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    • 1. 发明公开
    • Bioelectrical impedance measuring device and body composition measuring apparatus
    • Messvorrichtungfürbioelektrische Impedanz undKörperzusammensetzung
    • EP1683481A1
    • 2006-07-26
    • EP06001348.9
    • 2006-01-23
    • TANITA CORPORATION
    • Takehara, KatsumiFukuda, Yoshinori
    • A61B5/053
    • A61B5/0537A61B5/7257
    • There are provided a bioelectrical impedance measuring device which calculates bioelectrical impedance parameter values by use of an AD converter incorporated in a low-cost general-purpose microcontroller and a body composition measuring apparatus using the device. The bioelectrical impedance measuring device measures voltages generated in a living body according to alternating currents of predetermined frequencies applied to the living body and comprises digital data acquiring means for acquiring digital data by sampling the measurement signals of the voltages by sampling frequencies which are not higher than the Nyquist frequencies and calculation means for calculating bioelectrical impedance parameter values based on the digital data. Thus, since high-speed processing is not needed at the time of conversion to the digital data, sampling can be processed by the AD converter in the low-cost general-purpose microcontroller, thereby making cost reduction possible.
    • 提供了一种生物电阻抗测量装置,其通过使用结合在低成本通用微控制器中的AD转换器和使用该装置的身体成分测量装置来计算生物电阻抗参数值。 生物电阻抗测量装置根据施加到生物体的预定频率的交流电流来测量生物体中产生的电压,并且包括数字数据获取装置,用于通过以下方式采集数字数据:通过采样不同于 奈奎斯特频率和用于基于数字数据计算生物电阻抗参数值的计算装置。 因此,由于在转换为数字数据时不需要高速处理,因此可以通过低成本通用微控制器中的AD转换器对采样进行采样,从而可以降低成本。
    • 2. 发明公开
    • Bioelectrical impedance measuring apparatus
    • BioelektrischesImpedanzmessgerät
    • EP1138259A2
    • 2001-10-04
    • EP01107947.2
    • 2001-03-28
    • TANITA CORPORATION
    • Yamada, YasushiFukuda, YoshinoriTakehara, KatsumiIshigooka, MakiMiyoshi, Tsutomu
    • A61B5/05
    • A61B5/4869A61B5/0537A61B2560/0406A61B2560/0468
    • Disclosed is a impedance measuring apparatus which is easy to use, and which is guaranteed to be free of incorrect measurement caused by some joints appearing in the current flowing passage intervening between two selected body parts and by the indefinite length between two selected body parts. The measuring apparatus of the present invention limits the place of the body under measurement to "one body region", i.e. a selected joint-to-joint body portion or joint-free body portion such as the forearm extending from the wrist to the elbow or the portion extending from the ankle to the knee, and comprises a housing having a contact surface to be applied to one selected body region; a first pair of measurement current supplying electrodes so placed on the contact surface that the one selected body region may be put in contact with the current electrodes; and a first pair of voltage measuring electrodes so placed on the contact surface between the pair of current electrodes that the one selected body region may be put in contact with the voltage electrodes.
    • 公开了一种易于使用的阻抗测量装置,并且其被确保没有由在两个所选择的身体部位之间的当前流动通道中出现的一些关节引起的不正确的测量以及两个所选择的身体部分之间的不确定长度。 本发明的测量装置将被测体的位置限制为“一体区域”,即所选择的关节接合体部分或无关节的身体部分,例如从手腕延伸到肘部的前臂或 所述部分从所述踝部延伸到所述膝部,并且包括具有要被施加到一个选定身体区域的接触表面的壳体; 第一对测量电流供给电极,其放置在接触表面上,使得所选择的一个体区域可以与当前电极接触; 以及第一对电压测量电极,其放置在所述一对电流电极之间的接触表面上,使得所选择的一个体区域可以与电压电极接触。
    • 6. 发明公开
    • Gait assessment system
    • Gangzugriffssystem
    • EP2005887A1
    • 2008-12-24
    • EP08010742.8
    • 2008-06-12
    • TANITA CORPORATION
    • Takehara, KatsumiNishibayashi, Kenji
    • A61B5/103
    • A61B5/1038A61B5/6829A61B2562/0219
    • To provide a compact and inexpensive gait assessment system, including a basograph, which can be readily handled by, for example, trainers, and can eliminate the necessity to select any specialized measurement space to detect foot movement during walking. A basograph (10) is equipped with a measuring instrument (12), including, for example, an acceleration sensor (13), for measuring data related to gait of a subject, and a PC (20) receives the data via a USB interface or suchlike, so that an estimating section (22) estimates the gait status of the subject based on the received data. The estimating section (22) includes at least one of the following elements for performing estimation based on predetermined-direction acceleration ACC of the subject's foot (40) at each sampling time: a push-off estimating part (23) for estimating the intensity of the subject's push-off; a tempo estimating part (24) for estimating gait tempo; an elevation estimating part (25) for estimating foot elevation; and a stride estimating part (26). An assessing section (30) assesses the gait status of the subject based on the estimation of the estimating section (22), and a presentation section (31) presents the assessment result by the assessing section (30) in a predetermined form.
    • 提供一种紧凑且廉价的步态评估系统,包括可以由例如训练者容易地处理的基底图,并且可以消除在步行期间选择任何专门的测量空间来检测脚部运动的必要性。 基底仪(10)配备有包括例如加速度传感器(13)的测量仪器(12),用于测量与被检体的步态相关的数据,PC(20)经由USB接口接收数据 或类似的,使得估计部分(22)基于所接收的数据估计对象的步态状态。 估计部分(22)包括以下元素中的至少一个,用于在每个采样时间基于对象脚部(40)的预定方向加速度ACC执行估计:推测估计部分(23) 主题推迟; 用于估计步态速度的速度估计部分(24) 用于估计脚高度的仰角估计部分(25); 和步幅估计部(26)。 评估部分(30)基于估计部分(22)的估计来评估受试者的步态状态,并且呈现部分(31)以预定形式呈现评估部分(30)的评估结果。
    • 7. 发明公开
    • A body weight managing apparatus
    • 体重管理装置
    • EP1617190A3
    • 2006-01-25
    • EP05022719.8
    • 2001-07-31
    • TANITA CORPORATION
    • Honda, YukaTakehara, Katsumi
    • G01G19/414G01G19/50
    • A61B5/4869A61B5/0537A61B5/4872A61B2560/0468G01G19/4146G01G19/50
    • A body weight managing apparatus comprising:

      a body weight measuring unit;
      a clock;
      an input unit;
      an arithmetic unit; and
      a setting unit, whereby
      said body weight measuring unit measures a body weight of a person to be measured, said clock provides a clocking function, said input unit enters a target body weight, a target date and a time period for exercise, said arithmetic unit produces a body weight managing data to achieve the target body weight without causing any troubles by the target date, based on the difference between the body weight measured by said body weight measuring unit and the target body weight entered by said input unit, and the number of days remaining until the target date entered by said input unit, and said setting unit sets a first day of the time period of exercise as the target date if there is no target date entered.

      The apparatus also discloses an external I/O interface that performs input-output operations to an external component for updating the personal parameter; other parameters concerning the measurement and the like.
    • 一种体重管理设备,包括:体重测量单元; 一个钟; 输入单元; 算术单元; 以及设定单元,其中,所述体重测量单元测量待测人员的体重,所述时钟提供计时功能,所述输入单元输入目标体重,目标日期和锻炼时间段,所述算术 基于由所述体重测量单元测量的体重与由所述输入单元输入的目标体重之间的差异,产生体重管理数据以实现目标体重而不在目标日期产生任何麻烦,并且所述单元 直到由所述输入单元输入的目标日期为止的剩余天数,并且如果没有输入目标日期,则所述设置单元将运动时间段的第一天设置为目标日期。 该设备还公开了一种外部I / O接口,其对外部组件执行输入 - 输出操作以更新个人参数; 其他与测量有关的参数等。
    • 8. 发明公开
    • Deep-vein thrombosis determination apparatus
    • Vorrichtung zur Bestimmung von Thrombosen tiefliegender Venen
    • EP1338246A1
    • 2003-08-27
    • EP03003277.5
    • 2003-02-24
    • TANITA CORPORATION
    • Miyoshi, TsutomuIzumi, ShuichiTakehara, KatsumiFukuda, Yoshinori
    • A61B5/05
    • A61B5/0535
    • An apparatus is provided which allows a subject to determine by himself/herself whether or not he/she has a status apt to develop a deep-vein thrombosis in a region of lower limb in a simple manner. A subject is instructed to change his/her body orientation. By measuring the bioelectric impedance at this time, a transfer of body fluid (blood) within the body can be captured. A variation between the bioelectric impedance values measured respectively before and after a posture change is compared with a reference value. Alternatively, a blood storage capacity of the lower limb region may be estimated from a gradient of bioelectric impedance represented by a variation thereof per unit time so as to determine whether or not the subject has the status apt to develop the deep-vein thrombosis in the lower limb region.
    • 本发明提供了一种容易让受试者自己确定他/她是否具有容易以简单的方式在下肢区域发展深静脉血栓形成的状态的装置。 指示一个主题改变他/她的身体方向。 通过测量此时的生物电阻抗,可以捕获身体内的体液(血液)的转移。 将分别在姿势变化之前和之后测量的生物电阻抗值之间的变化与参考值进行比较。 或者,可以根据每单位时间的变化表示的生物电阻抗的梯度来估计下肢区域的血液存储容量,以确定受试者是否具有容易发生深静脉血栓形成的状态 下肢区域。