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公开(公告)号:US5755227A
公开(公告)日:1998-05-26
申请号:US739463
申请日:1996-10-29
CPC分类号: A61B5/04008
摘要: A method and apparatus for deducing physical quantities such as positions, sizes and orientations of bioelectric current sources. Minute magnetic fields formed by the bioelectric current sources in a region under examination of an examinee are measured with a plurality of magnetic sensors arranged adjacent the region under examination. A plurality of lattice points are set in the region under examination. Physical quantities of the current sources are derived by solving a relational expression of unknown current sources at the lattice points and field data provided by the magnetic sensors, with a condition added thereto to minimize a norm of a vector having the current source at each of the lattice points. The lattice points are moved toward a lattice point having a large current value among the current sources computed. Checking is made whether a minimum distance among the lattice points having been moved is below a predetermined value. The current source computing step to the checking step are repeated for the lattice points having been removed, when the minimum distance exceeds the predetermined value, and the current source corresponding to a magnetic field occurring when the minimum distance is determined to be below the predetermined value is identified to be a true current source.
摘要翻译: 用于推导物理量的方法和装置,例如生物电流源的位置,大小和取向。 在被检查的区域内由生物电流源形成的分钟磁场用与被检查区域相邻排列的多个磁性传感器进行测量。 在被检查的区域中设置多个格点。 电流源的物理量是通过求解由磁传感器提供的格点和场数据的未知电流源的关系表达式而得到的,其中添加有条件以最小化具有当前源的矢量的范数 格点 在所计算的电流源中,格点移动到具有大电流值的格点。 检查已经移动的格点之间的最小距离是否低于预定值。 当最小距离超过预定值时,对于已经去除的格点重复检查步骤的当前源计算步骤,并且对应于当确定最小距离低于预定值时发生的磁场的电流源 被确定为真正的当前来源。
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公开(公告)号:US5601081A
公开(公告)日:1997-02-11
申请号:US252788
申请日:1994-06-02
CPC分类号: A61B5/04008
摘要: A method and apparatus for deducing physical quantities such as positions, sizes and orientations of bioelectric current sources. Minute magnetic fields formed by the bioelectric current sources in a region under examination of an examinee are measured with a plurality of magnetic sensors arranged adjacent the region under examination. A plurality of lattice points are set in the region under examination. Physical quantities of the current sources are derived by solving a relational expression of unknown current sources at the lattice points and field data provided by the magnetic sensors, with a condition added thereto to minimize a norm of a vector having the current source at each of the lattice points. The lattice points are moved toward a lattice point having a large current value among the current sources computed. Checking is made whether a minimum distance among the lattice points having been moved is below a predetermined value. The current source computing step to the checking step are repeated for the lattice points having been removed, when the minimum distance exceeds the predetermined value, and the current source corresponding to a magnetic field occurring when the minimum distance is determined to be below the predetermined value is identified to be a true current source.
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公开(公告)号:US5682889A
公开(公告)日:1997-11-04
申请号:US739461
申请日:1996-10-29
CPC分类号: A61B5/04008
摘要: A method and apparatus for deducing physical quantities such as positions, sizes and orientations of bioelectric current sources. Minute magnetic fields formed by the bioelectric current sources in a region under examination of an examinee are measured with a plurality of magnetic sensors arranged adjacent the region under examination. A plurality of lattice points are set in the region under examination. Physical quantities of the current sources are derived by solving a relational expression of unknown current sources at the lattice points and field data provided by the magnetic sensors, with a condition added thereto to minimize a norm of a vector having the current source at each of the lattice points. The lattice points are moved toward a lattice point having a large current value among the current sources computed. Checking is made whether a minimum distance among the lattice points having been moved is below a predetermined value. The current source computing step to the checking step are repeated for the lattice points having been removed, when the minimum distance exceeds the predetermined value, and the current source corresponding to a magnetic field occurring when the minimum distance is determined to be below the predetermined value is identified to be a true current source.
摘要翻译: 用于推导物理量的方法和装置,例如生物电流源的位置,大小和取向。 在被检查的区域内由生物电流源形成的分钟磁场用与被检查区域相邻排列的多个磁性传感器进行测量。 在被检查的区域中设置多个格点。 电流源的物理量是通过求解由磁传感器提供的格点和场数据的未知电流源的关系表达式而得到的,其中添加有条件以最小化具有当前源的矢量的范数 格点 在所计算的电流源中,格点移动到具有大电流值的格点。 检查已经移动的格点之间的最小距离是否低于预定值。 当最小距离超过预定值时,对于已经去除的格点重复检查步骤的当前源计算步骤,并且对应于当确定最小距离低于预定值时发生的磁场的电流源 被确定为真正的当前来源。
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公开(公告)号:US5671740A
公开(公告)日:1997-09-30
申请号:US739452
申请日:1996-10-29
CPC分类号: A61B5/04008
摘要: A method and apparatus for deducing physical quantities such as positions, sizes and orientations of bioelectric current sources. Minute magnetic fields formed by the bioelectric current sources in a region under examination of an examinee are measured with a plurality of magnetic sensors arranged adjacent the region under examination. A plurality of lattice points are set in the region under examination. Physical quantities of the current sources are derived by solving a relational expression of unknown current sources at the lattice points and field data provided by the magnetic sensors, with a condition added thereto to minimize a norm of a vector having the current source at each of the lattice points. The lattice points are moved toward a lattice point having a large current value among the current sources computed. Checking is made whether a minimum distance among the lattice points having been moved is below a predetermimed value. The current source computing step to the checking step are repeated for the lattice points having been removed, when the minimum distance exceeds the predetermined value, and the current source corresponding to a magnetic field occurring when the minimum distance is determined to be below the predetermined value is identified to be a true current source.
摘要翻译: 用于推导物理量的方法和装置,例如生物电流源的位置,大小和取向。 在被检查的区域内由生物电流源形成的分钟磁场用与被检查区域相邻排列的多个磁性传感器进行测量。 在被检查的区域中设置多个格点。 电流源的物理量是通过求解由磁传感器提供的格点和场数据的未知电流源的关系表达式而得到的,其中添加有条件以最小化具有当前源的矢量的范数 格点 在所计算的电流源中,格点移动到具有大电流值的格点。 检查已移动的格点之间的最小距离是否低于预先设定的值。 当最小距离超过预定值时,对于已经去除的格点重复检查步骤的当前源计算步骤,并且对应于当确定最小距离低于预定值时发生的磁场的电流源 被确定为真正的当前来源。
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公开(公告)号:US20150082611A1
公开(公告)日:2015-03-26
申请号:US14376886
申请日:2012-02-06
申请人: Rinya Kojo , Kenji Okushiro , Yuzuru Kataoka , Yoshikazu Yoshida , Hideki Takahashi , Ryo Matsuoka
发明人: Rinya Kojo , Kenji Okushiro , Yuzuru Kataoka , Yoshikazu Yoshida , Hideki Takahashi , Ryo Matsuoka
CPC分类号: C21D11/005 , C21D9/04 , C21D2221/00 , Y10T29/49998
摘要: A rail restraining method for restraining a hot-rolled rail in an upright position at a time of forced cooling of a head portion and a foot portion of the rail includes defining a predetermined position within 2 meters from each of both end faces of the rail along a longitudinal direction of the rail as a first restraining position, defining a predetermined position 3 to 10 meters from the first restraining position in a direction toward center of the rail along the longitudinal direction of the rail as a second restraining position at the time of forced cooling, and restraining displacement of the rail in a vertical direction at the first restraining position and the second restraining position by a restraining force F (kN) that satisfies following Expression (1): F≧100/L2 (1) where L2 (m) is a distance between the first restraining position and the second restraining position.
摘要翻译: 在强制冷却导轨的头部和脚部的同时,将热轧钢轨限制在直立位置的轨道限制方法包括在轨道的两个端面中的每一个的2m内限定预定位置 作为第一约束位置的轨道的纵向方向,在强制时作为第二限制位置,沿着轨道的纵向方向将轨道的中心方向从第一限制位置3至10米限定为第二限制位置 通过满足以下表达式(1)的约束力F(kN)来抑制轨道在第一约束位置和第二约束位置处的垂直方向的位移:F≥100/ L2(1)其中L2(m )是第一约束位置和第二约束位置之间的距离。
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公开(公告)号:US20150021836A1
公开(公告)日:2015-01-22
申请号:US14375232
申请日:2012-02-06
申请人: Yoshikazu Yoshida , Hideki Takahashi , Rinya Kojo , Ryo Matsuoka , Yuzuru Kataoka , Tomoo Horita
发明人: Yoshikazu Yoshida , Hideki Takahashi , Rinya Kojo , Ryo Matsuoka , Yuzuru Kataoka , Tomoo Horita
CPC分类号: C21D9/04 , C21D1/667 , C21D11/00 , C21D11/005 , C21D2221/00
摘要: A rail heat treatment device includes a cooling header, an oscillation mechanism, and a control system including: a storage unit that stores therein at least information required for a oscillation control; and a control unit that obtains a permissible range of required cooling time for a rail that satisfies a permissible range of hardness of the rail based on a correlation expression representing a correlation between the cooling time for the rail with the cooling header and the hardness of the rail after cooling, controls a stroke and a speed of relative reciprocation of the rail and the cooling header based on the permissible range of the required cooling time, and causes the oscillation mechanism to perform the relative reciprocation of the rail and the cooling header by the stroke and at the speed.
摘要翻译: 轨道式热处理装置包括冷却集管,振荡机构和控制系统,包括:存储单元,其至少存储振荡控制所需的信息; 以及控制单元,其基于表示轨道与冷却集管的冷却时间与冷却集管的硬度之间的相关性的相关表达式,获得满足轨道的容许硬度范围的轨道所需的冷却时间的允许范围 冷却后的轨道基于所需冷却时间的允许范围来控制轨道和冷却集管的行程和速度,并且使振荡机构通过轨道和冷却集管的相对往复运动 中风和速度。
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公开(公告)号:US20140372025A1
公开(公告)日:2014-12-18
申请号:US14373745
申请日:2012-02-23
申请人: Yoshikazu Yoshida
发明人: Yoshikazu Yoshida
IPC分类号: G01C21/36
CPC分类号: G01C21/36 , G01C21/343 , G01C21/3611 , G01C21/3664
摘要: It is an object of the present invention to improve the operability of the operation of changing a route by setting a new waypoint or destination point in a navigation device. To accomplish the object, the navigation device according to the present invention includes: a route searching unit that searches for a route from a departure point through waypoints to a destination point; a display controller that produces a screen display which allows one desired location among the departure point and at least one of the waypoints passed through to be designated as a new waypoint or destination point in one operation; and a route changing unit that changes the route searched for by the route searching unit in accordance with the designation performed by the one operation.
摘要翻译: 本发明的目的是通过在导航装置中设定新的航路点或目的地点来改善改变路线的操作的可操作性。 为了实现该目的,根据本发明的导航装置包括:路线搜索单元,其搜索从出发点经过路点到目的地点的路线; 显示控制器,其产生屏幕显示,其允许在一个操作中将出发点和所经过的点中的至少一个之间的一个期望位置指定为新的航路点或目的地点; 以及路线改变单元,其根据由一次操作执行的指定来改变由路径搜索单元搜索到的路线。
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公开(公告)号:US20060237216A1
公开(公告)日:2006-10-26
申请号:US11473583
申请日:2006-06-22
申请人: Yoshikazu Yoshida , Kazuo Andoh , Masao Idei , Shinji Kono
发明人: Yoshikazu Yoshida , Kazuo Andoh , Masao Idei , Shinji Kono
IPC分类号: H01B3/30
CPC分类号: H02G3/0481 , F16C1/26 , F16F1/37
摘要: Disclosed is a covering member comprising a cylindrical foam or a columnar foam including a cut consisting of a slit line which extends from the outer circumferential surface of the foam to reach a through-hole of the foam, wherein the slit line joining the open portion formed by the cut on the outer circumferential surface of the foam to the open portion formed by the cut on the inner circumferential surface of the foam is nonlinear in respect of the cross section of the covering member in a direction perpendicular to the axial direction of the foam.
摘要翻译: 公开了一种包括圆柱形泡沫或柱状泡沫的覆盖构件,其包括由从泡沫的外周表面延伸以到达泡沫的通孔的切割线的切口,其中形成的开口部分的切割线 通过在泡沫的外周面上的切割到由泡沫的内周面上的切口形成的开口部分,在与泡沫的轴向方向垂直的方向上的覆盖部件的截面方面是非线性的 。
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公开(公告)号:US07034621B2
公开(公告)日:2006-04-25
申请号:US10341413
申请日:2003-01-14
摘要: A divider circuit including a plurality of latch circuits which are connected in series such that each of the latch circuits is responsive to a control signal to latch data which is output from a preceding latch circuit in the series, and a logic circuit which receives the data output from the plurality of latch circuits and which outputs a logic operation result to a first latch circuit in the series of the plurality of latch circuits.
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10.发明授权Method of machining glass substrate and method fabricating high-frequency circuit 失效加工玻璃基板的方法和制造高频电路的方法公开(公告)号:US06772514B2
公开(公告)日:2004-08-10
申请号:US09878265
申请日:2001-06-12
IPC分类号: H05K302
CPC分类号: H05K3/0029 , B23K26/0624 , C03C17/28 , C03C17/32 , C03C23/0025 , H01P11/003 , Y10T29/49126 , Y10T29/49155 , Y10T29/49156 , Y10T29/49165
摘要: A method of machining a glass substrate by using a laser, in which a low-permittivity, low-dielectric-loss glass substrate capable of coping with mass production processes is made applicable as the substrate of a high-frequency circuit intended for microwave and millimeter-wave bands in particular. For that purpose, a glass substrate is provided in which the amount of air bubbles in glass is arbitrarily controlled to improve the workability of the substrate itself. Then, the glass substrate is machined while being irradiated with a pulsed laser for a plurality of times, thereby improving the machining shape of the glass substrate. Since glass substrates which are typically difficult to machine can be easily applied to the fabrication of high-frequency circuits, it becomes possible to supply high-performance circuits and apparatuses widely to the public.
摘要翻译: 通过使用能够应付大规模生产工艺的低介电常数低介电损耗玻璃基板的激光加工玻璃基板的方法可应用于用于微波和毫米的高频电路的基板 特别是波段。 为此,提供玻璃基板,其中玻璃中的气泡量被任意控制,以提高基板本身的可加工性。 然后,在用脉冲激光照射多次的同时对玻璃基板进行加工,从而提高玻璃基板的加工形状。 由于通常难以加工的玻璃基板可以容易地应用于高频电路的制造,所以可以向公众广泛地提供高性能电路和设备。
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