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    • 1. 发明申请
    • PET-MRI HYBRID SYSTEM
    • PET-MRI混合系统
    • US20080045829A1
    • 2008-02-21
    • US11840347
    • 2007-08-17
    • Zang ChoCheol LeeYoung KimJa YunHyung AhnDong KimHong Shim
    • Zang ChoCheol LeeYoung KimJa YunHyung AhnDong KimHong Shim
    • A61B5/055
    • A61B5/055A61B5/0035A61B6/037G01R33/481G01T1/1603G01T1/2985
    • Embodiments of the present invention may provide a PET-MRI hybrid system capable of arranging a PET apparatus and an MRI apparatus in a line. An MRI room containing the MRI apparatus and a PET room containing the PET apparatus are provided at either side of a central waiting room as opposed to each other about the waiting room. A rail portion linearly extends from the PET room to the waiting room on their bottoms. Another rail portion linearly extends on the bottom of the MRI room. A transfer unit, which supports a subject lying thereon, travels along the rail portions of the waiting room, the MRI room and the PET room. A bridge unit is provided between the rail portion of the waiting room and the rail portion of the MRI room. The bridge unit provides a space for opening and closing a shield door of the MRI room and allows the transfer unit to be reciprocated between the waiting room and the MRI room by selectively connecting the rail portion of the waiting room and the rail portion of the MRI room.
    • 本发明的实施例可以提供能够将PET装置和MRI装置配置成一行的PET-MRI混合系统。 包含MRI装置的MRI室和含有PET装置的PET室设置在中央候诊室的两侧,相对于候诊室相对。 轨道部分从PET室直线延伸到其底部的候车室。 另一个轨道部分在MRI室的底部线性延伸。 支撑躺在其上的被摄体的传送单元沿着等候室,MRI室和PET室的轨道部分行进。 在等候室的轨道部分和MRI房间的轨道部分之间设置桥接单元。 桥梁单元提供用于打开和关闭MRI房间的屏蔽门的空间,并且允许转移单元通过选择性地连接等候室的轨道部分和MRI的轨道部分在候诊室和MRI房间之间往复运动 房间。
    • 2. 发明申请
    • Method and apparatus for ultra fast symmetry and SIMD based projection-backprojection for 3D pet image reconstruction
    • 用于3D宠物图像重建的超快速对称和基于SIMD的投影反投影的方法和装置
    • US20070278410A1
    • 2007-12-06
    • US11800657
    • 2007-05-07
    • Zang ChoYoung KimCheol LeeIn HongSung ChungHang KimYoung Son
    • Zang ChoYoung KimCheol LeeIn HongSung ChungHang KimYoung Son
    • G06K9/00G01T1/164
    • G01T1/2985A61B6/037G06T11/003G06T11/006G06T2211/424
    • A method and apparatus are provided for reconstructing 3D image. The method may include the steps of: detecting a plurality of line of responses (LORs) emitted from an object; transforming the plurality of LORs into first sinogram data; back-projecting the first sinogram data with a plurality of projection angles to produce image data for the object; and projecting the produced image data with the plurality of projection angles to transform the image data into second sinogram data. The back-projecting may include filling pixels of image plane for each of the plurality of projection angles with the first sinogram data and rotating a coordinate axis of the image plane with corresponding projection angle to produce the image data. The projecting may include rotating the image data with corresponding projection angle in an opposite direction before projecting the image data with the plurality of projection angles. The projecting and the back-projecting may use symmetry properties in coordinate space.
    • 提供了一种重建3D图像的方法和装置。 该方法可以包括以下步骤:检测从对象发射的多条响应行(LOR); 将多个LOR转换成第一个正弦图数据; 以多个投影角度反投影第一正弦图数据以产生该对象的图像数据; 并且利用多个投影角度投影所生成的图像数据,以将图像数据转换成第二正弦图数据。 反投影可以包括用第一正弦图数据为多个投影角度中的每一个填充图像平面的像素,并且以相应的投影角旋转图像平面的坐标轴以产生图像数据。 投影可以包括在用多个投影角度投影图像数据之前以相反方向旋转具有相应投影角的图像数据。 投影和背投可以在坐标空间中使用对称性。
    • 3. 发明申请
    • PET - MRI hybrid apparatus and method of implementing the same
    • PET-MRI混合装置及其实施方法
    • US20060052685A1
    • 2006-03-09
    • US11027599
    • 2004-12-28
    • Zang ChoYoung KimCheol Lee
    • Zang ChoYoung KimCheol Lee
    • A61B5/05
    • G01R33/481A61B6/037G01R33/20G01R33/422G01T1/1603G01T1/2985
    • There is provided a PET-MRI hybrid apparatus and method for integrating a PET image and an MRI image so that anatomical, hemodynamical and molecular information on human tissues are simultaneously presented in a single image. The PET-MRI hybrid system comprises a first scanner for obtaining anatomical and hemodynamical information, and a second scanner for obtaining molecular and functional information on the human tissues. Along a path between the first scanner and the second scanner, a transferring railway system which includes runs, and a movable bed for supporting a subject installed on the railway. The PET-MRI hybrid system also comprises a “RF+ magnetic” shield and a “magnetic” shield between path between the first scanner and the second scanner, which switch between an open status and a close status in a completely synchronized manner to assure a complete magnetic shield for the PET system at any given time. The subject is fastened on the bed and transferred along the railway between the first and second scanner to provide accurately fused MRI and PET images.
    • 提供了一种用于整合PET图像和MRI图像的PET-MRI混合装置和方法,使得在单个图像中同时呈现人体组织上的解剖,血液动力学和分子信息。 PET-MRI混合系统包括用于获得解剖学和血液动力学信息的第一扫描仪,以及用于在人体组织上获得分子和功能信息的第二扫描仪。 沿着第一扫描器和第二扫描器之间的路径,包括运行的传送铁路系统和用于支撑安装在铁路上的物体​​的活动床。 PET-MRI混合系统还包括在第一扫描器和第二扫描器之间的路径之间的“RF +磁”屏蔽和“磁”屏蔽,其以完全同步的方式在打开状态和关闭状态之间切换,以确保完整 任何给定时间的PET系统的磁屏蔽。 主体被固定在床上并沿第一和第二扫描仪之间的铁路传送,以提供精确融合的MRI和PET图像。
    • 4. 发明申请
    • Massive synthesis method of double-walled carbon nanotubes using the vapor phase growth
    • 使用气相生长的双壁碳纳米管的大规模合成方法
    • US20060216221A1
    • 2006-09-28
    • US10550500
    • 2004-03-17
    • Cheol Lee
    • Cheol Lee
    • D01F9/12
    • B82Y30/00B82Y40/00C01B32/162C01B2202/04
    • A method of massively synthesizing double-walled carbon nanotubes is provided. In the method, catalyst metal particles having a size of a few nanometers are embedded in nano pores of a support material powder. Then, the support material powder embedding the catalyst metal particles is sintered at a temperature of 700-900° C. Then, the support material powder embedding the catalyst metal particles is loaded in a reactor. Thereafter, high purity double-walled carbon nanotubes are formed massively by vaporizing a carbon source solution at a temperature of 700-1100° C. and supplying the vaporized carbon source gas, or by directly supplying a carbon source gas to the reactor.
    • 提供了大规模合成双壁碳纳米管的方法。 在该方法中,将尺寸为几纳米的催化剂金属颗粒嵌入载体材料粉末的纳米孔中。 然后,将包含催化剂金属颗粒的载体材料粉末在700-900℃的温度下烧结。然后将包埋催化剂金属颗粒的载体材料粉末装入反应器中。 此后,通过在700-1100℃的温度下蒸发碳源溶液并供应蒸发的碳源气体,或者直接向反应器供应碳源气体,大量地形成高纯度双壁碳纳米管。
    • 5. 发明申请
    • Multi-Focus Magnifying Glass
    • 多焦放大镜
    • US20080019024A1
    • 2008-01-24
    • US11791158
    • 2005-11-17
    • Cheol Lee
    • Cheol Lee
    • G02B27/02
    • G02B25/02G02B25/008G02B27/025
    • A multi-focus magnifying glass is disclosed. The multi-focus magnifying glass includes a base plate placed on a supporting surface, a support fixed to the base plate and extended upward, and a lens connected to the end of the support and having a diopter gradually increased from a side thereof to the opposite side thereof so that a user can see magnified letters appearing in the upper and lower sides thereof in an approximately similar size without distortion of images even when magnifying an obliquely inclined (about 45 degrees) book or newspaper placed on a table.
    • 公开了一种多焦放大镜。 多焦点放大镜包括放置在支撑表面上的基板,固定到基板并向上延伸的支撑件,以及连接到支撑件的端部并且具有从其侧面逐渐增加到相对的屈光度的透镜 使得用户即使在放大放置在桌子上的倾斜(约45度)的书本或报纸时,也可以以大致相似的大小看到出现在其上侧和下侧的放大字母,而不会失真图像。
    • 6. 发明申请
    • Cap assembly mold and secondary battery having the same
    • 盖组件模具和具有相同的二次电池
    • US20060210870A1
    • 2006-09-21
    • US11338953
    • 2006-01-25
    • Ki eob MoonSeogjin YoonHeegyu KimCheol Lee
    • Ki eob MoonSeogjin YoonHeegyu KimCheol Lee
    • H01M2/04H01M2/08H01M10/50H01M10/04
    • H01M2/1061H01M2/0469H01M2/30H01M2/34Y10T29/49108Y10T29/49114
    • Disclosed herein is a cap assembly mold mounted to a battery cell, in which an electrode assembly including cathodes/separators/anodes is disposed, wherein the cap assembly mold is manufactured by integrally forming a protection circuit board, a safety element, connection terminals, and a cap housing by insert injection molding, and, when the insert injection molding is carried out, the connection terminals are partially exposed from the lower end surface of the cap assembly mold such that the connection terminals can be electrically connected to electrode terminals of the battery cell. According to the present invention, the cap assembly mold is formed by insert injection molding in the state that the protection circuit and the battery are not connected with each other. Consequently, the molding process is carried out using normally available resins, the cap assembly mold is electrically stable, the coating process for preventing electrical short circuits is not necessary, and the possibility of electrical damage to the protection circuit is eliminated.
    • 本文公开了一种安装到电池单元的盖组件模具,其中设置有包括阴极/隔板/阳极的电极组件,其中盖组件模具通过整体形成保护电路板,安全元件,连接端子和 通过插入注射成型的盖壳体,并且当进行插入注射成型时,连接端子部分地从盖组件模具的下端表面露出,使得连接端子可以电连接到电池的电极端子 细胞。 根据本发明,在保护电路和电池未彼此连接的状态下,通过插入式注射成型形成盖组件模具。 因此,使用通常可用的树脂进行成型工艺,盖组件模具是电气稳定的,不需要用于防止电气短路的涂覆工艺,并且消除了对保护电路的电气损坏的可能性。
    • 8. 发明申请
    • No-welding type battery pack
    • 无焊接型电池组
    • US20070188132A1
    • 2007-08-16
    • US11493681
    • 2006-07-26
    • Jung-hwan KimKi eob MoonSeogjin YoonCheol Lee
    • Jung-hwan KimKi eob MoonSeogjin YoonCheol Lee
    • H02J7/00
    • H01M2/1061H01M10/425
    • Disclosed herein is a battery pack, which comprises a connecting member including an insulation frame mounted to the upper end of a battery cell and a pair of connection protrusions formed at the upper end surface of the frame, the connection protrusions being in contact with electrode terminals of the battery cell, a protection circuit module (PCM) mounted to the connecting member, the PCM including connection grooves, into which the connection protrusions are inserted such that the PCM can be coupled to the connecting member, and which are connected to a protection circuit, and a cap housing coupled to the connecting member or the battery cell while the PCM is surrounded by the cap housing. The no-welding type battery pack according to the present invention has effects in that the assembly process of the battery pack is simplified, which enables the automatic manufacture of the battery pack, defectiveness and changes of internal resistance of the battery pack due to external impacts are minimized, the capacity of the battery is increased, and the stability of the battery pack is improved.
    • 这里公开了一种电池组,其包括连接构件,该连接构件包括安装到电池单元的上端的绝缘框架和形成在框架的上端表面处的一对连接突起,所述连接突起与电极端子 电池单元的安装在连接构件上的保护电路模块(PCM),PCM包括连接凹槽,连接突起插入该连接凹槽中,使得PCM可以连接到连接构件,并且连接到保护 电路,以及当所述PCM被所述盖壳体包围时,所述帽壳体联接到所述连接构件或所述电池单元。 根据本发明的无焊接型电池组具有简化电池组的组装过程的效果,这使得能够自动制造电池组,由于外部影响导致电池组的缺陷和内部电阻变化 电池的容量增加,并且提高了电池组的稳定性。
    • 10. 发明申请
    • System and method of efficiently providing packet data service in a UMTS system
    • 在UMTS系统中有效提供分组数据业务的系统和方法
    • US20050237935A1
    • 2005-10-27
    • US11108755
    • 2005-04-19
    • Hee-Joon ChaeJung-Hun LeeCheol Lee
    • Hee-Joon ChaeJung-Hun LeeCheol Lee
    • H04B7/26H04L12/26H04L12/56H04L29/08
    • H04W28/22H04L67/04H04L67/322H04W84/04
    • A system and method of controlling a data rate of a user equipment (UE) for a packet data service in a mobile communication system is provided. In the system and method, a radio access bearer (RAB) assignment request message comprising maximum rate information is received. The maximum rate information indicates a requested data rate for the packet data service. An initial data rate is set to the requested data rate, and it is determined whether the initial data rate is available by checking available resources. If the initial data rate is not available, it is determined whether the initial data rate is the lowest of a plurality of levels of predetermined data rates. If the initial data rate is the lowest level, a RAB is established in a common channel state. If the initial data rate is available, a RAB is established at the initial data rate in a dedicated channel state.
    • 提供了一种在移动通信系统中控制分组数据服务的用户设备(UE)的数据速率的系统和方法。 在系统和方法中,接收包括最大速率信息的无线电接入承载(RAB)分配请求消息。 最大速率信息表示分组数据业务的请求数据速率。 将初始数据速率设置为所请求的数据速率,并且通过检查可用资源来确定初始数据速率是否可用。 如果初始数据速率不可用,则确定初始数据速率是否是预定数据速率的多个级别中的最低数据速率。 如果初始数据速率是最低级别,则RAB建立在公共信道状态。 如果初始数据速率可用,则以专用信道状态的初始数据速率建立RAB。