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    • 3. 发明授权
    • Imaging device and method
    • 成像装置和方法
    • US08860849B2
    • 2014-10-14
    • US13015828
    • 2011-01-28
    • Takeshi MisawaTomokazu NakamuraKenji Saito
    • Takeshi MisawaTomokazu NakamuraKenji Saito
    • H04N5/262H04N5/232H04N13/02H04N5/225
    • H04N5/23293H04N5/2258H04N5/232H04N5/23296H04N13/239H04N13/286
    • In a stereoscopic imaging device including a plurality of imaging optical systems, a wide-image in which a principal subject is shifted from the center is taken, and also, a tele-image in which the principal subject is enlarged is taken at the same time. A size of a wide-side frame W, that is, a size of an angle of view of a trimming wide-image is decided based on a size of a tele-side frame T, that is, a zoom magnification of a tele-side imaging optical system, a position of the wide-side frame W displayed in the decided size is arbitrarily moved depending on an instruction from an operation unit, an area delimited by the wide-side frame W moved to any position is clipped from a default wide-image, and thereby, the trimming wide-image is obtained. Thereby, the tele-image which is a telephoto image in which a desired subject is zoomed, and the trimming wide-image which is a wide-angle image in which the subject can exist at a position other than the center of the image are simultaneously obtained.
    • 在包括多个成像光学系统的立体成像装置中,拍摄主体从中心偏移的宽幅图像,同时拍摄主体被放大的远摄图像 。 基于远端侧框架T的尺寸,即远侧框架W的变焦倍率来决定宽侧框架W的尺寸,即修剪宽幅图像的视角的尺寸, 以决定的尺寸显示的宽侧框架W的位置根据来自操作单元的指示而任意移动,移动到任何位置的宽侧框架W界定的区域被从默认位置剪切 从而获得了修整宽幅图像。 因此,作为期望被摄体被放大的长焦图像的远摄图像和作为被摄体可以存在于图像中心以外的位置的广角图像的修整宽幅图像同时 获得。
    • 4. 发明申请
    • IMAGING DEVICE AND METHOD
    • 成像装置和方法
    • US20110242369A1
    • 2011-10-06
    • US13015828
    • 2011-01-28
    • Takeshi MISAWATomokazu NakamuraKenji Saito
    • Takeshi MISAWATomokazu NakamuraKenji Saito
    • H04N5/262
    • H04N5/23293H04N5/2258H04N5/232H04N5/23296H04N13/239H04N13/286
    • In a stereoscopic imaging device including a plurality of imaging optical systems, a wide-image in which a principal subject is shifted from the center is taken, and also, a tele-image in which the principal subject is enlarged is taken at the same time. A size of a wide-side frame W, that is, a size of an angle of view of a trimming wide-image is decided based on a size of a tele-side frame T, that is, a zoom magnification of a tele-side imaging optical system, a position of the wide-side frame W displayed in the decided size is arbitrarily moved depending on an instruction from an operation unit, an area delimited by the wide-side frame W moved to any position is clipped from a default wide-image, and thereby, the trimming wide-image is obtained. Thereby, the tele-image which is a telephoto image in which a desired subject is zoomed, and the trimming wide-image which is a wide-angle image in which the subject can exist at a position other than the center of the image are simultaneously obtained.
    • 在包括多个成像光学系统的立体成像装置中,拍摄主体从中心偏移的宽幅图像,同时拍摄主体被放大的远摄图像 。 基于远端侧框架T的尺寸,即远侧框架W的变焦倍率来决定宽侧框架W的尺寸,即修剪宽幅图像的视角的尺寸, 以决定的尺寸显示的宽侧框架W的位置根据来自操作单元的指示任意移动,移动到任何位置的宽侧框架W界定的区域被从默认位置剪切 从而获得了修整宽幅图像。 因此,作为期望被摄体被放大的长焦图像的远摄图像和作为被摄体可以存在于图像中心以外的位置的广角图像的修整宽幅图像同时 获得。
    • 7. 发明授权
    • Image forming system and maintenance execution program
    • 图像形成系统和维护执行程序
    • US08180243B2
    • 2012-05-15
    • US12784778
    • 2010-05-21
    • Kiyoshi OkamotoNorifumi MiyakeTomokazu NakamuraKiyoshi WatanabeTakayuki FujiiHitoshi Kato
    • Kiyoshi OkamotoNorifumi MiyakeTomokazu NakamuraKiyoshi WatanabeTakayuki FujiiHitoshi Kato
    • G03G15/00G06F3/12G06K15/00
    • G03G15/55
    • There is provided an image forming system that are capable of preventing a user or operator from forgetting to carry out a maintenance operation based on required sub-maintenance items after execution of a maintenance operation based on an associated maintenance item, such as component replacement, cleaning, or adjustment. A table of maintenance items and sub-maintenance items associated with respective ones of the maintenance items is stored in a ROM. When a CPU determines that a maintenance operation based on a selected one of the maintenance items has been completed, the CPU determines whether or not there is any sub-maintenance item associated with the selected maintenance item, by referring to the table. When it is determined that there is one or more sub-maintenance items associated with the selected maintenance item, a CPU provides control to display the sub-maintenance item or items in an operating/display unit.
    • 提供了一种图像形成系统,其能够基于相关联的维护项目(诸如部件更换,清洁)而在执行维护操作之后基于所需的子维护项目而忘记使用者或操作者进行维护操作 ,或调整。 与各个维护项目相关联的维护项目和子维护项目的表存储在ROM中。 当CPU确定基于所选择的一个维护项目的维护操作已经完成时,CPU通过参考该表来确定是否存在与所选择的维护项目相关联的任何子维护项目。 当确定存在与所选择的维护项目相关联的一个或多个子维护项目时,CPU提供控制以在操作/显示单元中显示子维护项目。
    • 9. 发明授权
    • Apparatus for detecting blinking state of eye
    • 用于检测眼睛闪烁状态的装置
    • US08077215B2
    • 2011-12-13
    • US12101766
    • 2008-04-11
    • Tomokazu Nakamura
    • Tomokazu Nakamura
    • H04N5/235G06K9/00G08B23/00
    • H04N5/232H04N5/23219H04N5/23245
    • A state-of-eye distinguishing means calculates a feature value that represents a state of an eye, for an eye-area based on pixel data of pixels that constitute the eye-area. A threshold value setting means calculates a first threshold value representing a feature value at a first transition point from an open state to a closed state and a second threshold value representing a feature value at a second transition point from the closed state to the open state, based on a feature value calculated for a targeted eye when the targeted eye is open. A blinking state detection means detects the blinking state of the eye corresponding to the eye-area, by sequentially comparing feature values which are sequentially calculated for a series of frame images by the state-of-eye distinguishing means with one of the first threshold value and the second threshold value.
    • 眼睛辨别手段基于构成眼睛区域的像素的像素数据,计算表示眼睛的状态的特征量,对于眼睛区域。 阈值设定装置计算表示从打开状态到关闭状态的第一转变点处的特征量的第一阈值和表示从关闭状态到打开状态的第二转变点的特征值的第二阈值, 基于当目标眼睛打开时针对目标眼睛计算的特征值。 闪烁状态检测装置通过将通过眼睛辨别装置依次计算的一系列帧图像的特征值与第一阈值之一顺序地比较来检测与眼睛区域相对应的眼睛的闪烁状态 和第二阈值。