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61. 发明申请

US20090143665A1 MAGNETIC DETECTION COIL AND APPARATUS FOR MAGNETIC FIELD MEASUREMENT 有权
标题翻译：磁性检测线圈和磁场测量装置
公开(公告)号：US20090143665A1
公开(公告)日：2009-06-04
申请号：US12277692
申请日：2008-11-25
申请人： Yusuke Seki , Akihiko Kandori
发明人： Yusuke Seki , Akihiko Kandori
IPC分类号： G01R33/035 , A61B5/05
CPC分类号： G01R33/0354 , G01R33/04
摘要： It is an aspect of the present invention to provide a magnetic detection coil 1b made of a single wire of one of superconducting and metallic materials. Four second-order differential coils 21 to 24 are arranged so that a geometric figure obtained by connecting the respective centers of said four differential coils can form a parallelogram. By providing intersections 25 to 27 between said four second-order differential coils 21 to 24, the values of magnetic flux respectively penetrating said differential coils 21 to 24 are differentiated in three different directions.The present invention is able to detect magnetic signals stably, despite a current direction of the signal source.
摘要翻译：本发明的一个方面是提供一种由超导和金属材料之一的单线制成的磁检测线圈1b。四个二阶差分线圈21至24被布置成使得通过连接所述四个差分线圈的各个中心而获得的几何图形可以形成平行四边形。通过在所述四个二阶差分线圈21至24之间设置交叉点25至27，分别穿过所述差动线圈21至24的磁通量的值在三个不同方向上是不同的。尽管信号源的电流方向，本发明能够稳定地检测磁信号。

62. 发明申请

US20090118648A1 LIVING BODY INSPECTION SYSTEM, LIVING BODY INSPECTION APPARATUS, AND LIVING BODY INSPECTION METHOD 有权
标题翻译：生活体检检查系统，生活检查装置和生活体检检查方法
公开(公告)号：US20090118648A1
公开(公告)日：2009-05-07
申请号：US12271016
申请日：2008-11-14
申请人： Akihiko Kandori , Tsuyoshi Miyashita , Yuko Sano
发明人： Akihiko Kandori , Tsuyoshi Miyashita , Yuko Sano
IPC分类号： A61B5/11
CPC分类号： A61B5/1107 , A61B5/225 , A61B5/4082 , A61B5/4519 , A61B5/4523 , A61B5/6826 , A61B5/6838 , A61B2562/02 , A61B2562/0219 , A61B2562/0261
摘要： Motion of fingers of a subject is dynamically analyzed to provide an estimation index in a hardness of a muscle used in the motion of the fingers. A processing part calculates a speed and acceleration of two fingers on the basis of the motion data of the fingers obtained by a tapping detecting unit, calculates a ratio between the speed and the acceleration, and calculates as an estimation index a mechanical impedance regarding extending force of the fingers and a mechanical impedance regarding opening and closing force of the fingers by applying the calculated ratio to a predetermined equation based on a muscle dynamic model.
摘要翻译：动物分析受试者的手指的运动，以提供在手指运动中使用的肌肉的硬度的估计指数。处理部基于由攻丝检测部获得的手指的运动数据，计算两个手指的速度和加速度，计算速度与加速度之间的比率，并且计算出关于延伸力的机械阻抗的估计指标并且通过将计算出的比率应用于基于肌肉动力学模型的预定方程式而关于手指的打开和关闭力的机械阻抗。

63. 发明申请

US20070038067A1 Living body inspection apparatus 审中-公开
标题翻译：生活检查仪器
公开(公告)号：US20070038067A1
公开(公告)日：2007-02-15
申请号：US11480518
申请日：2006-07-05
申请人： Akihiko Kandori , Tsuyoshi Miyashita , Kuniomi Ogata , Atsushi Maki
发明人： Akihiko Kandori , Tsuyoshi Miyashita , Kuniomi Ogata , Atsushi Maki
IPC分类号： A61B5/05
CPC分类号： A61B5/04005 , A61B5/1124 , A61B5/1126 , A61B5/6826 , G01R33/0354
摘要： Living body inspection apparatus which concurrently carries out proper measurement of movement of a living body and measurement of a magnetic field emanating from the living body. It includes a movement sensor which includes magnetic field generating means for generating a magnetic field and magnetic field receiving means attached to a living body for receiving the magnetic field and measures movement of the living body based on the magnetic field emitted from the magnetic field generating means and received by the magnetic field receiving means. It also includes: a SQUID magnetometer which receives a biomagnetic field emanating from the living body; analyzing means which analyzes measurement data obtained by the movement sensor and the SQUID magnetometer; and display means which outputs a result of analysis made by the analyzing means. The magnetic field generating means is fixed in a prescribed position relative to the SQUID magnetometer.
摘要翻译：生物体检查装置同时进行生物体的运动的适当的测量以及从生物体发出的磁场的测量。其包括运动传感器，其包括用于产生磁场的磁场产生装置和附接到生物体的磁场接收装置，用于接收磁场，并且基于从磁场产生装置发射的磁场来测量活体的运动并由磁场接收装置接收。它还包括：SQUID磁力计，其接收从生物体发出的生物磁场; 分析装置，分析由运动传感器和SQUID磁力计获得的测量数据; 以及显示装置，其输出由分析装置进行的分析结果。磁场产生装置相对于SQUID磁力计固定在规定位置。

64. 发明申请

US20060079751A1 Biomagnetic measurement apparatus 有权
标题翻译：生物磁测量装置
公开(公告)号：US20060079751A1
公开(公告)日：2006-04-13
申请号：US11183985
申请日：2005-07-19
申请人： Akihiko Kandori , Tsuyoshi Miyashita , Kuniomi Ogata
发明人： Akihiko Kandori , Tsuyoshi Miyashita , Kuniomi Ogata
IPC分类号： A61B5/05
CPC分类号： A61B5/04007 , A61B5/742
摘要： Disclosed herewith is a biomagnetic measurement apparatus capable of displaying electrical excitement as a planispheric map. (First processing 70) A CAM (current arrow map) 71 and another CAM 72 are obtained from magnetocardiogram waveforms measured from both front and back sides of a subject using the data at a point of time of an R-wave peak, then the coordinates of the CAM 72 are inverted in both x and y axis directions to obtain a CAM 73. (Second processing 78) The coordinates of each of the CAMs 71 and 73 are converted to polar coordinates to obtain CAMs 74 and 75 at both front and back sides of the subject. After that, the CAM 74 is adjusted to the CAM 76 in scale to obtain a CAM 76. (Third processing 79) The CAMs 74 and 76 are combined. Then, the CAM data at measuring points on each measuring-points-missing radius vector is inserted through an arithmetic processing by interpolation so that CAM data at every measuring point on a planispheric chart 77 is connected to each another consecutively and smoothly. This is why CAMs at both front and back sides of the subject are displayed on one planispheric chart.
摘要翻译：本发明公开了一种能够显示电兴奋作为平面图的生物磁测量装置。（第一处理70）使用在R波峰值的时间点的数据从从被检体的前侧和后侧测量的磁心形图波形获得CAM（当前箭头图）71和另一CAM 72，然后坐标 CAM 72在x和y轴方向上都被反转，以获得CAM 73。（第二处理78）每个CAM71和73的坐标被转换为极坐标，以在对象的前后两侧获得CAM 74和75。之后，将CAM 74按比例调整到CAM76以获得CAM76。（第三处理79）组合CAM 74和76。然后，通过插补的运算处理插入每个测量点缺失半径向量上的测量点处的CAM数据，使得平面图77上的每个测量点的CAM数据彼此连续且平滑地连接。这就是为什么主题的前后两侧的CAM显示在一个平面图上。

65. 发明申请

US20050261578A1 Living body measurement system by light, image display methodology and program 审中-公开
标题翻译：生命体测量系统采用光，图像显示方法和程序
公开(公告)号：US20050261578A1
公开(公告)日：2005-11-24
申请号：US11130215
申请日：2005-05-17
申请人： Tsuyoshi Yamamoto , Akihiko Kandori
发明人： Tsuyoshi Yamamoto , Akihiko Kandori
IPC分类号： G01N21/17 , A61B5/00 , A61B5/11 , A61B5/145 , A61B5/1455 , A61B10/00 , A61B5/02 , A61B5/05
CPC分类号： A61B5/0073 , A61B5/14553
摘要： A method is provided which permits a reproduction time to verify a measurement image in a living body light measurement to be shortened, an effective performance check to be made, and periods containing noise and periods where tasks are not performed correctly to be eliminated in a short time. A moving image of a subject is photographed in a first trial period (rest period when the subject is at rest and task period when a task is given to the subject) and a second trial period (rest period when the subject is at rest and task period when a task is given to the subject), and a moving image in the first trial period and a moving image in the second trial period are displayed effectively simultaneously. The performance check in each trial period can be performed efficiently, and the moving image reproduction time can be shortened. Further, periods containing noise and periods where tasks are not performed correctly can be eliminated in a shorter time than in the prior art.
摘要翻译：提供了一种方法，其允许缩短生物体光测量中的测量图像的再现时间，进行有效的性能检查，以及包含噪声的周期和不正确执行任务的周期在短时间内被消除的方法时间。拍摄对象的运动图像在第一试验期间（休息期间，当对象被放置于受试者的任务时的任务期间）和第二试验期间（休息期间显示有效地同时显示第一试用期间的运动图像和第二试用期间的运动图像。可以有效地执行每个试用期的性能检查，并且可以缩短运动图像再现时间。此外，与现有技术相比，可以在更短的时间内消除包含噪声和任务不正确执行的周期的周期。

66. 发明授权

US09931063B2 Sensor for measuring motor function, a plastic band, and a device for measuring motor function 有权
公开(公告)号：US09931063B2
公开(公告)日：2018-04-03
申请号：US13005695
申请日：2011-01-13
申请人： Toshihiro Aita , Akitoshi Doi , Atsushi Ninomiya , Mitsuru Onuma , Akihiko Kandori , Yuko Sano , Norihiko Adachi
发明人： Toshihiro Aita , Akitoshi Doi , Atsushi Ninomiya , Mitsuru Onuma , Akihiko Kandori , Yuko Sano , Norihiko Adachi
IPC分类号： A61B5/11 , A61B5/00
CPC分类号： A61B5/1125 , A61B5/411 , A61B2560/0437 , A61B2562/0223
摘要： This invention provides a sensor or its related art to be easily used for measuring motor function of living body. This invention relates to a sensor for measuring motor function, which includes a magnetic field generator attached to one of two predetermined positions in a living body changing mutual distance caused by an action of the living body to have a coil board generating a magnetic field by electrification, and a magnetic field detector attached to the other of the two predetermined positions in the living body to detect the magnetic field generated by the magnetic field generator and have the coil board generating an electric current having a magnitude corresponding to a strength of the magnetic field as detected. Furthermore, each of the magnetic field generator and the magnetic field detector is provided with plastics covering a whole coil board thereof.

67. 发明授权

US09468581B2 Compression depth calculation system and compression depth calculation method 有权
标题翻译：压缩深度计算系统和压缩深度计算方法
公开(公告)号：US09468581B2
公开(公告)日：2016-10-18
申请号：US13883765
申请日：2011-11-28
申请人： Akihiko Kandori , Kuniomi Ogata , Ryuzo Kawabata , Yuko Sano , Takako Mizoguchi
发明人： Akihiko Kandori , Kuniomi Ogata , Ryuzo Kawabata , Yuko Sano , Takako Mizoguchi
IPC分类号： A61H31/00 , A61B5/103 , A61B5/00
CPC分类号： A61H31/00 , A61B5/0053 , A61B5/103 , A61B5/4848 , A61H31/005 , A61H2201/5007 , A61H2201/5023 , A61H2201/5043 , A61H2201/5058 , A61H2201/5061 , A61H2201/5064 , A61H2201/5071 , A61H2201/5084 , A61H2201/5092 , A61H2203/04 , A61H2203/0443 , A61H2203/0456 , A61H2205/00 , A61H2205/08 , A61H2205/084 , A61H2230/04
摘要： A compression depth calculation system is configured to calculate the compression depth which is a magnitude of depression of the compressed object generated by the compression and includes a measuring apparatus to be mounted on the object, and a compression depth calculating apparatus is configured to calculate the compression depth on the basis of information from the measuring apparatus. The compression depth calculation apparatus calculates a coefficient of transformation on the basis of a second-order differential waveform created for the information acquired from a magnetic sensor and acceleration information acquired from an acceleration sensor, creates a displacement waveform of a compressed portion by multiplying the acquired information by the coefficient of transformation, and calculates the compression depth on the basis of the displacement waveform.
摘要翻译：压缩深度计算系统被配置为计算由压缩产生的压缩对象的压下量的压缩深度，并且包括要安装在对象上的测量装置，并且压缩深度计算装置被配置为计算压缩基于来自测量装置的信息的深度。压缩深度计算装置基于对从磁传感器获取的信息创建的二阶微分波形和从加速度传感器获取的加速度信息计算变换系数，通过将所获取的加权信息乘以压缩部分的位移波形信息，并根据位移波形计算压缩深度。

68. 发明授权

US09055893B2 Degree of hardness measurement system and degree of hardness measurement method 有权
标题翻译：硬度测量系统和硬度测量方法
公开(公告)号：US09055893B2
公开(公告)日：2015-06-16
申请号：US13559149
申请日：2012-07-26
申请人： Akihiko Kandori , Kuniomi Ogata , Ryuzo Kawabata , Yuko Sano , Takako Mizoguchi
发明人： Akihiko Kandori , Kuniomi Ogata , Ryuzo Kawabata , Yuko Sano , Takako Mizoguchi
IPC分类号： A61B5/117 , A61B5/103 , A61B5/00 , A61B5/02
CPC分类号： A61B5/103 , A61B5/0053 , A61B5/02007 , A61B5/442 , A61B2562/0219 , G01N2203/00 , G01N2203/0075 , G01N2203/0076
摘要： For measuring hardness of an object, a measurement apparatus is pushed against the object and a degree of hardness calculation system calculates hardness based on information from the measurement apparatus. The measurement apparatus includes an acceleration sensor which outputs first information of acceleration of a contact area of the measurement apparatus, and a second sensor, such as a magnetic sensor or a pressure sensor, which outputs second information based on pressure applied to the contact area. The degree of hardness calculation system generates a second-derivative waveform by twice differentiating a waveform based on the output of the second sensor, compares the second-derivative waveform and the information of acceleration from the acceleration sensor, and calculates hardness of the object based on the comparison result.
摘要翻译：为了测量物体的硬度，将测量装置推压到物体上，并且一定程度的硬度计算系统基于来自测量装置的信息来计算硬度。测量装置包括：加速度传感器，其输出测量装置的接触区域的加速度的第一信息;以及第二传感器，例如磁传感器或压力传感器，其基于施加到接触区域的压力输出第二信息。硬度计算系统通过基于第二传感器的输出对波形进行二次微分而产生二次微分波形，从加速度传感器比较二次微分波形和加速度信息，并基于比较结果。

69. 发明申请

US20140306700A1 MAGNETIC FIELD MEASURING APPARATUS AND METHOD FOR MANUFACTURING SAME 有权
标题翻译：磁场测量装置及其制造方法
公开(公告)号：US20140306700A1
公开(公告)日：2014-10-16
申请号：US14358810
申请日：2011-11-18
申请人： Yudai Kamada , Taro Osabe , Seiichi Suzuki , Akihiko Kandori , Ryuzo Kawabata
发明人： Yudai Kamada , Taro Osabe , Seiichi Suzuki , Akihiko Kandori , Ryuzo Kawabata
IPC分类号： G01R33/032 , G01R3/00
CPC分类号： G01R33/0322 , G01R3/00 , G01R33/26 , Y10T29/49002
摘要： In order to provide a magnetic field measuring apparatus facilitating the pressure control in a gas cell, or capable of inspecting the internal pressure of the gas cell without using any special process, the magnetic field measuring apparatus is configured such that a process layer of the magnetic field measuring apparatus has such a structure that includes a first hollow portion and a second hollow portion provided opposed to first hollow portion with a first isolation wall interposed therebetween. Alternatively, a method for manufacturing the magnetic field measuring apparatus includes breaking the first isolation wall after generating alkali metal (FIG. 17 and FIG. 20).
摘要翻译：为了提供便于气室中的压力控制的磁场测量装置，或者能够在不使用任何特殊处理的情况下检查气室的内部压力，磁场测量装置被配置为使得磁性体的处理层现场测量装置具有这样的结构，其包括第一中空部分和与第一中空部分相对设置的第二中空部分，其间插入有第一隔离壁。或者，制造磁场测量装置的方法包括在产生碱金属之后破坏第一隔离壁（图17和图20）。

70. 发明申请

US20130226049A1 COMPRESSION DEPTH CALCULATION SYSTEM AND COMPRESSION DEPTH CALCULATION METHOD 有权
标题翻译：压缩深度计算系统和压缩深度计算方法
公开(公告)号：US20130226049A1
公开(公告)日：2013-08-29
申请号：US13883765
申请日：2011-11-28
申请人： Akihiko Kandori , Kuniomi Ogata , Ryuzo Kawabata , Yuko Sano , Takako Mizoguchi
发明人： Akihiko Kandori , Kuniomi Ogata , Ryuzo Kawabata , Yuko Sano , Takako Mizoguchi
IPC分类号： A61H31/00
CPC分类号： A61H31/00 , A61B5/0053 , A61B5/103 , A61B5/4848 , A61H31/005 , A61H2201/5007 , A61H2201/5023 , A61H2201/5043 , A61H2201/5058 , A61H2201/5061 , A61H2201/5064 , A61H2201/5071 , A61H2201/5084 , A61H2201/5092 , A61H2203/04 , A61H2203/0443 , A61H2203/0456 , A61H2205/00 , A61H2205/08 , A61H2205/084 , A61H2230/04
摘要： It is an object to calculate a compression depth easily with high degree of accuracy. The present invention provides a compression depth calculation system 1000 configured to calculate the compression depth which is a magnitude of depression of the compressed object generated by the compression and includes a measuring apparatus 1 to be mounted on the object, and a compression depth calculating apparatus 2 configured to calculate the compression depth on the basis of information from the measuring apparatus 1. The compression depth calculation apparatus 2 calculates a coefficient of transformation on the basis of a second-order differential waveform created for the information acquired from a magnetic sensor 19 and acceleration information acquired from an acceleration sensor 13, creates a displacement waveform of a compressed portion by multiplying the acquired information by the coefficient of transformation, and calculates the compression depth on the basis of the displacement waveform.
摘要翻译：本发明的目的是以高精度计算压缩深度。本发明提供了一种压缩深度计算系统1000，其被配置为计算压缩深度，该压缩深度是由压缩产生的压缩对象的压下量，并且包括要安装在对象上的测量装置1和压缩深度计算装置2 被配置为基于来自测量装置1的信息来计算压缩深度。压缩深度计算装置2基于为从磁传感器19获取的信息创建的二阶差分波形和加速度来计算变换系数从加速度传感器13获取的信息通过将所获取的信息乘以变换系数来产生压缩部分的位移波形，并且基于位移波形来计算压缩深度。

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