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    • 1. 发明授权
    • Orthogonal transformation processor for compressing information
    • 用于压缩信息的正交变换处理器
    • US5359549A
    • 1994-10-25
    • US58546
    • 1993-05-05
    • Masafumi TanakaKazuo SakamotoTatsuya FujiiRyo Fukui
    • Masafumi TanakaKazuo SakamotoTatsuya FujiiRyo Fukui
    • G06F7/38
    • G06F17/147
    • An orthogonal transformation processor has a first one-dimensional orthogonal transformation calculator for calculating a one-dimensional orthogonal transformation; a memory device for temporarily storing an output of the first one-dimensional orthogonal transformation calculator; a second one-dimensional orthogonal transformation calculator for calculating a one-dimensional orthogonal transformation and inputting an output of the memory device thereto; and an address generator for designating an address of the memory device and replacing row and column addresses with each other in accordance with a switching operation of writing and reading operations of the memory device. Instead of this address generator, the orthogonal transformation processor may have an address generator for designating an address of the memory device and replacing row and column addresses with each other i n accordance with calculating operations of the first and second one-dimensional orthogonal transformation calculators. The orthogonal transformation processor may further have a reading-writing control section for reading one data of the memory device and writing new results calculated by the first one-dimensional orthogonal transformation calculator to the same address after the data reading operation.
    • 正交变换处理器具有用于计算一维正交变换的第一一维正交变换计算器, 用于临时存储第一一维正交变换计算器的输出的存储装置; 第二一维正交变换计算器,用于计算一维正交变换并向其输入存储器件的输出; 以及地址发生器,用于根据存储器件的写入和读取操作的切换操作指定存储器件的地址并且相互替换行和列地址。 代替该地址生成器,正交变换处理器可以具有用于指定存储器件的地址的地址发生器,并且根据第一和第二一维正交变换计算器的计算操作彼此替换行和列地址。 正交变换处理器还可以具有读取写入控制部分,用于在数据读取操作之后读取存储器件的一个数据并将由第一个一维正交变换计算器计算出的新结果写入相同的地址。
    • 2. 发明授权
    • Orthogonal transformation processor for compressing information
    • 用于压缩信息的正交变换处理器
    • US5331585A
    • 1994-07-19
    • US58475
    • 1993-05-05
    • Masafumi TanakaKazuo SakamotoTatsuya FujiiRyo Fukui
    • Masafumi TanakaKazuo SakamotoTatsuya FujiiRyo Fukui
    • G06F7/38G06F17/14G06F15/332
    • G06F17/147
    • An orthogonal transformation processor has a first one-dimensional orthogonal transformation calculator for calculating a one-dimensional orthogonal transformation; a memory device for temporarily storing an output of the first one-dimensional orthogonal transformation calculator; a second one-dimensional orthogonal transformation calculator for calculating a one-dimensional orthogonal transformation and inputting an output of the memory device thereto; and an address generator for designating an address of the memory device and replacing row and column addresses with each other in accordance with a switching operation of writing and reading operations of the memory device. Instead of this address generator, the orthogonal transformation processor may have an address generator for designating an address of the memory device and replacing row and column addresses with each other in accordance with calculating operations of the first and second one-dimensional orthogonal transformation calculators. The orthogonal transformation processor may further have a reading-writing control section for reading one data of the memory device and writing new results calculated by the first one-dimensional orthogonal transformation calculator to the same address after the data reading operation.
    • 正交变换处理器具有用于计算一维正交变换的第一一维正交变换计算器, 用于临时存储第一一维正交变换计算器的输出的存储装置; 第二一维正交变换计算器,用于计算一维正交变换并向其输入存储器件的输出; 以及地址发生器,用于根据存储器件的写入和读取操作的切换操作指定存储器件的地址并且相互替换行和列地址。 代替该地址生成器,正交变换处理器可以具有地址发生器,用于根据第一和第二一维正交变换计算器的计算操作来指定存储器件的地址并且相互替换行和列地址。 正交变换处理器还可以具有读取写入控制部分,用于在数据读取操作之后读取存储器件的一个数据并将由第一个一维正交变换计算器计算出的新结果写入相同的地址。
    • 3. 发明授权
    • Orthogonal transformation processor for compressing information
    • 用于压缩信息的正交变换处理器
    • US5268853A
    • 1993-12-07
    • US616418
    • 1990-11-21
    • Masafumi TanakaKazuo SakamotoTatsuya FujiiRyo Fukui
    • Masafumi TanakaKazuo SakamotoTatsuya FujiiRyo Fukui
    • G06F7/38G06F17/14
    • G06F17/147
    • An orthogonal transformation processor has a first one-dimensional orthogonal transformation calculator for calculating a one-dimensional orthogonal transformation; a memory device for temporarily storing an output of the first one-dimensional orthogonal transformation calculator; a second one-dimensional orthogonal transformation calculator for calculating a one-dimensional orthogonal transformation and inputting an output of the memory device thereto; and an address generator for designating an address of the memory device and replacing row and column addresses with each other in accordance with a switching operation of writing and reading operations of the memory device. Instead of this address generator, the orthogonal transformation processor may have an address generator for designating an address of the memory device and replacing row and column addresses with each other in accordance with calculating operations of the first and second one-dimensional orthogonal transformation calculators. The orthogonal transformation processor may further have a reading-writing control section for reading one data of the memory device and writing new results calculated by the first one-dimensional orthogonal transformation calculator to the same address after the data reading operation.
    • 正交变换处理器具有用于计算一维正交变换的第一一维正交变换计算器, 用于临时存储第一一维正交变换计算器的输出的存储装置; 第二一维正交变换计算器,用于计算一维正交变换并向其输入存储器件的输出; 以及地址发生器,用于根据存储器件的写入和读取操作的切换操作指定存储器件的地址并且相互替换行和列地址。 代替该地址生成器,正交变换处理器可以具有地址发生器,用于根据第一和第二一维正交变换计算器的计算操作来指定存储器件的地址并且相互替换行和列地址。 正交变换处理器还可以具有读取写入控制部分,用于在数据读取操作之后读取存储器件的一个数据并将由第一个一维正交变换计算器计算出的新结果写入相同的地址。
    • 7. 发明授权
    • Pulse wave measuring apparatus
    • 脉搏波测量仪
    • US07232413B2
    • 2007-06-19
    • US10758600
    • 2004-01-16
    • Masao HashimotoKazunobu ItonagaTomoki KitawakiKazuhisa TanabeRyo FukuiHironori Sato
    • Masao HashimotoKazunobu ItonagaTomoki KitawakiKazuhisa TanabeRyo FukuiHironori Sato
    • A61B5/02
    • A61B5/6843A61B5/02A61B5/6824
    • A pulse wave measuring apparatus is disclosed, in which a sensor unit can be fixed easily under an appropriate pressure at an appropriate position on a living organism. With the living organism fixed by a living organism fixing device, a pressure sensitive portion arranged on the sensor unit is pressed against the living organism thereby to measure the pulse wave. The living organism fixing device includes a fixing stand for fixing the living organism in position, and fastening bands for connecting the fixing stand and the sensor unit and fastening the living organism fixedly to the fixing stand while at the same time activating by pressing the sensor unit against the living organism. The fastening bands include a first band portion with one end mounted on the sensor unit and the other end mounted on the fixing stand and a second band portion with one end mounted on the sensor unit and the other end removably mounted on the fixing stand. The fixing stand has a constant force spring for pulling the other end of the first band portion with a constant force.
    • 公开了一种脉波测量装置,其中传感器单元可以在适当的压力下容易地固定在活体上的适当位置。 在活体由活体固定装置固定的情况下,将设置在传感器单元上​​的压敏部按压在生物体上,测定脉搏波。 生物体固定装置包括:固定支架,用于将活体固定在适当位置,以及固定带,用于连接固定支架和传感器单元,并将活体固定地固定到固定支架上,同时通过按压传感器单元 反对生物体。 紧固带包括第一带部分,其一端安装在传感器单元上​​,另一端安装在固定台上,第二带部分的一端安装在传感器单元上​​,另一端可拆卸地安装在固定台上。 固定台具有用于以恒定的力拉动第一带部分的另一端的恒力弹簧。
    • 9. 发明授权
    • Pulse wave measuring apparatus
    • 脉搏波测量仪
    • US07510530B2
    • 2009-03-31
    • US10947240
    • 2004-09-23
    • Masao HashimotoKazuhisa TanabeHironori SatohTakashi InagakiRyo Fukui
    • Masao HashimotoKazuhisa TanabeHironori SatohTakashi InagakiRyo Fukui
    • A61B5/02
    • A61B5/0235A61B5/021A61B17/1355
    • A pressing cuff presses a pressure sensor above an artery. The level of the pressure applied to the pressure sensor is changed while the pulse wave is measured based on information about the pressure from the pressure sensor. In order to adjust the level of the applied pressure using the pressure of gas in the pressing cuff, a three-port valve and a two-port valve are controlled so that the connection is changed to establish a state of holding the amount of the gas in the pressing cuff. Then, the state is changed to a state of isolating and discharging gas in which a part of the held gas is isolated from the remaining amount of the gas to be discharged. Then, the state is changed to the state of holding the remaining amount of gas in the pressing cuff.
    • 按压袖带将压力传感器压在动脉上方。 基于来自压力传感器的压力的信息来测量施加到压力传感器的压力的水平,同时测量脉搏波。 为了使用压力套筒内的气体压力来调节施加的压力水平,控制三通阀和双口阀,使得连接被改变以建立保持气体量的状态 在压紧的袖口。 然后,将状态改变为将一部分保持气体与要排出的气体的剩余量隔离的气体的隔离和排出状态。 然后,将状态改变为保持按压套筒中的剩余量的气体的状态。
    • 10. 发明授权
    • Bioelectric signal detector and massage machine
    • 生物电信号检测仪和按摩机
    • US07043296B1
    • 2006-05-09
    • US10130526
    • 2000-11-17
    • Eiji KasaiRyo Fukui
    • Eiji KasaiRyo Fukui
    • A61B5/05
    • A61B5/0531A61B5/0245
    • A biosignal sensing device (2) includes an electrode section (12) including a pair of electrodes (12a,12b) mounted so that a living body can be in close proximity to or in contact with the electrodes. An oscillation section (11) supplies a high frequency signal to the electrodes. A reflected-wave level from the electrodes receiving the high frequency signal changes according to a change in impedance in the electrodes that are in close proximity to or in contact with the living body. This change in reflected-wave level reflects a change in impedance resulting from body movement of the living body such as respiration and pulsation. A sensing section (13) senses a signal indicating the change in reflected-wave level. Based on this signal, a signal amplifying section (14) calculates a desired biosignal such as pulse rate and respiration rate.
    • 生物信号感知装置(2)包括电极部分(12),其包括一对电极(12a,12b),其被安装成使得活体可以靠近或与电极接触。 振荡部分(11)向电极提供高频信号。 来自接收高频信号的电极的反射波电平根据与生物体接近或接触的电极中的阻抗变化而变化。 反射波级的这种变化反映了由身体运动引起的阻抗变化,如呼吸和脉动。 感测部(13)感测表示反射波电平的变化的信号。 基于该信号,信号放大部(14)计算出期望的生物信号,例如脉率和呼吸速率。