | Description | Published |
|---|---|---|
| 20100040199 | Radiographic imaging system - A radiographic imaging system comprises: offset correction unit for performing offset correction on a radiographic image acquired by a radiation detector using a offset correction data in a storage, dark image acquisition unit for acquiring a dark image with the radiation detector at a given timing in the absence of radiation emitted from a radiation source, residual image judgment unit for judging whether or not dark image acquired by the dark image acquisition unit contains a residual image resulting from an immediately preceding irradiation, offset correction data renewal unit for producing offset correction data based upon the dark image and storing the offset correction data in the storage for renewal when the residual image judgment unit judges the dark image to contain no residual image, and producing no offset correction data when the residual image judgment unit judges the dark image to contain a residual image. | 02-18-2010 |
| 20110073769 | Radiographic image capture managing system, and radiographic image capture managing method - A radiographic image capture managing system includes an information storage unit for storing image information acquired by a radiation detector in chronological order, a usage status acquirer for acquiring information concerning a usage status of the radiation detector, a deterioration information acquirer for acquiring information concerning an extent of deterioration of the radiation detector based on the image information, a service life predictor for predicting a service life of the radiation detector based on the acquired information concerning the extent of deterioration and the acquired information concerning the usage status, a service life prolongation information setter for setting service life prolongation advice information required to prolong the predicted service life based on a preset relationship between the usage status and the extent of deterioration of the radiation detector and history information, and a service life prolongation advice output unit for transmitting service life prolongation advice information to at least a console. | 03-31-2011 |
Jun Enomoto, Kanagawa JP
| Patent application number | Description | Published |
|---|---|---|
| 20090238454 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND IMAGE PROCESSING PROGRAM - An image processing apparatus includes a red eye candidate detecting section, a gold eye candidate detecting section, and a red eye-gold eye-correcting section. Herein, the red eye candidate detecting section detects a red eye candidate, which is an area of a color included in a color range of a predetermined red color, from image by using a detecting threshold value differentiating a red eye from a gold eye. The gold eye candidate detecting section detects a gold eye, which is an area of a color included in a color range of a predetermined gold color that is not overlapped with a color range of the predetermined red color, from image by using the detecting threshold value. The red eye-gold eye-correcting section performs a predetermined red eye correcting process to a red eye candidate detected by a red eye candidate detecting section, and performs a predetermined gold eye correcting process, which is different from a predetermined red eye correcting process, to a gold eye candidate detected by a gold eye candidate detecting section. | 09-24-2009 |
| 20100006767 | Radiographic imaging system - A radiographic imaging system comprises: imaging unit including a radiation source for emitting radiation and a radiation detector for detecting radiation emitted from the radiation source and having penetrated a subject; moving unit for moving the imaging unit between a plurality of imaging positions that partially share an imaging region with each other; control unit for sequentially moving the imaging unit to the imaging positions with the moving unit, causing the radiation source to emit radiation to acquire a short image with the radiation detector in each imaging position, and acquiring a dark image with the radiation detector after acquiring the short image; and image processing unit for performing residual image correction upon the short image acquired in each of the imaging positions based upon the dark image acquired immediately before the acquisition of the short image and thereafter combining corrected short images to obtain a long radiographic image. | 01-14-2010 |
| 20100172577 | RED EYE DETECTING APPARATUS, RED EYE DETECTING METHOD AND RED EYE DETECTING PROGRAM - There is provided a red eye detecting apparatus including a red eye region designating section that causes a user to designate a red eye region in an image so as to obtain a designated red eye region, a red eye searching region determining section that determines a red eye searching region including therein the designated red eye region which is obtained by the red eye region designating section, a red eye candidate detecting section that searches for red eye within the red eye searching region which is determined by the red eye searching region determining section, to detect one or more red eye candidates, a face position detecting section that detects one of a position of a face and a position of an area of the face other than eyes within the red eye searching region which is determined by the red eye searching region determining section, and a red eye position judging section that selects, from the red eye candidates detected by the red eye candidate detecting section, a red eye candidate that is positioned at a predetermined position with respect to the position detected by the face position detecting section, as a red eye candidate to be subjected to a red eye correcting process. | 07-08-2010 |
| 20100177960 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND IMAGE PROCESSING PROGRAM - An image processing apparatus includes a red eye candidate detecting section, a red eye-gold eye separating section, a gold eye converting section, and a red eye correcting section. Herein, the red eye candidate detecting section detects a red eye candidate included in images. The red eye-gold eye separating section judges whether a red eye candidate detected by the red eye candidate detecting section is either red eye or a gold eye respectively specified in a predetermined color range. The gold eye converting section converts a color of the red eye candidate, which was judged as red eye by the red eye-gold eye separating section, into a color, which is judged as a red eye by the red eye-gold eye separating section. The red eye correcting section performs a red eye correction to a color of the red eye candidate converted by the gold eye converting section. | 07-15-2010 |
| 20110075811 | Radiation detection device, imaging control device, radiation imaging system, and self diagnostic method of radiation detection device - In a cassette-type X-ray detection device, an X-ray detector and a self diagnostic circuit are contained in a cassette casing. When the cassette-type X-ray detection device gets a shock, the self diagnostic circuit is actuated. The self diagnostic circuit reads out from the X-ray detector an offset image being a dark current image, and analyzes the offset image. The self diagnostic circuit finds out an abnormal portion from the offset image, and diagnoses whether the X-ray detector is available, unavailable, or partly available based on the size and position of the abnormal portion. Shock detection and a diagnostic result are displayed on a touch panel provided in the cassette casing, and sent to a console device via a communication unit. | 03-31-2011 |
Jun Enomoto, Ashigara-Kami-Gun JP
| Patent application number | Description | Published |
|---|---|---|
| 20080230708 | RADIOGRAPHIC IMAGING METHOD AND RADIOGRAPHIC IMAGING SYSTEM - A radiographic imaging method and system use a radiation solid state detector or a flat panel detector (FPD). The method and system enable radiographic imaging to be continued for a while after occurrence of pixel defects that may lower image quality and minimizing adverse effects of the pixel defects. The pixel defects are analyzed in the respective local regions on the detector. A pixel defect correction is not made on local regions where the pixel defect exceeds a given tolerance but these regions are marked on the radiographic image for recognition. | 09-25-2008 |
| 20080231734 | METHOD OF PROCESSING IMAGES FROM AN IMAGING DEVICE - A method of processing images from an imaging device corrects defective pixels in an image acquired with the imaging device. The method includes a step of acquiring position information about continuous defective pixels from the position information about the defective pixels, a first correcting step of correcting the defective pixels with at least one normal pixel adjacent at least one defective pixels based on the position information about the defective pixels and a second correcting step of correcting the continuous defective pixels with a plurality of normal pixels adjacent at least one continuous defective pixels based on the position information about the continuous defective pixels. The second correcting step relies upon a greater number of normal pixels than the first correcting step to correct the defective pixels in a higher precision than the first correcting step. | 09-25-2008 |
| 20080237507 | RADIATION IMAGE RECORDING SYSTEM - The radiation image recording system includes a radiation source irradiating a subject with radiation to record a subject's radiation image; a solid-state radiation detector detecting the radiation from the radiation source; a memory storing calibration information of the radiation image detected by the solid-state radiation detector; an image processor subjecting recorded data of the radiation image to image corrections based on the calibration information; stabilizing time monitor checking time elapsed since start of power application to the radiation detector; and a controller setting a recording mode of the radiation image based on information on the elapsed time. When the information on the elapsed time indicates that a specified stabilizing time has elapsed, the controller causes the radiation detector to undergo a calibration to acquire new calibration information and causes the memory to store the acquired new calibration information to which the stored calibration information is updated. | 10-02-2008 |
Jun Enomoto, Numazu-Shi JP
| Patent application number | Description | Published |
|---|---|---|
| 20110223274 | RECIPROCATING APPARATUS, METHOD OF CONTROLLING RECIPROCATING APPARATUS, AND INJECTION MOLDING APPARATUS - A reciprocating apparatus comprises a reciprocating member, a drive mechanism, an input device, a work-switch position calculating unit configured to calculate a work-switch position for the drive mechanism, a direction-switch position calculating unit configured to calculate a direction-switch position, a remaining-distance calculating unit configured to calculate a remaining distance that is a difference between the direction-switch position calculated by the direction-switch position calculating unit and a direction-switch position input at the input device, a target direction-switch position calculating unit configured to add the remaining distance, to the direction-switch position calculated by the direction-switch position calculating unit, thereby to calculate a target direction-switch position, and a corrected position calculating unit configured to calculates a corrected work-switch position for the drive mechanism so that the drive mechanism may cause the reciprocating member to start moving in the opposite direction at the target direction-switch position calculated by the target direction-switch position calculating unit. | 09-15-2011 |