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    • 5. 发明授权
    • Exercise intensity measuring device and exercise quantity measuring
device
    • 运动强度测量装置和运动量测量装置
    • US6042549A
    • 2000-03-28
    • US952943
    • 1998-01-23
    • Kazuhiko AmanoKazuo UebabaHitoshi Ishiyama
    • Kazuhiko AmanoKazuo UebabaHitoshi Ishiyama
    • A61B5/024A61B5/11A61B5/22A61B5/02
    • A61B5/4854A61B5/02438A61B5/1118A61B5/222A61B5/7257A61B5/726A61B5/742A61B5/744
    • An exercise intensity and exercise quantity measuring device is disclosed, which is capable of measuring the exercise intensity, irrespective of the type, of exercise, and measuring the exercise quantity only when the user is carrying out exercise of suitable intensity. The user first estimates his Vo.sub.2max in advance by the conventional direct method, and inputs this value into the device. The device determines upper and lower limit values of pulse rate corresponding to this Vo.sub.2max. During the time of exercise when pulse rate is between the upper and lower limit values, CPU 308 increments the accumulated time stored in RAM 309, at intervals based on a clock pulse supplied by oscillation circuit 311 and frequency dividing circuit 312. At the same time, CPU 308 compares the pulse waveform during exercise and the pulse waveform at rest, and estimates the exercise intensity.
    • PCT No.PCT / JP97 / 00928 Sec。 371日期1998年1月23日 102(e)日期1998年1月23日PCT 1997年3月21日PCT公布。 第WO97 / 35514号公报 日期1997年10月2日公开了运动强度和运动量测量装置,其能够仅在用户进行适当强度的运动时才能测量运动强度,而不考虑运动类型和运动量。 用户首先通过传统的直接方法预先估计他的Vo2max,并将该值输入到设备中。 该装置确定对应于该Vo2max的脉搏率的上限值和下限值。 在运动期间,当脉搏率在上限和下限值之间时,CPU 308基于由振荡电路311和分频电路312提供的时钟脉冲以间隔递增存储在RAM 309中的累加时间。同时 CPU308比较运动时的脉搏波形和静止时的脉搏波形,并估计运动强度。
    • 7. 发明授权
    • Exercise workout support device
    • 锻炼锻炼支援装置
    • US06241684B1
    • 2001-06-05
    • US08973267
    • 1998-02-02
    • Kazuhiko AmanoKazuo UebabaHitoshi Ishiyama
    • Kazuhiko AmanoKazuo UebabaHitoshi Ishiyama
    • A61B500
    • A61B5/1118A61B5/02416A61B5/02438A61B5/222A61B5/721A61B5/7257A61B5/726G06F19/00
    • A device is provided, which is capable of determining the maximum oxygen uptake quantity without the restriction of a large device or requiring troublesome operations to be carried out. The device displays the upper and lower limit values for the pulse rate corresponding to an appropriate exercise intensity, and realizes in a wireless manner by means of optical communications the sending and receiving of information such as pulse wave signals to and from an information processing device which processes pulse wave information. The device is provided with a pulse wave detector 101 for detecting the test subject s pulse waveform; an FFT processor 103 for determining the test subject s heartbeat rate from the pulse waveform; a body motion detector 104 for detecting body motion when the test subject is running; an FFT processor 106 for determining the pitch from body motion during running by the test subject; exercise intensity calculator 108 for determining pitch, the test subject s stride, and the exercise intensity from body motion during running; and a nomogram recorder 109 for recording the relationship indicated by an Astrand-Ryhming nomogram, and determining the maximum oxygen uptake quantity from the heart rate and exercise intensity. The obtained maximum oxygen uptake quantity is divided by the test subject s body weight, to calculate the maximum oxygen uptake quantity per unit body weight. Next, the maximum oxygen uptake quantity and pulse according to sex are determined, and the pulse rate is multiplied by the upper and lower limit value coefficients, to determine the upper limit value UL and the lower limit value LL for the pulse rate.
    • 提供了一种能够在不受大型装置的限制的情况下确定最大氧气吸收量或需要进行麻烦的操作的装置。 该装置显示对应于适当的运动强度的脉搏速率的上下限值,并通过光通信以无线方式实现向信息处理装置和从信息处理装置发送和接收诸如脉搏波信号的信息 处理脉波信息。 该装置设置有用于检测受试者脉搏波形的脉搏波检测器101; FFT处理器103,用于根据脉搏波形确定测试对象的心跳速率; 身体运动检测器104,用于当测试对象运行时检测身体运动; FFT处理器106,用于在由测试对象运行期间确定身体运动的音调; 运动强度计算器108,用于确定运动中的俯仰,测试对象的步幅和运动的运动强度; 以及用于记录由Astrand-Ryhming列线图表示的关系并且从心率和运动强度确定最大氧摄取量的诺欧图记录器109。 将获得的最大氧气摄取量除以受试者的体重,计算每单位体重的最大氧吸收量。 接下来,确定最大氧摄取量和根据性别的脉冲,并且将脉搏率乘以上限值系数和下限值系数,以确定脉搏率的上限值UL和下限值LL。
    • 8. 发明授权
    • Arrhythmia detecting apparatus
    • 心律失常检测装置
    • US6095984A
    • 2000-08-01
    • US981349
    • 1998-04-06
    • Kazuhiko AmanoKazuo UebabaHitoshi Ishiyama
    • Kazuhiko AmanoKazuo UebabaHitoshi Ishiyama
    • A61B5/024A61B5/04A61B5/02
    • A61B5/721A61B5/02438A61B5/7253A61B5/7225A61B5/7257A61B5/726
    • The arrhythmia detecting apparatus of the present invention is provided with a pulse wave detecting means which non-invasively detects the pulse waveform, and an arrhythmia detecting means which detects arrhythmia by monitoring changes in the pulse waveform detected by the pulse wave detecting means. The arrhythmia detection means has a decision element which determines that arrhythmia has occurred when there is an interruption in the continuity of this change. Methods employed for investigating the continuity of change in the pulse waveform include a time domain method employing pulse wave interval values, and a frequency domain method in which frequency analysis (FFT or wavelet transformation) is carried out on the pulse waveform, with continuity studied based on the results of this analysis. As a result of this design, it is possible to detect arrhythmia by means of a simpler structure and easier operations as compared to an electrocardiogram and so on. Further, it is also acceptable to provide a body motion detecting means, and to determine continuity of change for a pulse wave component after the body motion component detected by the aforementioned means has been removed therefrom. In this case, since it is possible to remove the body motion component from the pulse waveform, arrhythmia can be detected even more accurately throughout the course of daily activities.
    • PCT No.PCT / JP97 / 01322 Sec。 371日期:1998年4月6日 102(e)1998年4月6日PCT PCT 1997年4月17日PCT公布。 出版物WO97 / 38626 日本1997年10月23日本发明的心律失常检测装置具有不侵入性地检测脉搏波形的脉波检测装置,以及通过监视由脉波检测出的脉搏波形的变化来检测心律失常的心律失常检测装置 检测装置。 心律失常检测装置具有确定当该变化的连续性中断时发生心律失常的判定元件。 用于研究脉搏波形变化连续性的方法包括采用脉搏波间隔值的时域方法,以脉冲波形进行频率分析(FFT或小波变换)的频域方法,连续性研究为基础 对此分析的结果。 作为该设计的结果,与心电图等相比,可以通过更简单的结构和更容易的操作来检测心律失常。 此外,还可以提供体动检测装置,并且在通过上述装置检测到的身体运动成分已被去除之后确定脉搏波分量的变化连续性。 在这种情况下,由于可以从脉搏波形中去除身体运动成分,因此可以在日常活动的整个过程中更准确地检测到心律失常。
    • 10. 发明授权
    • Method of detecting pulse wave, method of detecting artery position, and pulse wave detecting apparatus
    • 脉搏波检测方法,动脉位置检测方法及脉波检测仪
    • US06334850B1
    • 2002-01-01
    • US09341248
    • 1999-08-19
    • Kazuhiko AmanoKazuo UebabaHitoshi Ishiyama
    • Kazuhiko AmanoKazuo UebabaHitoshi Ishiyama
    • A61B502
    • A61B5/02438A61B5/681A61B5/6822A61B5/7257A61B5/726
    • An optical type pulse wave detection section 1 detects the pulse waveform MH above the skin while moving in the circumferential direction of the arm, when a manual position change mechanism 2 is operated. Capillary vessels and arterioles surrounding a radial artery 24 are formed inside the skin, and pulsation of the capillary vessels and arterioles are opposite in polarity. When a polarity detection section 3 outputs a polarity detection signal KS showing the polarity of the pulse waveform MH, the polarity is displayed on a display 4. Accordingly, a subject can position the pulse wave detection section 1 above the arterioles surrounding the artery by operating the manual position change mechanism 2 while observing the display 4, allowing the pulse waveform MH to be detected with an optimal SN ratio. In addition, the pulse waveform of the arterioles can be detected by specifying the position of the artery without causing a constrictive feeling to the subject.
    • 当操作手动位置改变机构2时,光学式脉波检测部分1在沿着手臂的周向移动的同时检测皮肤上方的脉搏波形MH。 在皮肤内部形成有围绕桡骨动脉24的毛细血管和小动脉,毛细血管和小动脉的脉动极性相反。 当极性检测部3输出表示脉搏波形MH的极性的极性检测信号KS时,极性被显示在显示器4上。因此,被检体可以通过操作将脉波检测部1定位在动脉周围的小动脉上方 手动位置改变机构2,同时观察显示器4,允许以最佳SN比检测脉搏波形MH。 此外,可以通过指定动脉的位置而不对受试者造成收缩的感觉来检测小动脉的脉搏波形。