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    • 5. 发明授权
    • Endoscope system, imaging apparatus, and control method
    • 内窥镜系统,成像装置和控制方法
    • US08723937B2
    • 2014-05-13
    • US13049055
    • 2011-03-16
    • Hiroshi Sasaki
    • Hiroshi Sasaki
    • H04N7/18A62B1/04
    • A61B1/00096A61B1/00009A61B1/00188A61B1/05G02B23/2407
    • An endoscope system includes an imaging section that includes an optical system and an imaging element, an observation mode setting section that sets an object observation mode, a diaphragm control section that selects a diaphragm state based on the observation mode, and an image processing section that processes an image acquired by the imaging section. The diaphragm control section selecting a first diaphragm state when the observation mode is a first observation mode. The first diaphragm state being a state in which a resolution determined by a diffraction limit based on a diaphragm of the optical system is lower than a resolution determined by the imaging element. The diaphragm control section selecting a second diaphragm state when the observation mode is a second observation mode. The second diaphragm state being a state in which the resolution determined by the diffraction limit based on the diaphragm of the optical system is equal to or higher than the resolution determined by the imaging element.
    • 一种内窥镜系统,包括:摄像部,其具备光学系统和摄像元件,设定被摄体观察模式的观察模式设定部,基于观察模式选择光阑状态的光圈控制部;以及图像处理部, 处理由成像部获取的图像。 当观察模式是第一观察模式时,光圈控制部分选择第一光阑状态。 第一光阑状态是其中由基于光学系统的光阑的衍射极限决定的分辨率低于由成像元件确定的分辨率的状态。 当观察模式是第二观察模式时,光圈控制部分选择第二光阑状态。 第二光阑状态是基于光学系统的光阑的由衍射极限决定的分辨率等于或高于由成像元件确定的分辨率的状态。
    • 7. 发明申请
    • CALCULATING DEVICE AND FLOW METER EQUIPPED WITH CALCULATING DEVICE
    • 计算装置和流量计与计算装置配套
    • US20110218742A1
    • 2011-09-08
    • US12943276
    • 2010-11-10
    • Hiroshi Sasaki
    • Hiroshi Sasaki
    • G06F19/00G01F1/00
    • G01F1/00G06F19/00
    • The calculating device has first and second Fourier transform portions performing Fourier transforms on two respective inputted signals; a complex conjugate deriving portion deriving a complex conjugate of a value outputted from the first Fourier transform portion; a multiplier multiplying the complex conjugate with the value outputted from the second Fourier transform portion, and outputting the value after the multiplication; a Hilbert transform portion performing a Hilbert transform on the value after multiplication; first and second inverse Fourier transform portions performing respective inverse Fourier transforms on the value after multiplication and the value outputted from the Hilbert transform portion; a phase relationship deriving portion deriving a phase relationship between the two inputted signals based on the values outputted from the first and second inverse Fourier transform portions; and a time difference deriving portion deriving a time difference between the two inputted signals based on the phase relationship.
    • 计算装置具有对两个相应的输入信号进行傅立叶变换的第一和第二傅里叶变换部分; 导出从第一傅里叶变换部分输出的值的复共轭的复共轭导出部分; 乘法器,将复共轭与从第二傅立叶变换部分输出的值相乘,并输出乘法后的值; Hilbert变换部分对乘法后的值执行希尔伯特变换; 第一和第二逆傅里叶变换部分对乘法后的值执行各自的傅立叶逆变换和从希尔伯特变换部分输出的值; 相位关系导出部,基于从第一和第二傅里叶逆变换部输出的值,导出两个输入信号之间的相位关系; 以及基于相位关系导出两个输入信号之间的时间差的时差导出部分。
    • 10. 发明申请
    • MULTI-WIRELESS COMMUNICATION DEVICE
    • 多无线通信设备
    • US20100291967A1
    • 2010-11-18
    • US12777514
    • 2010-05-11
    • Jun SakuraiHiroshi SasakiTakeshi Kawagishi
    • Jun SakuraiHiroshi SasakiTakeshi Kawagishi
    • H04W88/06
    • H04W56/00H04W88/06
    • A multi-wireless communication device includes: a plurality of communication controllers for controlling communication of a plurality of corresponding different systems, respectively; a plurality of counters for counting communication frames having different frame periods that depend on the systems, respectively; a common counter for counting in a predetermined period; a first converter for converting a count value of one of the counters corresponding to one of the systems under communication into a common count value of the common counter to determine the end of the communication under the one of the systems; and a second converter for converting a count value of the other of the counters into another common count value to determine a system switch period from the one of the systems to the other of the systems beginning from the end of the communication under the one of the systems.
    • 多无线通信装置包括:多个通信控制器,用于分别控制多个对应的不同系统的通信; 多个计数器,用于对依赖于所述系统的不同帧周期的通信帧进行计数; 一个在预定时间内进行计数的通用柜台; 第一转换器,用于将对应于通信中的一个系统的一个计数器的计数值转换为公共计数器的公共计数值,以确定系统中的一个系统下的通信结束; 以及第二转换器,用于将另一个计数器的计数值转换成另一个公共计数值,以确定系统切换周期,从系统中的一个到另一个系统,从该通信的结束开始, 系统。