公开(公告)号：US08761246B2

公开(公告)日：2014-06-24

申请号：US12396089

申请日：2009-03-02

Applicant: Akihiro Yamori ,  Satoshi Shimada

Inventor： Akihiro Yamori ,  Satoshi Shimada

IPC: H04N7/12 ,  G06K9/36 ,  H04N5/228 ,  H04N9/77 ,  H04N9/64 ,  H04N1/60 ,  H04N7/26

CPC classification number: H04N9/77 ,  H04N1/6005 ,  H04N9/646 ,  H04N19/14 ,  H04N19/172 ,  H04N19/177 ,  H04N19/186 ,  H04N19/59

Abstract: This is an encoding device for compressing/encoding an input video signal. The encoding device comprises a reduction/conversion unit for converting the format of either a luminance component or a chrominance component according to the characteristic of the input video signal and an encoding unit for compressing/encoding the video signal whose format is converted by the reduction/conversion unit to generate encoded data.

Abstract translation: 这是用于压缩/编码输入视频信号的编码装置。 编码装置包括用于根据输入视频信号的特性转换亮度分量或色度分量的格式的缩小/转换单元和用于压缩/编码其格式由缩小/ 转换单元生成编码数据。

公开(公告)号：US08602559B2

公开(公告)日：2013-12-10

申请号：US13351352

申请日：2012-01-17

Applicant: Shigeru Takimoto ,  Satoshi Shimada ,  Masayoshi Oouchi

Inventor： Shigeru Takimoto ,  Satoshi Shimada ,  Masayoshi Oouchi

IPC: A61B3/02

CPC classification number: A61B3/024

Abstract: In a perimeter having means for measuring a visual field of an eye to be examined, means for monitoring fixation state and means for lighting the eye to be examined with a brightness necessary for monitoring the fixation state of the eye to be examined and means for correcting visibility, means for correcting visibility is provided so as to be freely moved between a set position corresponding to a measurement position of the eye to be examined and a stored position retracted to an outer periphery of a projection member. Such a perimeter further has means for detecting whether means for correcting visibility is at the set position or the stored position and an illustration controller for changing brightness of the illumination onto the eye to be examined through the means for lighting according to the detected position of means for correcting visibility.

Abstract translation: 在具有用于测量要检查的眼睛的视场的装置的周边上，用于监视固定状态的装置和用于监视所要检查的眼睛的固定状态所必需的亮度来点亮待检眼的装置，以及用于校正的装置 提供可见度，用于校正可见度的装置，以便在与待检查的眼睛的测量位置相对应的设置位置与缩回到突出部件的外周的存储位置之间自由移动。 这样的周边还具有用于检测用于校正可见度的装置是否处于设定位置或存储位置的装置，以及用于根据检测到的装置位置，通过照明装置将照明亮度改变为要检查的眼睛的亮度的插图控制器 用于校正可见性。

公开(公告)号：US07753525B2

公开(公告)日：2010-07-13

申请号：US12269242

申请日：2008-11-12

Applicant: Takuya Hara ,  Satoshi Shimada

Inventor： Takuya Hara ,  Satoshi Shimada

IPC: A61B3/02

CPC classification number: A61B3/112 ,  A61B3/022 ,  A61B3/06 ,  A61B5/0496 ,  A61B5/7264

Abstract: A virtual sensitivity value which is obtained, variously changing a pupil diameter is measured in advance for many examinees, and volume of correction which is necessary at the time when the sensitivity value is corrected into one in a standard pupil diameter is stored as correction volume database. An apparatus has measurement means for measuring the pupil diameter of the eye to be examined, computing means for computing a shape parameter rate of the measured pupil diameter to the standard pupil diameter, and judgment means for computing volume of correction by referring to the correction volume database from the shape parameter rate and correcting the virtual sensitivity value obtained by measurement of the eye to be examined and for judging a sensitivity step of the eye to be examined.

Abstract translation: 对于许多受检者，预先测量获得的各种变化的瞳孔直径的虚拟灵敏度值，并且将灵敏度值以标准瞳孔直径校正为1时所需的校正量存储为校正体数据库 。 一种装置具有用于测量被检眼睛的瞳孔直径的测量装置，用于将所测量的瞳孔直径的形状参数率计算为标准瞳孔直径的计算装置，以及用于通过参照校正量计算校正量的判断装置 数据库，并且校正通过测量所检查的眼睛获得的虚拟灵敏度值，并判断要检查的眼睛的灵敏度步骤。

公开(公告)号：US20090190655A1

公开(公告)日：2009-07-30

申请号：US12407924

申请日：2009-03-20

Applicant: Satoshi Shimada ,  Akira Nakagawa ,  Akihiro Yamori ,  Noriaki Tsukuda

Inventor： Satoshi Shimada ,  Akira Nakagawa ,  Akihiro Yamori ,  Noriaki Tsukuda

IPC: H04N7/12

CPC classification number: H04N19/577 ,  H04N19/107 ,  H04N19/132 ,  H04N19/14 ,  H04N19/149 ,  H04N19/156 ,  H04N19/164 ,  H04N19/176 ,  H04N19/51 ,  H04N19/61

Abstract: An encoding circuit (1) encodes an input image. A thinning-out decision unit (2) determines whether or not a picture needs to be thinned out. A dummy picture storage device (4) stores a dummy picture. A dummy picture is encoded data in which all the blocks refer to the same picture, motion vectors of all the blocks are zero, and none of the blocks has prediction residual information. A reference picture selection unit (5) selects a reference picture from among a plurality of referenceable pictures. A header generating unit (7) generates a header to be added to a dummy picture. In the header, the selected reference picture is assigned to an index specifying a reference picture for the dummy picture.

Abstract translation: 编码电路（1）对输入图像进行编码。 稀疏决策单元（2）确定图片是否需要被稀疏。 虚拟图像存储装置（4）存储虚拟图像。 伪图像是其中所有块参考相同图像的编码数据，所有块的运动矢量为零，并且没有块具有预测残差信息。 参考图像选择单元（5）从多个可参照图像中选择参考图像。 标题生成单元（7）生成要添加到虚拟画面的标题。 在标题中，将所选择的参考图像分配给指定伪图像的参考图像的索引。

公开(公告)号：US07475988B2

公开(公告)日：2009-01-13

申请号：US11787400

申请日：2007-04-16

Applicant: Satoshi Shimada

Inventor： Satoshi Shimada

IPC: A61B3/02

CPC classification number: A61B3/024

Abstract: Perimeter has input means for inputting identification data of an examinee and a kind of perimetry to be conducted, means for judging whether or not the examinee has already received the perimetry, means to read examinee measurement information, means to judge whether or not a kind of inputted perimetry is different from the past perimetry, means to compute and determine initial stimulus luminance of the perimetry to be conducted from now on as a value equal to the sensitivity which is shown in sensitivity distribution data or closer thereto from the sensitivity distribution data of the past perimetry if different kind is judged, and means for starting the perimetry with the determined initial stimulus luminance.

Abstract translation: 周边具有用于输入被检体的识别数据的输入装置和要进行的一种视野检查的装置，用于判断受检者是否已经接收到视野检查的装置，读取受检测量信息的装置，判断是否有一种 输入的视野测量与过去的视野图不同，是从现在开始计算和确定要进行的视野的初始刺激亮度的值，其值等于灵敏度分布数据或更接近灵敏度分布数据所示的灵敏度， 如果判断出不同种类的过去的视野测量，以及用确定的初始刺激亮度来开始视野测量的装置。

公开(公告)号：US07414307B2

公开(公告)日：2008-08-19

申请号：US10855344

申请日：2004-05-28

Applicant: Hiromichi Ebine ,  Katsuhiko Kikuchi ,  Satoshi Shimada ,  Masahide Hayashi

Inventor： Hiromichi Ebine ,  Katsuhiko Kikuchi ,  Satoshi Shimada ,  Masahide Hayashi

IPC: H01L23/48

CPC classification number: H05K3/3442 ,  H01L2924/0002 ,  H05K3/202 ,  H05K3/284 ,  H05K2201/09036 ,  H05K2201/09745 ,  H05K2201/10636 ,  Y02P70/611 ,  Y02P70/613 ,  H01L2924/00

Abstract: An electronic device requires an electronic component to be mounted for the purpose of static shielding. The mounting of such an electronic component raises a problem of avoiding thermal stresses and cracks generated due to the difference between the coefficients of linear expansion of component materials. A positioning recess, a joining-substance thickness ensuring recess, a joining-substance thickness ensuring projection, etc. are formed in a combined manner in an electronic component mount portion of each of leads, whereby spreading of cracks generated in the joining substance can be suppressed and reliability can be improved. Filling a sealing material so as to seal and restrain the electronic component mounted in the electronic component mount portion without leaving voids contributes to further suppressing spreading of cracks generated in the joining substance and ensuring more improved reliability of the joining substance.

Abstract translation: 电子设备需要为了静电屏蔽而安装电子部件。 这种电子部件的安装提出了避免由于部件材料的线性膨胀系数之间的差异而产生的热应力和裂纹的问题。 在各引线的电子部件安装部中，以组合的方式形成定位凹部，接合物质厚度确保凹部，接合物质厚度确保凹部等，由此在接合物质中产生的裂纹的扩散可以 可以提高抑制和可靠性。 填充密封材料以密封和限制安装在电子部件安装部分中的电子部件而不留空隙有助于进一步抑制在接合物质中产生的裂纹的扩散，并确保接合物质的可靠性更好。

公开(公告)号：US20070217508A1

公开(公告)日：2007-09-20

申请号：US11497288

申请日：2006-08-02

Applicant: Satoshi Shimada ,  Akira Nakagawa ,  Hidetoshi Matsumura ,  Yasuhiro Watanabe ,  Akihiro Yamori

Inventor： Satoshi Shimada ,  Akira Nakagawa ,  Hidetoshi Matsumura ,  Yasuhiro Watanabe ,  Akihiro Yamori

IPC: H04N11/04 ,  H04B1/66

CPC classification number: H04N19/136 ,  H04N19/103 ,  H04N19/122 ,  H04N19/129 ,  H04N19/132

Abstract: The apparatus includes: orthogonal transforming means for orthogonally transforming an input video signal for each element block, quantizing means for quantizing each obtained transformation coefficient using a quantization parameter; coding means for coding the quantization parameter; decoded picture generating means for generating a reference picture signal for a motion compensation prediction from the quantized results of the quantizing means; filtering means for filtering the obtained reference picture signal at a strength corresponding to the quantization parameter when a non-zero effective transformation coefficient is present with respect to the element block; and controlling means for controlling at least anyone of transformation coefficients to be not zero, when all of the transformation coefficients are zero. This allows, even when all of the quantized results of the transformation coefficients of the element blocks are zero, coding of quantization parameter of current element block and control of filtering strength.

Abstract translation: 该装置包括：正交变换装置，用于对每个元素块的输入视频信号进行正交变换;量化装置，用于使用量化参数量化每个获得的变换系数; 用于编码量化参数的编码装置; 解码图像生成装置，用于从量化装置的量化结果生成用于运动补偿预测的参考图像信号; 滤波装置，用于当相对于所述元素块存在非零有效变换系数时，以与所述量化参数对应的强度对所获得的参考图像信号进行滤波; 以及控制装置，用于当所有变换系数为零时，将变换系数中的至少任一个控制为不为零。 这允许即使当元素块的变换系数的所有量化结果为零时，当前元素块的量化参数的编码和滤波强度的控制。

公开(公告)号：US06640642B1

公开(公告)日：2003-11-04

申请号：US09653808

申请日：2000-09-01

Applicant: Yasuo Onose ,  Atsuo Watanabe ,  Seiji Kuryu ,  Shinya Satou ,  Junichi Horie ,  Satoshi Shimada

Inventor： Yasuo Onose ,  Atsuo Watanabe ,  Seiji Kuryu ,  Shinya Satou ,  Junichi Horie ,  Satoshi Shimada

IPC: G01L912

CPC classification number: G01L9/0042 ,  G01L1/146 ,  G01L9/0073

Abstract: A pressure sensor of electric capacitance type which includes a plurality of pressure sensor units connected in parallel with one another and each formed on a substrate by an electrode, a cavity region and a diaphragm having an electrically conductive film which is disposed in opposition to the electrode with the cavity region intervening between the electrode and the diaphragm, wherein diaphragm fixing portions are disposed internally of the cavity region so that a single sheet of the diaphragm is partitionarily and regionally allotted to regions of the plural pressure sensor units, respectively. With this structure of the capacitance-type pressure sensor, ineffective region for capacitance detection is minimized and hence the parasitic capacitance can be reduced with the detection accuracy of the sensor being improved.

Abstract translation: 一种电容式压力传感器，其包括彼此并联连接的多个压力传感器单元，每个压力传感器单元通过电极形成在基板上，空腔区域和具有导电膜的隔膜，所述导电膜设置成与电极相对设置 其中腔区插入在电极和隔膜之间，其中隔膜固定部分设置在空腔区域的内部，使得隔膜的单片分别地分区地分配到多个压力传感器单元的区域。 利用电容型压力传感器的这种结构，电容检测的无效区域被最小化，因此可以随着传感器的检测精度提高而降低寄生电容。

公开(公告)号：US06377056B1

公开(公告)日：2002-04-23

申请号：US09384289

申请日：1999-08-26

Applicant: Keiji Hanzawa ,  Masahiro Matsumoto ,  Satoshi Shimada ,  Akihiko Saito ,  Yasuo Onose ,  Norio Ichikawa ,  Junichi Horie ,  Seiji Kuryu

Inventor： Keiji Hanzawa ,  Masahiro Matsumoto ,  Satoshi Shimada ,  Akihiko Saito ,  Yasuo Onose ,  Norio Ichikawa ,  Junichi Horie ,  Seiji Kuryu

IPC: G01R2726

CPC classification number: G01P15/125 ,  G01D5/24 ,  G01L9/0073 ,  G01L9/12

Abstract: Dynamic quantitative displacement is converted stably and straight into voltage (D.C. output) by using a high speed detection driving frequency without restricting a response of an operational amplifier. When a dynamic quantity detection electrostatic capacitance changes according to a dynamic quantity, electric charges stored in this element and in a reference electrostatic capacitance become unbalanced to produce a difference value, and an output of an operational amplifier changes according to the difference in electric charge quantity. However, the output becomes finally stable when the electric charges in the dynamic quantity detection electrostatic capacitance and in the reference electrostatic capacitance become equal. The output is proportional to a reciprocal of the dynamic quantity detection electrostatic capacitance and it is a D.C. voltage. Further, output without depending on integration feedback capacitance (feedback condenser) CF can be obtained.

Abstract translation: 通过使用高速检测驱动频率将动态定量位移稳定地转换成电压（直流输出），而不限制运算放大器的响应。 当动态量检测静电电容根据动态量而变化时，存储在该元件中的电荷和参考静电电容变得不均衡以产生差值，并且运算放大器的输出根据电荷量的差异而变化 。 然而，当动态量检测静电电容和参考静电电容中的电荷变得相等时，输出最终稳定。 输出与动态量检测静电电容的倒数成比例，为直流电压。 此外，可以获得不依赖积分反馈电容（反馈电容器）CF的输出。

公开(公告)号：US5877425A

公开(公告)日：1999-03-02

申请号：US771922

申请日：1996-12-23

Applicant: Seiko Suzuki ,  Masayuki Miki ,  Satoshi Shimada ,  Masahiro Matsumoto ,  Masahiro Komachiya

Inventor： Seiko Suzuki ,  Masayuki Miki ,  Satoshi Shimada ,  Masahiro Matsumoto ,  Masahiro Komachiya

IPC: G01L9/04 ,  F02D35/00 ,  G01L9/00 ,  G01L23/18 ,  G01L9/06

CPC classification number: G01L9/006 ,  G01L19/147 ,  G01L23/18 ,  G01L9/0051

Abstract: A combustion pressure sensor suitable for a highly precise combustion control system of an automobile engine and a sensing system using the sensor. The combustion pressure sensor includes a SOI substrate having a three-layered structure of a first silicon plate, a thermal oxide film, and a second silicon plate, wherein a combustion pressure is sensed on the basis of a pressure or a force applied to the first silicon plate.

Abstract translation: 适用于汽车发动机的高精度燃烧控制系统的燃烧压力传感器和使用该传感器的感测系统。 燃烧压力传感器包括具有第一硅板，热氧化膜和第二硅板的三层结构的SOI衬底，其中基于施加到第一硅板的压力或力来感测燃烧压力 硅板。