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    • 1. 发明申请
    • VISION RECOVERY TRAINING APPARATUS
    • 视觉恢复训练装置
    • US20090225275A1
    • 2009-09-10
    • US11994537
    • 2006-07-05
    • Hidenori HorieHisashi AkiyamaEiichi Ookawa
    • Hidenori HorieHisashi AkiyamaEiichi Ookawa
    • A61H5/00A61B3/11
    • A61H5/00
    • An object of the invention is to provide a vision recovery training apparatus capable of efficiently conducting vision recovery training and conducting training without inputting a training parameter according to an improvement state of an image formation adjustment function of each trainee every training.In a vision recovery training apparatus 1 for training an image formation adjustment function of an eye, the vision recovery training apparatus of the invention comprises a display part 4 for displaying an image for vision recovery, and a main controller 11 which calculates a new training parameter based on a training parameter which is acquired from a storage device for storing a training history and is applied to a trainee at least one time and conducting training to which the calculated new training parameter is applied.
    • 本发明的目的是提供一种视觉恢复训练装置,其能够根据每个训练者的每个受训者的图像形成调整功能的改善状态,有效地进行视觉恢复训练和进行训练而不输入训练参数。 在用于训练眼睛的图像形成调整功能的视觉恢复训练装置1中,本发明的视觉恢复训练装置包括用于显示用于视觉恢复的图像的显示部分4和计算新的训练参数的主控制器11 基于从用于存储训练历史的存储装置获取的训练参数,并且至少一次应用于学员,并进行应用计算的新训练参数的训练。
    • 2. 发明授权
    • Ultrasonic diagnostic apparatus
    • 超声波诊断仪
    • US08641625B2
    • 2014-02-04
    • US12440533
    • 2007-09-10
    • Hiroshi FukukitaHisashi Akiyama
    • Hiroshi FukukitaHisashi Akiyama
    • A61B8/00
    • A61B8/14G01S7/52063G01S7/52073G01S7/52085G01S15/8925G01S15/8993
    • An object of the invention is to provide an ultrasonic diagnostic apparatus that can scan a region of interest at high speed and other regions at low speed.In the ultrasonic diagnostic apparatus of the invention, a two-dimensional array probe 1 formed by arranging a plurality of ultrasonic elements two-dimensionally transmits an ultrasonic beam to a three-dimensional region and receives a reflected signal. The ultrasonic beam scans a region on a pyramid, and the scan region is divided into a main scan region Am of a region of interest and a subscan region. The subscan region is divided into small regions As1, As2, As3, and As4. The number of main scanning times of the main scan region is larger than the number of subscanning times of the subscan region.
    • 本发明的目的是提供一种超声波诊断装置,该超声波诊断装置能够以低速等速扫描感兴趣区域。 在本发明的超声波诊断装置中,通过将多个超声波元件二维地将超声波束二维地发送到三维区域并接收反射信号而形成的二维阵列探测器1。 超声波束扫描金字塔上的区域,扫描区域被划分成感兴趣区域和副扫描区域的主扫描区域Am。 子区域分为小区域As1,As2,As3和As4。 主扫描区域的主扫描次数大于副扫描区域的副扫描次数。
    • 3. 发明申请
    • SKIN CONDUCTION MEASURING APPARATUS
    • 皮肤导电测量装置
    • US20090312666A1
    • 2009-12-17
    • US12307807
    • 2007-07-09
    • Takenori FukumotoHisashi Akiyama
    • Takenori FukumotoHisashi Akiyama
    • A61B5/053
    • A61B5/0532A61B2562/0215A61H39/02A61H2230/65
    • In this skin conduction measuring apparatus, bipolar pulse currents generated by current generator sections 11a to 11i are applied to plural measurement points of a skin 30 of a subject through nonpolarizable electrodes 3a to 3i. The conducted currents and voltages generated by the conduction are measured by a measuring section 6. A feature quantity that characterizes current conductivity at each of the measurement points is extracted by a feature quantity extracting section 7 and then the result is displayed by a display section 8. An index extracted in the feature quantity extracting section 7 is calculated based on electrical equivalent circuit parameters Rp, Cp, and Rs of the skin 30. Quantitative measurement results with sufficient reliability and reproducibility can be obtained.
    • 在该皮肤导电测定装置中,由电流发生部11a〜11i产生的双极脉冲电流通过非极化电极3a〜3i施加于被检体的皮肤30的多个测定点。 通过测量部分6测量由导通产生的传导电流和电压。通过特征量提取部分7提取表征每个测量点处的电流导电性的特征量,然后由显示部分8显示结果 根据皮肤30的电等效电路参数Rp,Cp,Rs计算在特征量提取部7中提取的索引。可以获得具有足够的可靠性和再现性的定量测量结果。
    • 4. 发明申请
    • Exposure mask, optical proximity correction device, optical proximity correction method, manufacturing method of semiconductor device, and optical proximity correction program
    • 曝光掩模,光学邻近校正装置,光学邻近校正方法,半导体器件的制造方法和光学邻近校正程序
    • US20080153009A1
    • 2008-06-26
    • US12012970
    • 2008-02-06
    • Hisashi Akiyama
    • Hisashi Akiyama
    • G03F1/00G03F7/26
    • G03F1/36
    • An optical proximity correction is provided that generates a corrected pattern P0 corresponding to a state M0 where the focus is in focus and the exposure dose is optimal, a corrected pattern P1 corresponding to a state M1 where the focus is in focus and the exposure dose is at the lower limit, a corrected pattern P2 corresponding to a state M2 where the focus is in focus and the exposure dose is at the upper limit, a corrected pattern P3 corresponding to a state M3 where the focus deviates to the lower side and the exposure dose is optimal, and a corrected pattern P4 corresponding to a state M4 where the focus deviates to the upper side and the exposure dose is optimal. By combining these corrected patterns P0 through P4, a composed pattern P5 is generated that reflects the scattering of the exposure dose and the deviation of the focus.
    • 提供了一种光学邻近校正,其产生对应于聚焦对焦的状态M 0并且曝光剂量最佳的校正图案P 0,对应于焦点聚焦的状态M 1的校正图案P 1和 曝光剂量处于下限,对应于焦点聚焦的状态M 2和曝光剂量处于上限的校正图案P 2,对应于状态M 3的校正图案P 3,其中焦点 偏移到下侧,曝光剂量是最佳的,并且对应于焦点偏离上侧的状态M 4的校正图案P 4和曝光剂量是最佳的。 通过组合这些校正图案P 0至P 4,产生反映曝光剂量的散射和焦点的偏差的组合图案P 5。
    • 6. 发明申请
    • ACUPUNCTURE POINT POSITION EVALUATING APPARATUS
    • 行动点位置评估装置
    • US20090036798A1
    • 2009-02-05
    • US11911464
    • 2006-04-13
    • Takenori FukumotoHisashi Akiyama
    • Takenori FukumotoHisashi Akiyama
    • A61B5/00
    • A61H39/02A61B5/05A61B5/0532A61H39/08
    • A technology for determining an acupuncture point with the reliability with the use of a simple hardware configuration in an acupuncture point position evaluating apparatus is disclosed. According to the technology, a current generated in a current generating section is applied to measurement points of skin of a subject through current application electrodes. The applied current and a voltage generated in the skin by the current application are measured in a measuring section. In a frequency analyzing section, the measured current and the measured voltage are provided with frequency analysis, and skin impedance Z(jf) in the respective measurement points is calculated. In a characteristics amount generating section, based on the frequency response of the skin impedance Z(jf) in the measurement points, frequency response K(f)=XZ(f)/RZ(f) as a ratio between real part RZ(f) and imaginary part XZ(f) of the skin impedance Z(jf) are calculated. In a determining section, based on the difference of the frequency response K(f), an acupuncture point position is determined from among the respective measurement points.
    • 公开了一种用于通过使用针刺点位置评估装置中的简单硬件配置来确定具有可靠性的针灸点的技术。 根据该技术,通过电流施加电极将电流产生部中产生的电流施加到被检体的皮肤的测定点。 在测量部分中测量施加的电流和由当前应用在皮肤中产生的电压。 在频率分析部中,对测量电流和测量电压进行频率分析,并计算各测量点的皮肤阻抗Z(jf)。 在特征量生成部中,基于测定点的皮肤阻抗Z(jf)的频率响应,作为实际部分RZ(f)之间的比率的频率响应K(f)= XZ(f)/ RZ(f) )和皮肤阻抗Z(jf)的虚部XZ(f)。 在确定部分中,基于频率响应K(f)的差异,从各个测量点中确定针刺点位置。
    • 7. 发明授权
    • Surface mount antenna, antenna device using the same, and communication device
    • 表面贴装天线,使用其的天线装置和通信装置
    • US06950072B2
    • 2005-09-27
    • US10688876
    • 2003-10-21
    • Akira MiyataHisashi AkiyamaKazunari Kawahata
    • Akira MiyataHisashi AkiyamaKazunari Kawahata
    • H01Q1/24H01Q1/38H01Q5/10H01Q5/371H01Q9/40G01Q1/24
    • H01Q1/38H01Q1/243H01Q5/357H01Q5/371
    • A surface mount antenna includes a loop-shaped radiation electrode arranged so as to be extended over a plurality of surfaces of a dielectric substrate. The front end side of the loop-shaped radiation electrode is branched to provide a plurality of branched radiation electrodes. One side end of the radiation electrode functions as a electric feeding portion connected to an external circuit. One of the branched radiation electrodes is an in-loop branched radiation electrode which is surrounded by a loop-shaped electrode portion including the radiation electrode portion extended from the feeding portion of the radiation electrode to a branching portion and the other branched radiation electrode connected to the radiation electrode portion, the in-loop branched radiation electrode being positioned at an interval from the loop-shaped electrode. A capacitance is generated between the one of the branched radiation electrodes and the radiation electrode portion extended from the feeding portion of the radiation electrode to the branching portion.
    • 表面安装天线包括环形辐射电极,其布置成在电介质基板的多个表面上延伸。 环形辐射电极的前端侧被分支以提供多个分支辐射电极。 辐射电极的一侧端部作为连接到外部电路的馈电部分起作用。 分支辐射电极之一是环形分支的辐射电极,其被包括从辐射电极的馈电部分延伸到分支部分的辐射电极部分的环形电极部分包围,而另一个分支辐射电极连接到 辐射电极部分,环形分支辐射电极以与环状电极间隔的距离定位。 在分支辐射电极之一和从辐射电极的馈电部分延伸到分支部分的辐射电极部分之间产生电容。