公开(公告)号：US20100162095A1

公开(公告)日：2010-06-24

申请号：US11993532

申请日：2006-06-26

Applicant: Masaki Tsujii ,  Takashi Yoshida

Inventor： Masaki Tsujii ,  Takashi Yoshida

IPC: G06F3/048 ,  G06F17/30 ,  G06F3/14 ,  G06F15/16

CPC classification number: G06F16/951 ,  G06F16/958

Abstract: A technique is provided which improves the ease-of-use of the screen which integrally displays multiple content.A content integrating unit integrally displays a Web page acquired from a Web server, an interface which allows the user to transmit a query to a search service provided by a search engine, search results received from the search engine, etc., on a single content integrating screen. The content integrating unit extracts a predetermined word from the Web page acquired from the Web server, and uses the word thus extracted as a search keyword for the search engine. The content integrating unit provides data sharing among the content displayed on the content integrating screen.

Abstract translation: 提供了一种技术，其提高了整体显示多个内容的屏幕的易用性。 内容整合单元整体地显示从Web服务器获取的网页，允许用户向搜索引擎提供的搜索服务发送查询的接口，从搜索引擎接收的搜索结果等的单个内容 整合屏幕。 内容整合单元从Web服务器获取的网页中提取预定单词，并使用如此提取的单词作为搜索引擎的搜索关键词。 内容整合单元在内容集成屏幕上显示的内容之间提供数据共享。

公开(公告)号：US07742572B2

公开(公告)日：2010-06-22

申请号：US12099580

申请日：2008-04-08

Applicant: Miho Inuga ,  Takashi Yoshida

Inventor： Miho Inuga ,  Takashi Yoshida

IPC: H05G1/38

CPC classification number: A61B6/542 ,  A61B6/4441

Abstract: In a X-ray imaging apparatus an estimation unit estimates a cumulative exposure dose of X-rays irradiated onto an object, and a remaining exposure tolerance dose calculation unit calculates a remaining exposure tolerance dose using a difference between a tolerated maximum exposure dose and the cumulative exposure dose. A X-ray irradiation tolerance period calculation unit calculates an X-ray irradiation tolerance period using a difference between a predetermined scheduled X-ray irradiation period and an actual irradiation period of X-rays irradiated onto the object, an X-ray irradiation reference dose calculation unit calculates reference dose per unit time that will form a basis for irradiation based on the remaining exposure tolerance dose and the X-ray irradiation tolerance period, and a control unit that controls X-ray irradiation of the object by setting dose per unit time within the X-ray irradiation tolerance period based on the reference dose.

Abstract translation: 在X射线摄像装置中，估计单元估计照射到物体上的X射线的累积曝光剂量，剩余曝光容忍剂量计算单元使用容许最大曝光剂量与累积 暴露剂量。 X射线照射容许期间计算部使用预定的X射线照射期间和照射在被检体上的X射线的实际照射期间的差来计算X射线照射容许期间，X射线照射参照剂量 计算单元基于剩余的暴露容忍剂量和X射线照射耐受时间计算将形成基于照射的基准剂量的单位时间的控制单元，以及通过设定每单位时间的剂量来控制物体的X射线照射的控制单元 在X射线照射耐受期内，基于参考剂量。

公开(公告)号：US20100140003A1

公开(公告)日：2010-06-10

申请号：US12733176

申请日：2008-10-31

Applicant: Subrata Saha ,  Takashi Yoshida ,  Daisuke Ogino ,  Jin Izawa ,  Yoshinori Oono

Inventor： Subrata Saha ,  Takashi Yoshida ,  Daisuke Ogino ,  Jin Izawa ,  Yoshinori Oono

IPC: B60W20/00 ,  H02P27/08 ,  H02P6/14 ,  H02P6/08

CPC classification number: B60L15/025 ,  B60L15/08 ,  B60L2210/12 ,  B60L2210/14 ,  B60L2210/42 ,  B60L2240/421 ,  B60L2240/423 ,  H02P21/0089 ,  Y02T10/643 ,  Y02T10/7225 ,  Y02T10/7233 ,  Y02T10/7241 ,  Y02T90/16

Abstract: An electric motor control device includes an inverter that supplies an output of a primary-side DC power supply to an electric motor to control driving of the electric motor; a converter that includes a voltage increasing power supply device that increases a voltage of the primary-side DC power supply to supply the inverter with the increased voltage as a secondary voltage, and a regenerative power supply device that reversely supplies regenerative power from the inverter to the primary-side DC power supply; a secondary-side target voltage determination unit; a converter control unit; and an electric motor control unit.

Abstract translation: 电动机控制装置包括逆变器，其将初级侧直流电源的输出提供给电动机，以控制电动机的驱动; 一个转换器，包括一个增压电源装置，该电压增加电源装置增加一次侧直流电源的电压，以提供作为次级电压的增加的电压来提供逆变器;以及再生电源装置，其将来自逆变器的再生电力反向提供给 初级侧直流电源; 次级侧目标电压确定单元; 转换器控制单元; 和电动机控制单元。

公开(公告)号：US07620152B2

公开(公告)日：2009-11-17

申请号：US11965905

申请日：2007-12-28

Applicant: Takashi Yoshida

Inventor： Takashi Yoshida

IPC: H05G1/44

CPC classification number: A61B6/00 ,  A61B6/542

Abstract: An X-ray imaging apparatus includes an X-ray intensity designation unit which designates an emitted X-ray intensity of X-rays applied to a target, an X-ray exposure control unit which compares a predetermined recommended X-ray intensity with the emitted X-ray intensity designated by the X-ray intensity designation unit to determine whether the emitted X-ray intensity becomes equal to or more than the recommended X-ray intensity, and a warning generating unit which generates a warning signal indicating that the emitted X-ray intensity becomes equal to or more than the recommended X-ray intensity, on the basis of the determination made by the X-ray exposure control unit.

Abstract translation: X射线成像装置包括：X射线强度指定单元，其指定施加到目标的X射线的X射线强度; X射线曝光控制单元，其将预定推荐的X射线强度与发射的X射线强度进行比较; 由X射线强度指定单元指定的X射线强度，以确定发射的X射线强度是否等于或大于推荐的X射线强度;以及警告生成单元，其生成表示发射的X 基于由X射线曝光控制单元进行的确定，射线强度变得等于或大于推荐的X射线强度。

公开(公告)号：US20090146865A1

公开(公告)日：2009-06-11

申请号：US12088160

申请日：2006-10-06

Applicant: Yutaka Watanabe ,  Takashi Yoshida

Inventor： Yutaka Watanabe ,  Takashi Yoshida

IPC: G01S13/93

CPC classification number: G01S13/50 ,  G01S13/931 ,  G01S2013/9353 ,  G01S2013/9375 ,  G01S2013/9389

Abstract: Provided is a radar apparatus, which is mounted in a movable body, for detecting an obstacle in the vicinity of the movable body. The radar apparatus comprises a transmitting section (201), a receiving section (202), a velocity acquisition section (204), a reference signal acquisition section (205), and a signal processing section (203). The transmitting section (201) transmits a radar beam into which a transmission signal is modulated by a predetermined frequency. The receiving section (202) receives a reception signal into which the radar beam, which is transmitted from the transmitting section (201) and then is reflected by the obstacle, is demodulated by the predetermined frequency. The velocity acquisition section (204) obtains a velocity of the movable body. The reference signal acquisition section (205) obtains the reception signal as a reference signal in the case where the velocity obtained by the velocity acquisition section (204) is equal to or greater than a predetermined value. The signal processing section (203) detects the obstacle by using the reception signal and the reference signal.

Abstract translation: 提供一种雷达装置，其安装在可移动体中，用于检测可移动体附近的障碍物。 雷达装置包括发射部分（201），接收部分（202），速度获取部分（204），参考信号获取部分（205）和信号处理部分（203）。 发送部（201）发送以预定频率对发送信号进行了调制的雷达波束。 接收部（202）接收从发送部（201）发送的雷达光束然后被障碍物反射的接收信号，以预定频率进行解调。 速度获取部（204）获得移动体的速度。 在由速度获取部（204）获得的速度为规定值以上的情况下，基准信号取得部（205）取得作为基准信号的接收信号。 信号处理部（203）通过使用接收信号和参考信号来检测障碍物。

公开(公告)号：US20090123051A1

公开(公告)日：2009-05-14

申请号：US12269226

申请日：2008-11-12

Applicant: Shunichi Tamai ,  Takashi Yoshida

Inventor： Shunichi Tamai ,  Takashi Yoshida

IPC: G06K9/00

CPC classification number: G06K9/209 ,  A61B6/4233 ,  A61B6/488 ,  A61B6/541 ,  A61B6/542 ,  G06K2209/051

Abstract: The continuous image capturing of a subject is performed with small doses of radiation. A plurality of auxiliary images obtained by the continuous image capturing is stored. On the basis of the stored auxiliary images, the periodicity of motion of the subject is detected. A pseudo image is generated from the auxiliary images exhibiting the detected periodicity. The generated pseudo image is analyzed. On the basis of the analysis result, an image capturing parameter used for the main image capturing of a still image of the subject is calculated. Using the calculated image capturing parameter, the main image capturing of the still image of the subject is performed.

Abstract translation: 用小剂量的辐射进行受试者的连续图像捕获。 存储通过连续图像捕获获得的多个辅助图像。 基于存储的辅助图像，检测被摄体的运动周期。 从显示检测到的周期性的辅助图像生成伪图像。 分析生成的伪图像。 基于分析结果，计算用于被摄体的静止图像的主图像拍摄的图像拍摄参数。 使用所计算的图像拍摄参数，执行被摄体的静止图像的主图像拍摄。

公开(公告)号：US20090104531A1

公开(公告)日：2009-04-23

申请号：US12297455

申请日：2007-04-18

Applicant: Kazuyuki Tanino ,  Reiko Sasaki ,  Takashi Yoshida ,  Yoshihiro Kawakami

Inventor： Kazuyuki Tanino ,  Reiko Sasaki ,  Takashi Yoshida ,  Yoshihiro Kawakami

IPC: H01M4/40

CPC classification number: H01M4/525 ,  H01M4/02 ,  H01M4/136 ,  H01M4/364 ,  H01M4/625 ,  H01M10/0525 ,  H01M2004/021

Abstract: The positive electrode active material powder of the present invention is a positive electrode active material powder, including primary particles and aggregated particles of primary particles, wherein an average particle diameter of primary particles and aggregated particles of primary particles in the powder is 0.1 μm or more and 3 μm or less on a volume basis, the percentage of [volumetric sum of particles having a particle diameter of 5 μm or more]/[volumetric sum of entire particles] is 10% or less, and a BET specific surface area of the powder is more than 2 m2/g and 7 m2/g or less. When this positive electrode active material powder is used for a nonaqueous electrolyte secondary battery, it becomes possible to exhibit a high discharge capacity and also exhibit a high output at a high current rate.

Abstract translation: 本发明的正极活性物质粉末是包含一次粒子和一次粒子的凝集粒子的正极活性物质粉末，其中一次粒子的平均粒径和粉末中的一次粒子的凝集粒子为0.1μm以上 和3μm以下，[粒径为5μm以上的粒子的体积之和] / [全粒子的体积和]的百分比为10％以下，BET比表面积为 粉末超过2m 2 / g和7m 2 / g以下。 当该正极活性物质粉末用于非水电解质二次电池时，可以表现出高放电容量，并且在高电流速率下也表现出高的输出。

公开(公告)号：US20090046911A1

公开(公告)日：2009-02-19

申请号：US12180843

申请日：2008-07-28

Applicant: CHIZURU INOUE ,  Takashi Yoshida

Inventor： CHIZURU INOUE ,  Takashi Yoshida

IPC: G06K9/00

CPC classification number: A61B6/504 ,  A61B6/481

Abstract: A radiation imaging apparatus detects the density distribution of an image formed by a radiopaque dye from each of two images obtained by radiation imaging. The apparatus predicts the moving speed of the image formed by the radiopaque dye based on the moving amount of the detected density distribution and the interval between the radiographing times of the two images, and determines the next timing of radiation imaging based on the predicted moving speed and the detected density distribution. A radiation imaging apparatus detects the density distribution of a radiopaque dye in an image obtained by X-ray radiation imaging and predicts the moving speed of the radiopaque dye based on the change amount of the density distribution. The radiation imaging apparatus determines the X-ray irradiation timing based on the predicted radiopaque dye moving speed, the detected radiopaque dye density distribution, and a predetermined radiopaque dye density.

Abstract translation: 辐射成像装置通过放射线成像获得的两个图像中的每一个图像检测由不透射线染料形成的图像的密度分布。 该装置基于检测到的浓度分布的移动量和两幅图像的摄影时间之间的间隔来预测由不透射线的染料形成的图像的移动速度，并且基于预测的移动速度来确定下一个放射成像定时 和检测到的密度分布。 辐射成像装置检测通过X射线照射成像获得的图像中的不透射线染料的密度分布，并且基于浓度分布的变化量预测不透射线染料的移动速度。 放射线摄影装置基于预测的不透射线染色剂移动速度，检测出的不透射线染料密度分布和预定的不透射线染色密度来确定X射线照射正时。

公开(公告)号：US07481861B2

公开(公告)日：2009-01-27

申请号：US11557724

申请日：2006-11-08

Applicant: Yohji Nakajima ,  Hiroaki Yamamoto ,  Takashi Yoshida ,  Hiroyuki Goto

Inventor： Yohji Nakajima ,  Hiroaki Yamamoto ,  Takashi Yoshida ,  Hiroyuki Goto

IPC: B01D45/00

CPC classification number: B01D46/2411 ,  B01D45/04 ,  B01D46/003 ,  B01D46/4272

Abstract: A liquid trap device for gas includes a trap housing and a liquid filter disposed in the trap housing. The liquid filter includes an upper end wall having an opening communicating with a gas inlet, a lower end wall and a cylindrical filter element providing a connection between the upper end wall and the lower end wall. An inflow guide tube is disposed in the filter element, the inflow guide tube having a uniform path area and extending from the opening to the lower end wall so as to guide gas flowing into the gas inlet into the filter element. A distance between a lower end of the inflow guide tube and the lower end wall is set at 20 mm or less. Thus, the liquid trap device for gas has a high performance for trapping liquid.

Abstract translation: 用于气体的液体捕集器包括设置在捕集器壳体中的捕集器壳体和液体过滤器。 液体过滤器包括具有与气体入口连通的开口的上端壁，下端壁和提供上端壁和下端壁之间的连接的圆柱形过滤器元件。 入口引导管设置在过滤元件中，流入引导管具有均匀的路径区域，并且从开口延伸到下端壁，以便引导流入进入过滤元件的气体入口的气体。 流入引导管的下端与下端壁之间的距离设定为20mm以下。 因此，用于气体的液体捕集装置具有用于捕获液体的高性能。

公开(公告)号：US07466017B2

公开(公告)日：2008-12-16

申请号：US11385905

申请日：2006-03-22

Applicant: Takashi Yoshida ,  Kazuhiko Nagano ,  Yoji Okazaki

Inventor： Takashi Yoshida ,  Kazuhiko Nagano ,  Yoji Okazaki

IPC: H01L33/00 ,  H01L23/02

CPC classification number: G02B6/4204 ,  G02B6/4238 ,  G02B6/4249 ,  H01L2224/48091 ,  H01L2224/48247 ,  H01S5/005 ,  H01S5/02208 ,  H01S5/02272 ,  H01S5/02284 ,  H01S5/4012 ,  H01S5/4031 ,  H01L2924/00014

Abstract: A laser apparatus includes: one or more semiconductor lasers emitting one or more laser beams; an optical fiber; an optical condensing system which makes the one or more laser beams enter the optical fiber from a light-entrance end of the optical fiber; and a package which fixedly contains the optical condensing system and the one or more semiconductor lasers, and fixedly holds the optical fiber in such a manner that the light-entrance end faces the optical condensing system. The one or more semiconductor lasers are directly or indirectly fixed to the package with solder, and the one or more optical components are directly or indirectly fixed to the package with a thin layer of adhesive having a thickness of less than or equal to 1 micrometer, and preferably a thickness within a range of 0.2 micrometers to 1 micrometer after being dried.

Abstract translation: 激光装置包括：发射一个或多个激光束的一个或多个半导体激光器; 光纤; 光聚合系统，其使得所述一个或多个激光束从所述光纤的光入射端进入所述光纤; 以及固定地包含所述光学聚光系统和所述一个或多个半导体激光器的封装，并以使得所述光入射端面向所述光学聚光系统的方式固定地保持所述光纤。 一个或多个半导体激光器用焊料直接或间接地固定到封装上，并且一个或多个光学部件用厚度小于或等于1微米的薄层粘合剂直接或间接地固定到封装上， 优选干燥后的厚度在0.2微米至1微米的范围内。