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1. 发明授权

US09247374B2 Terminal device, communication system and method of activating terminal device 有权
标题翻译：终端设备，通讯系统及启动终端设备的方法
公开(公告)号：US09247374B2
公开(公告)日：2016-01-26
申请号：US14127737
申请日：2012-04-24
申请人： Yutaka Tomimatsu , Takeshi Uchiyama , Manabu Oumi , Koichi Moriya , Yoko Shinohara , Masataka Shinogi
发明人： Yutaka Tomimatsu , Takeshi Uchiyama , Manabu Oumi , Koichi Moriya , Yoko Shinohara , Masataka Shinogi
IPC分类号： H04B7/00 , H04W4/00 , H04Q9/00 , H04W52/02 , H04W72/02
CPC分类号： H04W4/005 , H04M2250/12 , H04Q9/00 , H04Q2209/883 , H04W4/70 , H04W52/0235 , H04W52/0251 , H04W52/028 , H04W72/02 , Y02D70/00
摘要： A terminal device has at least one measurement sensor for measuring a physical quantity of a measurement target. A control unit switches the measurement sensor, when activated, from a non-activated state to an activated state. An activation unit, which is driven at lower power consumption than the measurement sensor, activates the control unit when a physical quantity having a correlation with the physical quantity of the measurement target has satisfied a given activation condition.
摘要翻译：终端装置具有用于测量测量对象物理量的至少一个测量传感器。控制单元在激活时将测量传感器从非激活状态切换到激活状态。当与测量传感器相比具有相关性的物理量已经满足给定的激活条件时，以比测量传感器更低的功率消耗驱动的激活单元激活控制单元。

2. 发明授权

US09769755B2 Terminal device, communication system and method of activating terminal device 有权
公开(公告)号：US09769755B2
公开(公告)日：2017-09-19
申请号：US14128255
申请日：2012-04-24
申请人： Takeshi Uchiyama , Manabu Oumi , Koichi Moriya , Yutaka Tomimatsu , Yoko Shinohara , Masataka Shinogi
发明人： Takeshi Uchiyama , Manabu Oumi , Koichi Moriya , Yutaka Tomimatsu , Yoko Shinohara , Masataka Shinogi
IPC分类号： H04W52/02 , H04Q9/00 , G01D3/10 , H04W4/00 , G01D21/02 , G01D21/00
CPC分类号： H04W52/0219 , G01D3/10 , G01D21/00 , G01D21/02 , H04Q9/00 , H04Q2209/823 , H04Q2209/883 , H04Q2209/886 , H04W4/70
摘要： A terminal device has measurement sensors for measuring physical quantities of measurement targets. A storage unit stores information determining a mode for activating the measurement sensors. Based on the information stored in the storage unit, a control unit switches all or part of the measurement sensors from a non-activated state to an activated state when the measurement sensors are to be activated. An activation unit includes an activation sensor driven on the basis of environmental changes. The activation unit is configured to activate the control unit on the basis of detection results from the activation sensor when a physical quantity correlated with the physical quantity of the measurement target satisfies a given activation condition.

3. 发明申请

US20140128118A1 TERMINAL DEVICE, COMMUNICATION SYSTEM AND METHOD OF ACTIVATING TERMINAL DEVICE 有权
标题翻译：终端设备，通信系统和激活终端设备的方法
公开(公告)号：US20140128118A1
公开(公告)日：2014-05-08
申请号：US14127737
申请日：2012-04-24
申请人： Yutaka Tomimatsu , Takeshi Uchiyama , Manabu Oumi , Koichi Moriya , Yoko Shinohara , Masataka Shinogi
发明人： Yutaka Tomimatsu , Takeshi Uchiyama , Manabu Oumi , Koichi Moriya , Yoko Shinohara , Masataka Shinogi
IPC分类号： H04W4/00 , H04W52/02
CPC分类号： H04W4/005 , H04M2250/12 , H04Q9/00 , H04Q2209/883 , H04W4/70 , H04W52/0235 , H04W52/0251 , H04W52/028 , H04W72/02 , Y02D70/00
摘要： To provide a terminal device realizing high-performance sensing and lower power consumption. A terminal device according to the present invention includes a sensor for measurement measuring a physical quantity of a measurement target, a control unit switching the sensor for measurement from a non-activated state to an activated state when activated and an activation unit driven in lower power consumption than the sensor for measurement and activating the control unit when a physical quantity having correlation with the physical quantity of the measurement target is satisfied as a given activation condition, thereby realizing high-performance sensing and lower power consumption.
摘要翻译：提供实现高性能感测和更低功耗的终端设备。根据本发明的终端装置包括：测量测量对象的物理量的测量传感器;控制单元，其在激活时将测量用的非激活状态切换到激活状态;以及以较低功率驱动的激活单元当与物理量相关的物理量被满足作为给定的激活条件时，用于测量和激活控制单元的传感器的消耗，从而实现高性能感测和降低功耗。

4. 发明授权

US06376827B1 Near field optical memory head 失效
标题翻译：近场光记忆头
公开(公告)号：US06376827B1
公开(公告)日：2002-04-23
申请号：US09403406
申请日：2000-02-14
申请人： Nobuyuki Kasama , Yasuyuki Mitsuoka , Norio Chiba , Takashi Niwa , Kunio Nakajima , Manabu Oumi , Kenji Kato , Masataka Shinogi
发明人： Nobuyuki Kasama , Yasuyuki Mitsuoka , Norio Chiba , Takashi Niwa , Kunio Nakajima , Manabu Oumi , Kenji Kato , Masataka Shinogi
IPC分类号： G11B1300
CPC分类号： G11B7/122 , B82Y10/00 , G11B7/12 , G11B7/124 , G11B7/1387 , G11B7/22 , Y10S977/862
摘要： There is provided a near-field optical memory head for recording and/or reproducing information on a recording medium by utilizing near-field light which is a near-field optical memory head having a compact constitution and is suitable for mass production and array formation. According to the near-field optical memory head 11, in a planar substrate formed by penetrating at least one hole in a shape of an inverted pyramid such that a top portion thereof constitutes a very small aperture 4, a near-field light forming system for forming near-field light at a recording medium 1 and a near-field light detecting system for guiding propagating light 10 provided by interactively operating the formed near-field light with the very small aperture 4 to a light detecting element are integrated.
摘要翻译：提供了一种近场光学存储头，用于通过利用近场光，其是具有紧凑结构的近场光学记忆头，并且适合于批量生产和阵列形成，在记录介质上记录和/或再现信息。根据近场光学存储器头11，在通过穿透倒锥体形状的至少一个孔使得其顶部构成非常小的孔4而形成的平面基板中，形成近场光成像系统在记录介质1处形成近场光，并且将用于引导通过将形成的近场光与极小孔4交互地操作而提供的传播光10的近场光检测系统集成在一起。

5. 发明授权

US08828321B2 Reactor, micro-reactor chip, micro-reactor system, and method for manufacturing the reactor 有权
标题翻译：反应器，微反应器芯片，微反应器系统以及反应器的制造方法
公开(公告)号：US08828321B2
公开(公告)日：2014-09-09
申请号：US11338293
申请日：2006-01-24
申请人： Yoko Shinohara , Minao Yamamoto , Masataka Shinogi , Haruki Kato
发明人： Yoko Shinohara , Minao Yamamoto , Masataka Shinogi , Haruki Kato
IPC分类号： G01N27/00
CPC分类号： G01N29/036 , G01N2291/0256
摘要： A reactor comprises a main body having a flow path substrate and a crystal substrate chemically bonded to the flow path substrate to form a flow path for running a sample to be measured and a reactor tank connected to the flow path. An adsorption film is disposed in the reactor tank for adsorbing a specific substance contained in the sample to be measured. A measuring device measures a physical quantity of the specific substance contained in the sample and adsorbed by the adsorption film.
摘要翻译：反应器包括主体，其具有流路基板和化学键合到流路基板的晶体基板，以形成用于使待测样品运行的流路和连接到流路的反应器罐。吸附膜设置在反应槽中，用于吸附待测样品中所含的特定物质。测量装置测量样品中所含特定物质的物理量并被吸附膜吸附。

6. 发明申请

US20060172409A1 Micro-reactor, dissociation constant measuring apparatus, dissociation constant measuring method, and dissociation constant measuring program 审中-公开
标题翻译：微反应器，解离常数测量装置，解离常数测量方法和解离常数测量程序
公开(公告)号：US20060172409A1
公开(公告)日：2006-08-03
申请号：US11341746
申请日：2006-01-27
申请人： Yoko Shinohara , Minao Yamamoto , Masataka Shinogi , Fumio Kimura , Haruki Kato
发明人： Yoko Shinohara , Minao Yamamoto , Masataka Shinogi , Fumio Kimura , Haruki Kato
IPC分类号： C12M1/34 , G06F19/00
CPC分类号： B01J19/0093 , B01J2219/00783 , B01J2219/00824 , B01J2219/00831 , B01J2219/00833 , B01J2219/00853 , B01J2219/0086 , B01J2219/00957 , B01L3/5027 , G01G3/13 , G01N27/221 , G01N29/022 , G01N29/222 , G01N33/557 , G01N2291/0224 , G01N2291/0256 , G01N2291/02809 , G01N2291/02863 , G01N2291/0423 , G01N2291/0426
摘要： In order to make it possible to predict a dissociation constant at an initial stage of reaction, a concentration sensor for a sample is provided on a downstream side of a mass sensor. This makes it possible to learn concentration of a sample solution at the time when a mass is detected by the mass sensor. When the concentration and the mass are substituted in a predetermined logical expression, it is possible to obtain a predicted value of a dissociation constant. The concentration sensor is a capacitor constituted by electrodes opposed to each other. Since a dielectric constant changes when analytes are present between the electrodes, it is possible to detect analyte concentration according to the dielectric constant. Since it is possible to reduce a size of the capacitor, it is possible to keep a size of a micro-reactor small. Note that the mass sensor outputs a resonance frequency of a quartz resonator. A measuring apparatus can calculate a mass from transition of this frequency.
摘要翻译：为了能够在反应的初始阶段预测解离常数，在质量传感器的下游侧设置有用于样品的浓度传感器。这使得可以在通过质量传感器检测质量时学习样品溶液的浓度。当以预定的逻辑表达式代替浓度和质量时，可以获得解离常数的预测值。浓度传感器是由彼此相对的电极构成的电容器。由于当电极之间存在分析物时介电常数发生变化，因此可以根据介电常数检测分析物浓度。由于可以减小电容器的尺寸，因此可以保持微反应器的尺寸小。注意，质量传感器输出石英谐振器的谐振频率。测量装置可以计算从该频率的转变中的质量。

7. 发明申请

US20060169045A1 Reactor, a microchip, and a micro reactor system as well as a method for manufacturing the reactor 有权
标题翻译：反应器，微芯片和微反应器系统以及制造反应器的方法
公开(公告)号：US20060169045A1
公开(公告)日：2006-08-03
申请号：US11338293
申请日：2006-01-24
申请人： Yoko Shinohara , Minao Yamamoto , Masataka Shinogi , Haruki Kato
发明人： Yoko Shinohara , Minao Yamamoto , Masataka Shinogi , Haruki Kato
IPC分类号： B01J19/00
CPC分类号： G01N29/036 , G01N2291/0256
摘要： In order to provide a reactor, a micro reactor chip, and a micro reactor system which can maintain high sensitivity without residual stresses on a crystal oscillator and unwanted oscillation modes, both surfaces of an AT-cut crystal plate 100 is deposited or sputtered with gold to prepare a detection electrode 601, an opposite electrode 602, and wiring to both electrodes. A resist is then formed on a cleaned silicon wafer. Polydimethylsiloxane (PDMS) is then poured onto the silicon wafer and allowed to cure. The PDMS is then peeled from the silicon wafer to form a groove 500 in the PDMS. The PDMS is then laid on the crystal plate. When the crystal substrate side is then irradiate with ultraviolet light the silicon-carbon bond between the crystal and the PDMS is cut, thus causing the crystal and the PDMS to bond to each other by means of a siloxane bond. The liquid introduction port and the liquid discharge port are then cut to form the reactor. A micro reactor chip and a micro reactor system are configured through the application of the construction of the reactor.
摘要翻译：为了提供一种反应堆，微反应堆芯片和微反应器系统，其可以在晶体振荡器和不期望的振荡模式下保持高灵敏度而没有残余应力，AT切割晶体板100的两个表面被沉积或溅射金以准备检测电极601，相对电极602和与两电极的布线。然后在清洁的硅晶片上形成抗蚀剂。然后将聚二甲基硅氧烷（PDMS）倒入硅晶片上并使其固化。然后PDMS从硅晶片剥离，以在PDMS中形成凹槽500。然后将PDMS放置在晶体板上。当晶体衬底侧用紫外光照射时，晶体和PDMS之间的硅 - 碳键被切割，从而通过硅氧烷键使晶体和PDMS彼此结合。然后将液体导入口和液体排出口切割成反应器。微反应器芯片和微反应器系统通过应用反应器的结构来构造。

8. 发明授权

US07778683B2 Blood rheology measurement device and blood rheology measurement method 有权
标题翻译：血液流变学测量装置和血液流变学测量方法
公开(公告)号：US07778683B2
公开(公告)日：2010-08-17
申请号：US11346824
申请日：2006-02-03
申请人： Takahiko Nakamura , Masataka Shinogi , Fumio Kimura , Mizuaki Suzuki
发明人： Takahiko Nakamura , Masataka Shinogi , Fumio Kimura , Mizuaki Suzuki
IPC分类号： A61B5/05
CPC分类号： A61B8/06 , A61B5/026 , A61B5/489 , G06K9/00067 , G06T7/0012 , G06T7/70 , G06T2207/30004 , G16H50/50
摘要： A blood rheology measurement device and a blood rheology measurement method which detect a fingerprint or a vein to thereby measure a positional relation between an artery in a living body and a sensor on the same conditions for each subject during non-invasive measurement and which correctly evaluate a change of blood rheology with elapse of time. A vein pattern or a fingerprint pattern peculiar to a subject is detected, recognized, and stored, a position of a sensor is adjusted so that the detected vein pattern or fingerprint pattern agrees with the stored vein pattern or fingerprint pattern every measurement, and a blood rheology index value indicating blood fluidity (fluidity/viscosity) is measured.
摘要翻译：一种血液流变学测量装置和血液流变学测量方法，其检测指纹或静脉，从而在非侵入性测量期间针对每个受试者在相同条件下测量生物体中的动脉与传感器之间的位置关系，并且正确评估血液流变学随时间的变化。检测，识别和存储对受试者特有的静脉图案或指纹图案，调整传感器的位置，使得检测到的静脉图案或指纹图案与每次测量时存储的静脉图案或指纹图案一致，并且血液测定表示血液流动性（流动性/粘度）的流变指标值。

9. 发明授权

US07413545B2 Method of calculating circulation dynamics of a living body 有权
标题翻译：计算生物体循环动力学的方法
公开(公告)号：US07413545B2
公开(公告)日：2008-08-19
申请号：US10405128
申请日：2003-04-02
申请人： Hiroyuki Muramatsu , Minao Yamamoto , Takashi Nakamura , Takahiko Nakamura , Masataka Shinogi
发明人： Hiroyuki Muramatsu , Minao Yamamoto , Takashi Nakamura , Takahiko Nakamura , Masataka Shinogi
IPC分类号： A61B5/02 , A61B5/00
CPC分类号： A61B5/026 , A61B5/02241 , A61B8/06 , G06F19/00
摘要： In a method of calculating circulation dynamics of a living body, a resistance component corresponding to a shape of a blood vessel in the living body is derived using previously obtained values of viscosity, pressure and flow rate of blood flowing in the blood vessel. Information corresponding to the viscosity of the blood is calculated using the derived resistance component.
摘要翻译：在计算生物体的循环动力学的方法中，使用先前获得的血液中流动的血液的粘度，压力和流量的值，得出与生物体的血管形状对应的阻力成分。使用得到的电阻成分计算与血液粘度相对应的信息。

10. 发明申请

US20060241460A1 Blood rheology measurement device and blood rheology measurement method 有权
标题翻译：血液流变学测量装置和血液流变学测量方法
公开(公告)号：US20060241460A1
公开(公告)日：2006-10-26
申请号：US11350461
申请日：2006-02-09
申请人： Fumio Kimura , Takahiko Nakamura , Masataka Shinogi , Mizuaki Suzuki
发明人： Fumio Kimura , Takahiko Nakamura , Masataka Shinogi , Mizuaki Suzuki
IPC分类号： A61B8/00
CPC分类号： A61B8/00 , A61B5/02035 , A61B8/06 , A61B8/065 , A61B8/0891
摘要： There is disclosed a miniature blood rheology measurement device and a blood rheology measurement method which are capable of performing measurement of a portion such as a wrist or a fingertip with a high precision and which are simple without requiring measurement of a blood pressure. The method: detects an artery blood flow rate, a pulsatile displacement, an artery diameter, an artery wall thickness, a heartbeat frequency, and a phase difference or an amplitude ratio of the blood flow rate and the pulsatile displacement, which change with elapse of time, by use of a sensor including ultrasonic wave transmitting and receiving elements for transmitting and receiving ultrasonic waves between the surface of a living body and an artery blood flow in the living body; and calculates a blood kinematic viscosity by use of one of the phase difference and the amplitude ratio, the blood vessel diameter, and the heartbeat frequency to obtain an index value of a blood rheology.
摘要翻译：公开了一种微型血液流变学测量装置和血液流变学测量方法，其能够以高精度进行诸如手腕或指尖的部分的测量，并且这些方法简单而不需要测量血压。该方法：检测动脉血流速度，脉动位移，动脉直径，动脉壁厚度，心跳频率以及血流速度和脉动位移的相位差或幅度比，其随着时间，通过使用包括超声波发送和接收元件的传感器，用于在生物体的表面和生物体内的动脉血流之间发送和接收超声波; 通过使用相位差和振幅比，血管直径，心跳频率之一计算血运动粘度，得到血液流变学的指标值。

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