会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 3. 发明授权
    • Device for estimating state of living organism
    • 用于估计生物体状态的装置
    • US09144402B2
    • 2015-09-29
    • US13579575
    • 2011-01-31
    • Etsunori FujitaYumi OguraShinichiro MaedaNaoki OchiaiShigeki Wagata
    • Etsunori FujitaYumi OguraShinichiro MaedaNaoki OchiaiShigeki Wagata
    • A61B5/00A61N1/00A61B5/18A61B7/00A61B5/11A61B5/113
    • A61B5/18A61B5/1102A61B5/113A61B5/4035A61B5/6887A61B5/7239A61B7/00A61B2562/0204
    • A technology to grasp a state of a human being more accurately is provided. The technology is provided with means for acquiring a time-series waveform of a frequency from a time-series waveform of a biological signal sampled from the upper body of a human being and for further acquiring a time-series waveform of frequency slope and a time-series waveform of frequency fluctuation and for applying frequency analysis to them. In the frequency analysis, a power spectrum of each frequency corresponding to a functional adjustment signal, a fatigue reception signal, and an activity adjustment signal, respectively, determined in advance is acquired. Then, a state of a human being is determined from a time-series change of each power spectrum. The fatigue reception signal indicates a degree of progress of fatigue in a usual active state and thus, by comparing it with degrees of predominance of the functional adjustment signal and the activity adjustment signal as their distribution rates, a state of a human being (relaxed state, fatigued state, state in which sympathetic nerve is predominant, a state in which parasympathetic nerve is predominant and the like) can be determined more accurately.
    • 提供了一种更准确地掌握人的状态的技术。 该技术具有用于从从人的上半身采样的生物信号的时间序列波形获取频率的时间序列波形的装置,并且用于进一步获取频率斜率的时间序列波形和时间 - 频率波动的波形和频率分析。 在频率分析中,获取与预先确定的功能调整信号,疲劳接收信号,活动调整信号对应的各频率的功率谱。 然后,根据每个功率谱的时间序列变化来确定人的状态。 疲劳接收信号表示通常的活动状态下的疲劳的进展程度,因此通过将功能调整信号和活动调节信号的优势度作为其分配率进行比较,人的状态(松弛状态 疲劳状态,交感神经占优势的状态,副交感神经为主的状态等)可以更准确地确定。
    • 5. 发明申请
    • DEVICE FOR ESTIMATING STATE OF LIVING ORGANISM
    • 用于估计生活有机体状况的设备
    • US20130030256A1
    • 2013-01-31
    • US13579575
    • 2011-01-31
    • Etsunori FujitaYumi OguraShinichiro MaedaNaoki OchiaiShigeki Wagata
    • Etsunori FujitaYumi OguraShinichiro MaedaNaoki OchiaiShigeki Wagata
    • A61B5/00
    • A61B5/18A61B5/1102A61B5/113A61B5/4035A61B5/6887A61B5/7239A61B7/00A61B2562/0204
    • A technology to grasp a state of a human being more accurately is provided. The technology is provided with means for acquiring a time-series waveform of a frequency from a time-series waveform of a biological signal sampled from the upper body of a human being and for further acquiring a time-series waveform of frequency slope and a time-series waveform of frequency fluctuation and for applying frequency analysis to them. In the frequency analysis, a power spectrum of each frequency corresponding to a functional adjustment signal, a fatigue reception signal, and an activity adjustment signal, respectively, determined in advance is acquired. Then, a state of a human being is determined from a time-series change of each power spectrum. The fatigue reception signal indicates a degree of progress of fatigue in a usual active state and thus, by comparing it with degrees of predominance of the functional adjustment signal and the activity adjustment signal as their distribution rates, a state of a human being (relaxed state, fatigued state, state in which sympathetic nerve is predominant, a state in which parasympathetic nerve is predominant and the like) can be determined more accurately.
    • 提供了一种更准确地掌握人的状态的技术。 该技术具有用于从从人的上半身采样的生物信号的时间序列波形获取频率的时间序列波形的装置,并且用于进一步获取频率斜率的时间序列波形和时间 - 频率波动的波形和频率分析。 在频率分析中,获取与预先确定的功能调整信号,疲劳接收信号,活动调整信号对应的各频率的功率谱。 然后,根据每个功率谱的时间序列变化来确定人的状态。 疲劳接收信号表示通常的活动状态下的疲劳的进展程度,因此通过将功能调整信号和活动调节信号的优势度作为其分配率进行比较,人的状态(松弛状态 疲劳状态,交感神经占优势的状态,副交感神经为主的状态等)可以更准确地确定。
    • 6. 发明申请
    • BIOLOGICAL SIGNAL DETECTOR
    • 生物信号检测器
    • US20130060164A1
    • 2013-03-07
    • US13575417
    • 2011-01-26
    • Etsunori FujitaYumi OguraNaoki OchiaiShinichiro MaedaKosuke Aoi
    • Etsunori FujitaYumi OguraNaoki OchiaiShinichiro MaedaKosuke Aoi
    • A61B7/00
    • A61B5/02444A61B5/0816A61B5/6887A61B5/6892A61B2562/0247A61B2562/043
    • A biological signal with small amplitude is detected with greater sensitivity than before. A mechanical amplification device provided with a three-dimensional knitted material 10 and plate-shaped foam bodies 21 and 22 laminated in the periphery of the three-dimensional knitted material, preferably a mechanical amplification device provided with a film 16 disposed between the three-dimensional knitted material 10 and the plate-shaped foam bodies 21 and 22 is provided, and a vibration sensor 30 is attached to this mechanical amplification device. Micro vibration on the body surface caused by a human biological signal such as heart rate, respiration, atrial and aortic vibrations and the like is propagated to the plate-shaped foam bodies 21 and 22, the film 16, and the three-dimensional knitted material 10, and membrane vibration is generated in the plate-shaped foam bodies 21 and 22 and the film 16, while string vibration of a fiber is generated in the three-dimensional knitted material 10. As a result, the biological signal such as heart rate, respiration, atrial and aortic vibrations and the like can be accurately transmitted.
    • 检测到具有较小振幅的生物信号,灵敏度比以前更高。 具有层叠在三维针织物的周围的三维针织物10和板状泡沫体21,22的机械放大装置,优选为具有设置在三维编织物的三维编织物之间的膜16的机械放大装置 针织材料10和板状发泡体21,22,并且将振动传感器30安装在该机械放大装置上。 由人体生物信号如心率,呼吸,心房和主动脉等引起的身体表面的微振动传播到板状泡沫体21,22,膜16和三维针织物 如图10所示,在三维针织物10中产生纤维的丝束振动的同时,在板状泡沫体21,22和膜16中产生膜振动。结果,生物信号如心率 呼吸,心房和主动脉的振动等可以被准确地传递。
    • 7. 发明授权
    • Bio-signal analyzer, seat and bio-signal analyzing method
    • 生物信号分析仪,座位和生物信号分析方法
    • US08251447B2
    • 2012-08-28
    • US12527205
    • 2007-10-25
    • Etsunori FujitaYumi OguraNaoki OchiaiShinichiro MaedaShigeki Wagata
    • Etsunori FujitaYumi OguraNaoki OchiaiShinichiro MaedaShigeki Wagata
    • A47C4/54
    • A61B5/0205A47C9/002A61B5/02444A61B5/0816A61B5/18A61B5/6887A61B5/6892A61B5/726A61B2562/0247B60K28/06B60N2/005B60N2/665
    • There are provided a bio-signal analyzer using a sensor capable of detecting, even though it is non-invasive, a more prominent bio-signal, and a seat using the bio-signal analyzer. Air cushions (10), which are sensors detecting a bio-signal in a non-invasive manner, are disposed at the positions corresponding respectively to left and right iliocostalis lumborum muscles of a person, in a substantially vertically long state along the iliocostalis lumborum muscles, with upper ends thereof being set at least at the height corresponding to a lower face of a human diaphragm. In the diaphragm, bio-signals such as heartbeats, breaths, or pulsations of aorta passing through the vicinity of the diaphragm are resonated and amplified. Further, the iliocostalis lumborum muscles are at positions where they are easily vibrated by pulsations of aorta passing through the vicinity of the lumbar region. Therefore, by disposing the air cushions (10) as described above, bio-signals amplified by the diaphragm and the iliocostalis lumborum muscles can be detected.
    • 提供了使用传感器的生物信号分析仪,即使是非侵入性的,也可以使用生物信号分析仪检测更突出的生物信号和座位。 作为以非侵入方式检测生物信号的传感器的气垫(10)设置在分别对应于沿着髂骨肌肉肌肉的基本垂直长状态的人的左髂骨和右髂骨肌肉的位置 其上端至少设置在对应于人体隔膜的下表面的高度处。 在隔膜中,通过隔膜附近的主动脉的心跳,呼吸或脉动等生物信号被共振和放大。 此外,髂骨肌肉肌肉处于通过穿过腰部附近的主动脉的脉动容易地振动的位置。 因此,通过如上所述设置气垫(10),可以检测由隔膜和髂骨肌肉肌肉放大的生物信号。
    • 9. 发明授权
    • Seat structure
    • 座椅结构
    • US06817674B2
    • 2004-11-16
    • US10309605
    • 2002-12-04
    • Etsunori FujitaKazuyoshi ChizukaSeiji KawasakiYumi OguraNaoki OchiaiYasuhide TakataShigeyuki KojimaMiho Kikusui
    • Etsunori FujitaKazuyoshi ChizukaSeiji KawasakiYumi OguraNaoki OchiaiYasuhide TakataShigeyuki KojimaMiho Kikusui
    • A47C702
    • B60N2/42709B60N2/643B60N2/646B60N2/686B60N2/70
    • The object of the present invention is to suppress rebound of a human body by making a reaction force small due to a large damping ratio. A bulging portion 11 is formed at a seat cushioning member 14 which is a tension structure. This structure has a structure of changing the damping characteristics functioned by the change in strain energy and tension by deformation created by a plane wave of the tension structure in accordance with the magnitude of the excitation force of an inputted vibration. Therefore, since the damping characteristics function with a small damping ratio to an input of a small excitation force, it can relieve the vibration with a phase difference due to the spring property of the seat cushioning member 14 and/or a back cushioning member 24, and to an input of a large excitation force, by increase of the strain energy and decrease of the tension, the damping characteristics function with a large damping ratio and a long operating time, so that rebound of a human body upward can be suppressed.
    • 本发明的目的是通过使阻尼比大的反作用力较小来抑制人体的反弹。 凸起部11形成在作为张力结构的座椅缓冲构件14上。 该结构具有通过根据输入振动的激励力的大小由张力结构的平面波产生的变形而改变由应变能和张力的变化起作用的阻尼特性的结构。 因此,由于阻尼特性对于小的励磁力的输入具有小的阻尼比功能,所以能够缓和由于座椅缓冲部件14和/或后缓冲部件24的弹簧特性引起的相位差的振动, 并且通过增加应变能量和张力减小,输入大的励磁力,阻尼特性起着较大的阻尼比和较长的作业时间的作用,能够抑制人体向上的回弹。
    • 10. 发明申请
    • ALCOHOL-DRINKING DETECTING SYSTEM AND COMPUTER PROGRAM
    • 酒精饮料检测系统和计算机程序
    • US20120130261A1
    • 2012-05-24
    • US13321367
    • 2010-05-18
    • Etsunori FujitaYumi OguraShinichiro MaedaShigeyuki Kojima
    • Etsunori FujitaYumi OguraShinichiro MaedaShigeyuki Kojima
    • A61B5/024
    • A61B5/6892A61B5/02444A61B5/1102A61B5/4845A61B5/6887A61B2503/22A61B2562/168B60W2540/24
    • Determination about presence/absence of alcohol in the body is made accurately.A frequency dynamic information processing means 610 which obtains a tendency of time-series fluctuation regarding a frequency of a pulse wave of a back portion of a person detected by an air pack and an alcohol-drinking determining means 650 which determines an alcohol-drinking state when a tendency of a time-series fluctuation regarding the frequency obtained by the frequency dynamic information processing means 610 is separated from a tendency of time-series fluctuation regarding the frequency at a non-drinking state are provided. Since determination about whether or not a person is in an alcohol-drinking state is made according to comparison with time-series fluctuation regarding the frequency at a non-drinking time, where the determination is made using not only frequency analysis of the frequency of a pulse wave changing according to the physical condition of the person but also the time-series fluctuation thereof, determination about presence/absence of alcohol drinking can be made more accurately as compared with the conventional method.
    • 准确地测定身体中酒精的存在/不存在。 频率动态信息处理装置610,其获得关于由气囊检测到的人的后部的脉搏波的频率的时间序列变化的趋势,以及判定饮酒状态的饮酒判定装置650 当提供由频率动态信息处理装置610获得的频率的时间序列波动的趋势与关于非饮酒状态的频率的时间序列波动的趋势分离时。 由于根据与非饮酒时间的频率的时间序列波动的比较,判定是否处于饮酒状态,因此,不仅使用频率分析 根据人的身体状况的脉搏波变化以及其时间序列波动,与常规方法相比,可以更准确地确定饮酒的存在/不存在。