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    • 72. 发明申请
    • TAMPON
    • US20100174262A1
    • 2010-07-08
    • US12663808
    • 2008-06-10
    • Hitoshi WatanabeHideki Kondo
    • Hitoshi WatanabeHideki Kondo
    • A61F13/34A61F13/20
    • A61F13/2062A61F13/206A61F13/2065A61F13/2085A61F13/34Y10S604/904
    • It is intended to provide a tampon wherein a string-shaped member is bonded to a cylindrical absorbent in the state of not being exposed on the absorbent surface. A tampon comprising an absorbent (2), which is obtained by molding a sheet member into a cylindrical shape, and a string-shaped member (4) which is bonded to the absorbent (2) and extends from one end of the absorbent (2). The string-shaped member (4) has a first string part which is bonded along the first direction of one face of the sheet member constituting the absorbent (2) and a second string part which extends from the sheet member. A first folding part is formed in one side of the second direction that is perpendicular to the first direction of the first string member, while a second folding part is formed in the other side of the second direction. Owing to this constitution, the absorbent (2) is deformed by bending respectively from the first folding part and the second folding part and thus molded into a cylindrical shape from which the first string part is not exposed.
    • 旨在提供一种止血塞,其中在不暴露在吸收性表面上的状态下,将线状构件结合到圆柱形吸收体。 一种棉塞,其包括通过将片状部件成型为圆筒形而获得的吸收体(2)和与吸收体(2)接合并从吸收体(2)的一端延伸的线状部件 )。 线状构件(4)具有沿着构成吸收体(2)的片状构件的一面的第一方向的第一串部和从片状部件延伸的第二线部。 第一折叠部分形成在垂直于第一绳构件的第一方向的第二方向的一侧,而第二折叠部分形成在第二方向的另一侧。 由于这种结构,吸收体(2)通过分别从第一折叠部分和第二折叠部分弯曲变形,并且因此被模制成圆柱形状,第一弦部分不暴露于其中。
    • 74. 发明授权
    • Methods for adaptively selecting entropy encoding modes
    • 自适应选择熵编码模式的方法
    • US07525456B2
    • 2009-04-28
    • US11404192
    • 2006-04-14
    • Hitoshi Watanabe
    • Hitoshi Watanabe
    • H03M7/34
    • H04N19/174H04N19/12H04N19/13H04N19/91
    • The presently preferred methods of the present invention take advantage of the syntax structure of H.264 and adaptively switch the entropy coding mode between CABAC and CAVLC. In those profiles of H.264 where CABAC is supported such as the Main profile and the High profiles (HP, Hi10, Hi422, Hi444), the entropy coding mode to be used is specified via a picture parameter set (“PPS”), where a particular PPS is specified for each slice in its header (“slice header”). The encoders of the present invention provide a multiple-PPS for both the CAVLC and CABAC, so that bitstreams are produced by both CAVLC and CABAC. CAVLC, having a simpler algorithm structure, is implemented as a part of the video pipe, where each single video pipe stage is designed to operate within a pre-defined number of clock cycles. The video pipe generates SE at pre-scheduled instances buffered in FIFO. The SE serves as input to CABAC, where CABAC encodes the SE in an event-driven fashion. During this process, CABAC is monitored to determine if the CABAC engine is able to keep up with the video pipe. The video pipe, implemented using CAVLC, by design will complete the encoding process within the allotted time. However, CABAC, although having better encoding efficiency and where its generated output is more desirable, its encoding completion time is uncertain and may require more time than it is allowed. Thus if CABAC cannot complete the encoding process within the allotted time, the bitstream generated by CABAC would not be complete and it cannot be used. If CABAC can complete the encoding process within the allotted time, the CABAC engine would be allowed to complete the encoding process and its generated output would be used as the bitstream of choice.
    • 本发明目前优选的方法利用H.264的语法结构,并自适应地切换CABAC与CAVLC之间的熵编码模式。 在支持CABAC的H.264的配置文件中,例如主配置文件和高配置文件(HP,Hi10,Hi422,Hi444),通过图像参数集(“PPS”)指定要使用的熵编码模式, 其中为其标题(“片头”)中的每个片指定特定PPS。 本发明的编码器为CAVLC和CABAC提供多个PPS,从而由CAVLC和CABAC两者产生比特流。 具有更简单的算法结构的CAVLC被实现为视频管道的一部分,其中每个单个视频管道级被设计为在预定数量的时钟周期内操作。 视频管道以预先安排的实例在FIFO中进行缓冲生成SE。 SE作为CABAC的输入,CABAC以事件驱动的方式对SE进行编码。 在此过程中,CABAC被监控以确定CABAC引擎是否能跟上视频管道。 使用CAVLC实现的视频管道将在规定的时间内完成编码过程。 然而,CABAC虽然具有更好的编码效率,而其产生的输出更为理想,但其编码完成时间是不确定的,并且可能需要比允许的更多的时间。 因此,如果CABAC不能在分配的时间内完成编码过程,则由CABAC生成的比特流将不完整,并且不能使用。 如果CABAC可以在分配的时间内完成编码过程,则CABAC引擎将被允许完成编码过程,并且其生成的输出将被用作选择的比特流。
    • 75. 发明申请
    • ENDOSCOPE STERILIZATION EVALUATION DEVICE
    • 内窥镜灭菌评估装置
    • US20090081767A1
    • 2009-03-26
    • US11914865
    • 2006-03-15
    • Akihisa OgawaTsuruo HatoriHideki TsujiyaHitoshi Watanabe
    • Akihisa OgawaTsuruo HatoriHideki TsujiyaHitoshi Watanabe
    • C12M1/34
    • A61L2/28A61B1/121A61L2/07A61L2/206A61L2202/24
    • An endoscope sterilization evaluation device is provided with an elongated hollow body having a hollow portion opened at opposite ends, the elongated hollow body simulating an endoscope having a tubular passage, an exterior member having a first housing portion in which a biological indicator for performing sterilization evaluation on the hollow body is housed, and a second housing portion in which a culture solution for cultivating germs attached to the biological indicator is housed, the exterior member also having at a predetermined position a communication passage for communication between the first housing portion and the outside, and a mount device for holding the communication passage in a state of communicating with the hollow portion, and mounting the exterior member to the hollow body.
    • 一种内窥镜消毒评价装置,具有:细长型中空体,其具有在相对端开口的中空部,所述细长型中空体模拟具有管状通路的内窥镜,外部构件,具有第一壳体部,所述第一壳体部具有用于进行灭菌评价的生物体 容纳在中空体上的第二壳体部和容纳有附着于生物体指示器的培养菌的培养液的第二容纳部,该外部部件还具有在第一壳体部与外部连通的连通路径的预定位置 以及用于将连通通道保持在与中空部连通的状态的安装装置,并且将外部构件安装到中空体。