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    • 1. 发明授权
    • Body composition measuring apparatus
    • 身体成分测量仪器
    • US08409115B2
    • 2013-04-02
    • US12175286
    • 2008-07-17
    • Yasuhiro Kasahara
    • Yasuhiro Kasahara
    • A61B5/103A61B5/117A61B5/05
    • A61B5/1075A61B5/0537A61B5/1079G01B11/026G01G19/50
    • A CPU (134) of a body composition measuring apparatus (100) drives a navel position indicator (118) so that it emits light. The height of a frame (114) is adjusted so that a beam of light from navel position indicator (118) irradiates the navel of a human subject. Plural sensors (106) are mounted on the frame (114), and each sensor measures a distance from the sensor to a position to be measured, whereby the abdominal width (X) of the human subject is determined. Subsequently, CPU (134) obtains measured values of weight (W) and bioelectrical impedance (Z). CPU (134) then reads an equation for calculating the visceral fat area and estimates the visceral fat area (Y) based on the measured abdominal width (X), weight (W), bioelectrical impedance (Z), and the equation.
    • 身体成分测量装置(100)的CPU(134)驱动肚脐位置指示器(118)使其发光。 调节框架(114)的高度,使得来自肚脐位置指示器(118)的光束照射人体对象的肚脐。 多个传感器(106)安装在框架(114)上,并且每个传感器测量从传感器到要测量的位置的距离,由此确定人体对象的腹部宽度(X)。 随后,CPU(134)获得重量(W)和生物电阻抗(Z)的测量值。 CPU(134)然后读取用于计算内脏脂肪面积的方程式,并且基于所测量的腹部宽度(X),体重(W),生物电阻抗(Z)和等式来估计内脏脂肪面积(Y)。
    • 3. 发明申请
    • Truncal visceral/subcutaneous fat measuring method and apparatus
    • 三尖瓣内脏/皮下脂肪测量方法和装置
    • US20070038140A1
    • 2007-02-15
    • US11481902
    • 2006-07-07
    • Yoshihisa MasuoYasuhiro Kasahara
    • Yoshihisa MasuoYasuhiro Kasahara
    • A61B5/05
    • A61B5/4869A61B5/0537A61B5/4519A61B5/4523A61B5/4872
    • A current applying electrode is placed on at least one body part which is highly useful in estimating a subcutaneous fat tissue volume on the truncal abdominal circumference, the other current applying electrode is placed on a body part protruding from the trunk, a voltage measuring electrode is placed in the vicinity of the one current applying electrode on the truncal abdominal circumference, and the other voltage measuring electrode is placed on a body part protruding from the trunk which is different from the body part on which the other current applying electrode is placed, to measure the impedance of the trunk so as to acquire the subcutaneous fat tissue layer information of the trunk. A shared electrode serving as a current applying electrode out of a current applying electrode pair and a voltage measuring electrode out of a voltage measuring electrode pair and having a wide electrode area is placed on the trunk and the other current applying electrode and the other voltage measuring electrode are placed on the extremities to measure the impedance of the trunk.
    • 电流施加电极被放置在至少一个身体部位上,该身体部位在估计在腹部腹部的皮下脂肪组织体积上是非常有用的,另一个施加电极放置在从躯干突出的身体部位上,电压测量电极 放置在一个电流施加电极的附近,并且另一个电压测量电极被放置在从与放置另一个电流施加电极的身体部分不同的躯干突出的主体部分上, 测量躯干的阻抗,以获取躯干的皮下脂肪组织层信息。 将作为电流施加电极的电流施加电极的共用电极和电压测量电极对之间的电压测量电极放置在电源电极对上并具有宽电极区域,并被放置在主干和另一个电流施加电极和另一个电压测量 电极放置在四肢上以测量躯干的阻抗。
    • 4. 发明授权
    • Body composition measurement apparatus
    • 身体成分测量装置
    • US07130680B2
    • 2006-10-31
    • US10832404
    • 2004-04-27
    • Miyuki KodamaYasuhiro Kasahara
    • Miyuki KodamaYasuhiro Kasahara
    • A61B5/05
    • A61B5/4869A61B5/0537A61B5/4872G01G19/50
    • Disclosed is a body composition measurement apparatus, comprising: a current supplying unit; a voltage measurement unit; a bioelectrical impedance measurement unit; and a judgment unit. According to the present invention said current supplying unit supplies an electric current to a person under test, said voltage measurement unit measures an electric voltage, and said bioelectrical impedance measurement unit measures a parameter for bioelectrical impedance of a measured part of the person, based on the current supplied and the voltage measured. Furthermore, said judgment unit judges an index for cell age of the person, based on the measured parameter for bioelectrical impedance.
    • 公开了一种身体成分测量装置,包括:电流供应单元; 电压测量单元; 生物电阻抗测量单元; 和判断单位。 根据本发明,所述电流供应单元向被测试人员提供电流,所述电压测量单元测量电压,并且所述生物电阻抗测量单元基于所述人体测量部分的生物电阻抗测量参数,基于 提供的电流和电压测量。 此外,所述判断单元基于生物电阻抗的测量参数来判断人的细胞年龄指数。
    • 5. 发明申请
    • Body fat measuring device
    • 身体脂肪测量装置
    • US20050124909A1
    • 2005-06-09
    • US11000998
    • 2004-12-02
    • Yasuhiro KasaharaTakashi Shiokawa
    • Yasuhiro KasaharaTakashi Shiokawa
    • A61B5/05A01K29/00A22B5/00A61B5/053A61D3/00G01N33/12
    • A01K29/00A22B5/0064A61B5/0537A61B5/4872A61B2503/40A61B2560/0468A61D3/00
    • Disclosed is a body fat measuring device for measuring body fat of an animal, comprising: an individual information input unit; a bioelectric impedance input unit; a morphological measurement value input unit; an impedance-based calculation unit; a morphological measurement value-based calculation unit; and a calculation switching unit. According to the present invention said individual information input unit enters the individual information of the animal, said bioelectric impedance input unit measures and enters the bioelectric impedance of the animal, and said morphological measurement value input unit enters the morphological measurement values for the girth of body and the length of body of the animal. Furthermore, said impedance-based calculation unit calculates the body fat rate based on the bioelectric impedance, said morphological measurement value-based calculation unit calculates the body fat rate based on the morphological measurement values for the girth of body and the length of body of the animal, and said calculation switching unit checks to determine whether the resulting bioelectric impedance is proper or not and then automatically switches between said impedance-based calculation unit and said morphological measurement value-based calculation unit depending on the result of determination.
    • 公开了一种用于测量动物身体脂肪的身体脂肪测量装置,包括:个人信息输入单元; 生物电阻抗输入单元; 形态测量值输入单元; 基于阻抗的计算单元; 基于形态测量值的计算单元; 和计算切换单元。 根据本发明,所述个体信息输入单元输入动物的个体信息,所述生物电阻抗输入单元测量并进入动物的生物电阻抗,并且所述形态测量值输入单元输入身体周长的形态测量值 和动物身体的长度。 此外,所述基于阻抗的计算单元基于生物电阻抗来计算体脂肪率,所述形态测定值计算单元基于身体的周长和体长的形态测定值,计算体脂肪率 动物和所述计算切换单元检查以确定所得到的生物电阻抗是否适当,然后根据确定结果自动地在所述基于阻抗的计算单元和基于形态测量值的计算单元之间切换。
    • 6. 发明申请
    • BODY INDEX APPARATUS
    • 身体指示装置
    • US20110152723A1
    • 2011-06-23
    • US12969934
    • 2010-12-16
    • Yasuhiro KASAHARA
    • Yasuhiro KASAHARA
    • A61B5/103
    • A61B5/0537A61B5/1075A61B5/4869A61B5/4872A61B5/6823
    • A body index apparatus (100) has a measurer for measuring, at plural measurement points, the distance indicating the width of abdomen (11) of a human subject (10) who lies on a reference plane (S) in the supine position. The distances from these measurement points to the reference plane (S) are different from one another. The measurement points are included in a plane (G) intersecting the reference plane (S) and are positioned so that the maximum width of the abdomen (11) in the plane (G) is between a measurement point that is the closest to the reference plane (S) and a measurement point that is the most distant from the reference plane (S). The body index apparatus (100) estimates an obesity index by calculation using the value of the ratio of the first distance to the second distance that is a distance at a predetermined measurement point, the first distance indicating the maximum width of plural distances measured at the plural measurement points.
    • 身体指标装置(100)具有测量器,用于在多个测量点处测量指示位于仰卧位置的参考平面(S)上的人体对象(10)的腹部(11)的宽度的距离。 从这些测量点到参考平面(S)的距离彼此不同。 测量点包括在与参考平面(S)相交的平面(G)中,并且被定位成使得平面(G)中的腹部(11)的最大宽度在最接近参考点的测量点之间 平面(S)和距参考平面(S)最远的测量点。 身体指标装置(100)使用第一距离与作为在预定测量点处的距离的第二距离的比率的值进行计算来估计肥胖指数,第一距离指示在该测量点处测量的多个距离的最大宽度 多个测量点。
    • 10. 发明申请
    • Abdominal impedance based body composition meter
    • 基于腹部阻抗的身体成分计
    • US20080071186A1
    • 2008-03-20
    • US11882345
    • 2007-08-01
    • Yasuhiro Kasahara
    • Yasuhiro Kasahara
    • A61B5/053
    • A61B5/0537
    • There is provided an abdominal impedance based body composition meter capable of estimating a body composition indicator with high accuracy. The body composition meter measures pressing forces by pressing force measuring means (load detection sections 3a, 3b, 3c and 3d) when measuring abdominal impedances by abdominal impedance measuring means (electrodes 2a, 2b, 2c and 2d) and estimates body composition indicators by body composition estimating means based on the measured pressing forces and the abdominal impedances measured by the abdominal impedance measuring means.
    • 提供了一种能够以高精度估计身体成分指示器的基于腹部阻抗的身体成分计。 当通过腹部阻抗测量装置(电极2a,2b,2c和2d)测量腹部阻抗时,身体成分计测量按压力测量装置(负载检测部分3a,3b,3c和3d) ),并且基于由腹部阻抗测量装置测量的测量的按压力和腹部阻抗,通过身体成分估计装置来估计身体成分指标。