公开(公告)号：US20120274830A1

公开(公告)日：2012-11-01

申请号：US13454848

申请日：2012-04-24

Applicant: Makoto Kameyama ,  Koji Yoshida

Inventor： Makoto Kameyama ,  Koji Yoshida

IPC: H04N5/235

CPC classification number: H04N5/23209 ,  H04N5/23212 ,  H04N5/35536

Abstract: An imaging apparatus performs information display according to an appropriate display type considering imaging conditions. The imaging apparatus includes a display type setting unit to set any one of a plurality of display types as a display type for an information display to be displayed together with a through image, a mode setting unit to set a multiple-exposure imaging mode, a control unit to perform a control, when the multiple-exposure imaging mode is set and an image to be multiple-composited with the through image can be acquired, to change the display type to a display type dedicated to the multiple-exposure imaging mode for displaying at least one of the number of multiple-exposure image capturing scheduled images, the number of multiple-exposure image capturing completed images, the number of images remaining to reach the number of multiple-exposure image capturing scheduled images, and an icon indicating that the multiple-exposure imaging mode is set.

Abstract translation: 考虑成像条件，成像装置根据适当的显示类型进行信息显示。 成像装置包括：显示型设置单元，用于将多个显示类型中的任一个设置为用于与直通图像一起显示的信息显示的显示类型;模式设置单元，用于设置多曝光成像模式; 控制单元执行控制，当设置多曝光成像模式并且可以获取与直通图像多次复合的图像时，将显示类型改变为专用于多曝光成像模式的显示类型， 显示多曝光图像拍摄预定图像的数量，多曝光图像拍摄完成图像的数量，到达多曝光图像捕获调度图像的数量的剩余图像数量中的至少一个以及指示 设置多曝光成像模式。

公开(公告)号：US20120257724A1

公开(公告)日：2012-10-11

申请号：US13516930

申请日：2009-12-18

Applicant: Toshiaki Nakamura ,  Hiroshi Inoue ,  Koji Yoshida

Inventor： Toshiaki Nakamura ,  Hiroshi Inoue ,  Koji Yoshida

IPC: A61B6/04

CPC classification number: A61B6/0414 ,  A61B6/4464

Abstract: An X-ray apparatus in this example of the invention includes a compression unit that enables to move independently of an X-ray tube supporting device and an X-ray detector for compressing a region of interest of a subject; and a connecting part for connecting the X-ray detector to the compression unit and disconnecting the X-ray detector from the compression unit. Consequently, when the compression unit is not used, the compression unit is located in a retracted position. Thus a space can be secured around the subject placed on a top board. On the other hand, when the compression unit is used, the connecting part connects the X-ray detector to the compression unit. Thereby a compression member of the compression unit can always press a site of interest of the subject at the center of a detecting surface of the X-ray detector.

Abstract translation: 在本发明的这个例子中的X射线装置包括能够独立于X射线管支撑装置移动的压缩单元和用于压缩对象的感兴趣区域的X射线检测器; 以及用于将X射线检测器连接到压缩单元并将X射线检测器与压缩单元断开的连接部。 因此，当不使用压缩单元时，压缩单元位于缩回位置。 因此，可以在放置在顶板上的被摄体周围确保空间。 另一方面，当使用压缩单元时，连接部将X射线检测器与压缩单元连接。 因此，压缩单元的压缩构件可以总是在X射线检测器的检测表面的中心处按压被检体的感兴趣部位。

公开(公告)号：US08271275B2

公开(公告)日：2012-09-18

申请号：US11915617

申请日：2006-05-29

Applicant: Michiyo Goto ,  Koji Yoshida

Inventor： Michiyo Goto ,  Koji Yoshida

IPC: G10L19/12

CPC classification number: G10L19/24 ,  G10L19/008 ,  G10L19/08 ,  G10L19/12

Abstract: A scalable encoding device capable of reducing an encoding rate to reduce a circuit scale while preventing sound quality deterioration of a decoded signal. An extension layer is coarsely divided into a system for processing a first channel and a system for processing a second channel. A sound source predictor for processing the first channel predicts a drive sound source signal of the first channel from a drive sound source signal of a monaural signal, and outputs the predicted drive sound source signal through a multiplier to a first CELP encoder. A sound source predictor for processing the second channel predicts the drive sound source signal of the second channel from the drive sound source signal of the monaural signal and the output from the first CELP encoder, and outputs the predicted drive sound source signal through a multiplier to a second CELP encoder. The first and second CELP encoders perform CELP encoding operations of the individual channels using individual predicted drive sound source signals.

Abstract translation: 一种可降低编码速率以缩小电路规模同时防止解码信号的声音劣化的可扩展编码装置。 扩展层被粗略地划分为用于处理第一信道的系统和用于处理第二信道的系统。 用于处理第一通道的声源预测器从单声道信号的驱动声源信号预测第一通道的驱动声源信号，并通过乘法器将预测的驱动声源信号输出到第一CELP编码器。 用于处理第二通道的声源预测器从单声道信号的驱动声源信号和来自第一CELP编码器的输出预测第二通道的驱动声源信号，并通过乘法器将预测的驱动声源信号输出到 第二个CELP编码器。 第一和第二CELP编码器使用个别预测的驱动声源信号执行各个通道的CELP编码操作。

公开(公告)号：US08255213B2

公开(公告)日：2012-08-28

申请号：US12373085

申请日：2007-07-11

Applicant: Koji Yoshida ,  Hiroyuki Ehara

Inventor： Koji Yoshida ,  Hiroyuki Ehara

IPC: G10L19/00

CPC classification number: G10L19/005

Abstract: A sound decoding device is capable of improving the lost frame compensation performance and improving quality of the decoded sound. A rise frame sound source compensation unit generates a compensation sound source signal when the current frame is a lost frame and a rise frame. An average sound source pattern update unit updates the average sound source pattern held in an average sound source pattern holding unit over a plurality of frames. When a frame is lost, an LPC synthesis unit performs LPC synthesis on a decoded sound source signal by using the compensation sound source signal inputted via a switching unit and a decoded LPC parameter from an LPC decoding unit and outputs the compensation decoded sound signal.

Abstract translation: 声音解码装置能够改善丢失的帧补偿性能并提高解码声音的质量。 上升帧声源补偿单元当当前帧是丢失帧和上升帧时产生补偿声源信号。 平均声源图案更新单元通过多个帧来更新保持在平均声源图案保持单元中的平均声源图案。 当帧丢失时，LPC合成单元通过使用经由切换单元输入的补偿声源信号和来自LPC解码单元的解码LPC参数对解码的声源信号执行LPC合成，并输出补偿解码声音信号。

公开(公告)号：US08229749B2

公开(公告)日：2012-07-24

申请号：US11721358

申请日：2005-12-09

Applicant: Hiroyuki Ehara ,  Koji Yoshida ,  Toshiyuki Morii

Inventor： Hiroyuki Ehara ,  Koji Yoshida ,  Toshiyuki Morii

IPC: G10L13/00 ,  G10L19/00 ,  G10L21/04

CPC classification number: G10L19/24 ,  G10L19/07 ,  G10L21/038

Abstract: There is provided a wide-band LSP prediction device and others capable of predicting a wide-band LSP from a narrow-band LSP with a high quantization efficiency and a high accuracy while suppressing the size of a conversion table correlating the narrow-band LSP to the wide-band LSP. In this device, a non-linear prediction unit (102) performs non-linear prediction by using a converted wide-band LSP inputted from a narrow-band/wide-band conversion unit (101) and inputs the non-linear prediction result to an amplifier (103). The converted wide-band LSP is inputted to an amplifier (104). An adder (122) adds multiplication results (vectors) inputted from the amplifiers (103, 104).

Abstract translation: 提供了一种宽带LSP预测装置和其他能够在抑制与窄带LSP相关联的转换表的大小的同时以高量化效率和高精度预测来自窄带LSP的宽带LSP的方法 宽带LSP。 在该装置中，非线性预测单元（102）通过使用从窄带/宽带转换单元（101）输入的转换宽带LSP进行非线性预测，并将非线性预测结果输入到 放大器（103）。 转换的宽带LSP被输入到放大器（104）。 加法器（122）将从放大器（103,104）输入的相乘结果相加。

公开(公告)号：US08209168B2

公开(公告)日：2012-06-26

申请号：US11628045

申请日：2005-05-20

Applicant: Koji Yoshida

Inventor： Koji Yoshida

IPC: G10L19/00 ,  G10L19/14 ,  G10L21/02

CPC classification number: G10L19/005 ,  G10L19/008

Abstract: An audio data transmitting/receiving apparatus for realizing a high-quality frame compensation in audio communications. In an audio data transmitting apparatus (10), a delay part (104) subjects multi-channel audio data to a delay process that delays the L-ch encoded data relative to the R-ch encoded data by a predetermined delay amount. A multiplexing part (106) multiplexes the audio data as subjected to the delay process. A transmitting part (108) transmits the audio data as multiplexed. In an audio data receiving apparatus (20), a separating part (114) separates, for each channel, the audio data received from the audio data transmitting apparatus (10). A decoding part (118) decodes, for each channel, the audio data as separated. If there has occurred a loss or error in the audio data as separated, then a frame compensating part (120) uses one of the L-ch and R-ch encoded data to compensate for the loss or error in the other encoded data.

Abstract translation: 一种用于在音频通信中实现高质量帧补偿的音频数据发送/接收装置。 在音频数据发送装置（10）中，延迟部分（104）对多声道音频数据进行延迟处理，该延迟处理使L-ch编码数据相对于R-ch编码数据延迟预定的延迟量。 复用部分（106）对经过延迟处理的音频数据进行复用。 发送部（108）发送多路复用的音频数据。 在音频数据接收装置（20）中，分离部分（114）针对每个信道分离从音频数据发送装置（10）接收的音频数据。 解码部分（118）对于每个声道解码分离的音频数据。 如果分离出音频数据中的丢失或错误，则帧补偿部分（120）使用L-ch和R-ch编码数据中的一个来补偿其他编码数据中的丢失或错误。

公开(公告)号：US20120113324A1

公开(公告)日：2012-05-10

申请号：US13382691

申请日：2010-07-09

Applicant: Toshikazu Yoshida ,  Hideaki Ozawa ,  Mitsuru Ikeda ,  Hidetoshi Kurihara ,  Koji Yoshida ,  Masaru Shimanuki ,  Tadashi Imai

Inventor： Toshikazu Yoshida ,  Hideaki Ozawa ,  Mitsuru Ikeda ,  Hidetoshi Kurihara ,  Koji Yoshida ,  Masaru Shimanuki ,  Tadashi Imai

IPC: H04N5/46 ,  H04N5/455

CPC classification number: H04B1/18 ,  H04N5/455 ,  H04N5/46 ,  H04N21/40

Abstract: The present invention relates to a receiver capable of reducing influence of disturbance waves and capable of receiving analog and digital broadcast signals without interference with a single front end module, without leading to complexity of the configuration.A receiver 10 includes, on a module board 11, a first terrestrial wave tuner 16 and second terrestrial wave tuner 17 which receive broadcast signals of a first frequency band, and a first satellite wave tuner 14 which receives broadcast signals of a second frequency band different from the first frequency band, with the first satellite wave tuner 14 being situated between the first terrestrial wave tuner 16 and the second terrestrial wave tuner 17. The present invention can be applied to receivers receiving broadcast signals of different frequency bands, for example.

Abstract translation: 本发明涉及能够减少干扰波的影响并能够接收模拟和数字广播信号而不干扰单个前端模块的接收机，而不会导致配置的复杂性。 接收机10在模块板11上包括接收第一频带的广播信号的第一地面波调谐器16和第二地面波调谐器17以及第一卫星波调谐器14，其接收不同的第二频带的广播信号 第一卫星波调谐器14位于第一地面波调谐器16和第二地面波调谐器17之间。本发明可以应用于例如接收不同频带的广播信号的接收机。

公开(公告)号：US20120074731A1

公开(公告)日：2012-03-29

申请号：US13322928

申请日：2010-03-16

Applicant: Koji Yoshida

Inventor： Koji Yoshida

IPC: B62D25/00

CPC classification number: B62D25/082 ,  B62D25/2018

Abstract: An object of the invention is to provide a front side member structure that can improve yield strength against a moment generated due to a vehicle collision and the like.A front side member structure according to the invention is provided at a lower portion of a vehicle so as to extend in a longitudinal direction of the vehicle and is used to form a frame of the vehicle. The front side member structure includes an under portion that extends in the longitudinal direction, and a kick portion that is provided at a front portion of the under portion and extends forward and upward. A front contour of the kick portion in the side view of the kick portion is inclined at an angle closer to a right angle than a rear contour of the kick portion in the side view of the kick portion. Accordingly, it is possible to reduce the cross section of a kick member at an upper portion of the kick member where a moment generated due to a vehicle collision and the like is small, and to increase the cross section of the kick member at a lower portion of the kick member where a generated moment is large. Therefore, it is possible to increase yield strength against a moment at a portion where a generated moment is large. As a result, it is possible to achieve the above-mentioned object.

Abstract translation: 本发明的目的是提供一种能够提高由于车辆碰撞等而产生的力矩的屈服强度的前侧构件结构。 根据本发明的前侧构件结构设置在车辆的下部，以沿着车辆的纵向方向延伸并且用于形成车辆的框架。 前侧构件结构包括在纵向方向上延伸的下部，以及设置在下部的前部并向前和向上延伸的踢脚部。 在踢脚部的侧视图中，踢脚部的侧视图中的踢脚部的前轮廓以比踢脚部的后轮廓更直接的角度倾斜。 因此，可以减少由于车辆碰撞等而产生的力矩小的踢脚架的上部的脚蹬构件的横截面，并且将脚蹬构件的横截面增大到较低 产生力矩大的踢脚件的一部分。 因此，可以在产生的力矩大的部分的瞬间增加屈服强度。 结果，可以实现上述目的。

公开(公告)号：US20120056447A1

公开(公告)日：2012-03-08

申请号：US13131981

申请日：2009-12-25

Applicant: Koji Yoshida

Inventor： Koji Yoshida

IPC: B62D25/08

CPC classification number: B62D21/155 ,  B62D21/152

Abstract: A vehicle front structure related to the invention includes a front side member having a kick section extending obliquely downward toward the rear, a member front half section, and a member rear half section. A sub-frame juxtaposed below the front side member abuts on the member rear half section. A rear end portion of the sub-frame is formed with a first inclination portion which extends obliquely downward toward the rear and abuts on the front side member. The front side member 1 is formed with a second inclination portion which abuts on the first inclination portion. The first inclination portion is held so as to be movable relative to the second inclination portion.

Abstract translation: 与本发明相关的车辆前部结构包括：前侧部件，具有向后方倾斜向下延伸的踢脚部，前半部，前后半部。 在前侧构件下方并列的子框架抵靠在构件后半部分上。 副框架的后端部形成有向后方倾斜向下延伸且与前侧构件抵接的第一倾斜部。 前侧构件1形成有与第一倾斜部抵接的第二倾斜部。 第一倾斜部被保持成能够相对于第二倾斜部移动。

公开(公告)号：US08127501B2

公开(公告)日：2012-03-06

申请号：US12449724

申请日：2008-04-15

Applicant: Makoto Nakao ,  Koji Yoshida

Inventor： Makoto Nakao ,  Koji Yoshida

IPC: B60J5/04

CPC classification number: B60R13/04 ,  B60J5/0402

Abstract: A garnish has an upper mounting projection concealed by a corner pad and a lower mounting projection concealed by a lower end of a vertical sash portion. The upper mounting projection is mounted in an upper mounting hole of the vertical sash portion. The lower mounting projection is mounted in a lower mounting hole of an outer panel. The upper mounting hole is concealed by the corner pad, and the lower mounting hole is concealed by the lower end of the vertical sash portion. This ensures a high quality appearance of the garnish without employing additional materials or components. Also, the garnish is mounted in a front door without reducing the surface area of the corresponding window of the vehicle.

Abstract translation: 装饰具有由角落垫隐藏的上部安装突起和由垂直窗框部分的下端隐藏的下部安装突出部。 上安装突起安装在垂直窗框部分的上安装孔中。 下安装突起安装在外板的下安装孔中。 上安装孔由角垫隐藏，下安装孔由垂直窗框部分的下端隐藏。 这确保了装饰品的高品质外观，而不需要额外的材料或部件。 此外，装饰件安装在前门中，而不会减小车辆的相应窗口的表面积。