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    • 1. 发明授权
    • Surveillance system
    • 监视系统
    • US09030555B2
    • 2015-05-12
    • US12625614
    • 2009-11-25
    • Sung Jin KimHyoung Hwa YoonJae Shin Yu
    • Sung Jin KimHyoung Hwa YoonJae Shin Yu
    • H04N7/18G06K9/00G08B13/196
    • G08B13/1968G08B13/19652G08B13/19682
    • A method of operating a surveillance system having a display unit configured to display a surveillance image includes acquiring the surveillance image from at least one acquisition device. The method also includes setting surveillance event that includes setting a desired surveillance object indicating an attribute of the surveillance event. Further, the method includes displaying the selected surveillance object with the acquired surveillance image on the display unit to indicate the set surveillance event and analyzing the acquired surveillance image to determine whether the set surveillance event has occurred. In addition, the method includes performing an indicating operation in the surveillance system in response to the occurrence of the set surveillance event.
    • 操作具有被配置为显示监视图像的显示单元的监视系统的方法包括从至少一个采集设备获取监视图像。 该方法还包括设置监视事件,包括设置指示监视事件的属性的期望的监视对象。 此外,该方法包括在所述显示单元上显示所获取的监视图像的所选择的监视对象,以指示所设置的监视事件并分析所获取的监视图像,以确定所设置的监视事件是否已经发生。 此外,该方法包括响应于所设置的监视事件的发生而在监视系统中执行指示操作。
    • 4. 发明授权
    • Washing machine and control method thereof
    • 洗衣机及其控制方法
    • US09121126B2
    • 2015-09-01
    • US13064903
    • 2011-04-25
    • Moo Hyung LeeSung Jin KimMyung Sun Kang
    • Moo Hyung LeeSung Jin KimMyung Sun Kang
    • D06F37/22D06F33/02
    • D06F37/225D06F33/02D06F2222/00
    • A washing machine in which performance of a balancer is improved and a control method thereof. The washing machine includes at least one balancer housing provided with a ring-shaped channel, at least one mass body movably disposed in the channel, a confinement unit to confine the at least one mass body to the at least one balancer housing so as to allow the at least one mass body to be rotated under the condition that the at least one mass body is fixed to the at least one balancer housing, an adjustment unit to release confinement of the at least one mass body so as to allow the at least one mass body to descend due to gravity during rotation of the drum, and a control unit to control the adjustment unit so that unbalanced load is offset by the at least one mass body.
    • 一种改善平衡器性能的洗衣机及其控制方法。 该洗衣机包括至少一个设置有环形通道的平衡器壳体,至少一个可移动地设置在通道中的质量体,限制单元,用于将至少一个质量体限定在至少一个平衡器壳体上,以允许 所述至少一个质量体在所述至少一个质量体被固定到所述至少一个平衡器壳体的条件下旋转;调节单元,以释放所述至少一个质量体的限制,以允许所述至少一个 质量体在滚筒的旋转期间由于重力而下降;以及控制单元,用于控制调节单元,使得不平衡载荷被至少一个质量体抵消。
    • 6. 发明授权
    • Wireless communication system between medical devices using cognitive technology
    • 使用认知技术的医疗设备之间的无线通信系统
    • US08620219B2
    • 2013-12-31
    • US13157554
    • 2011-06-10
    • Tae In HyonSung Jin Kim
    • Tae In HyonSung Jin Kim
    • H04B15/00
    • H04W16/14A61B5/0015A61B5/002H04L27/0006
    • Provided is a wireless communication system between medical devices. A wireless communication apparatus between medical devices using a cognitive technology may receive, from an external frequency coordination database server, state information of frequencies that are available in a predetermined area, and store interference information associated with the frequencies. The communication apparatus may sense an external interference signal that affects the frequencies outside the predetermined area, and an internal interference signal that affects the frequencies within the predetermined area. The communication apparatus may determine a priority of each of the frequencies that are available in the predetermined area based on the interference information, the external interference signal, and the internal interference signal, and may determine a frequency to be assigned based on the priority.
    • 提供了医疗设备之间的无线通信系统。 使用认知技术的医疗装置之间的无线通信装置可以从外部频率协调数据库服务器接收在预定区域中可用的频率的状态信息,并存储与频率相关联的干扰信息。 通信装置可以感测影响预定区域外的频率的外部干扰信号,以及影响预定区域内的频率的内部干扰信号。 通信装置可以基于干扰信息,外部干扰信号和内部干扰信号来确定预定区域中可用的每个频率的优先级,并且可以基于优先级来确定要分配的频率。
    • 9. 发明申请
    • HEAT SINK
    • 散热器
    • US20120305224A1
    • 2012-12-06
    • US13513507
    • 2009-12-02
    • Sung Jin KimJuwan KimDong-Kwon Kim
    • Sung Jin KimJuwan KimDong-Kwon Kim
    • F28D15/00
    • F04D17/127F04D17/16F04D29/281F04D29/30F04D29/582F28F3/02H01L23/467H01L2924/0002H01L2924/00
    • A heat sink provided. In the heat sink in accordance with an embodiment of the present invention, a heat dissipation plate forms a channel between each of stages by isolating a plurality of heat dissipating fins in equal intervals and arranging the heat dissipating fins in a multi-stage circle shape. Then, the heat sink forms a path between the sequentially isolated heat dissipating fins at each of the stages. Also, a centrifugal fan alternatively blocks the channel and path at each of the stages through a rotation by a plurality of blades arranged in a multi-stage circle shape to be positioned between the channels. Then, the centrifugal fan is capable of inflowing outer air to discharge the air by generating a pressure difference of inter/outer air through a combination of the blade and the heat dissipation plate.
    • 提供散热器 在根据本发明的实施例的散热器中,散热板通过以等间隔隔开多个散热翅片并且将散热翅片布置成多级圆形形状而在每个台之间形成通道。 然后,散热片在每个阶段形成顺序隔离的散热翅片之间的路径。 此外,离心风扇通过被布置成多级圆形的多个叶片通过旋转而交替地阻挡在每个级的通道和路径,以定位在通道之间。 然后,通过叶片和散热板的组合产生内/外空气的压差,离心式风扇能够流入外部空气排出空气。
    • 10. 发明授权
    • Surface analysis and measurement method based on flow resistance of fluid and atomic force microscope using the method
    • 基于流体和原子力显微镜的流动阻力的表面分析和测量方法
    • US08316693B2
    • 2012-11-27
    • US12625998
    • 2009-11-25
    • Sung Jin KimTae Young KimDong Kwon Kim
    • Sung Jin KimTae Young KimDong Kwon Kim
    • G01B13/16
    • G01Q60/38G01Q30/04G01Q30/14
    • Provided is a surface analysis and measurement method based on the flow resistance of a fluid. The method comprises: spraying a fluid on the surface of a sample; identifying and determining if a flow resistance value of the fluid colliding with the sample surface is optimal for the measurement of the surface topography of the sample; setting the determined optimal flow resistance value to a reference value and moving the sample in the X-Y axes to allow the entire surface of the sample to be scanned; varying the position of the sample in the Z axis together with the X-Y axis movement to adjust varying flow resistance values of the fluid along the irregular surface topography of the sample to the set flow resistance value during scanning; and expressing the movement ranges of the sample in the X, Y and Z axes as numerical values and representing the numerical values as brightness values on a computer screen to display the surface topography of the sample. Further provided is an atomic force microscope using the method.
    • 提供了基于流体的流动阻力的表面分析和测量方法。 该方法包括:在样品的表面上喷射流体; 识别并确定与样品表面碰撞的流体的流阻值是否最适合用于测量样品的表面形貌; 将确定的最佳流动阻力值设定为参考值,并且将样品移动到X-Y轴中以允许扫描样品的整个表面; 随着X-Y轴运动,将样品在Z轴上的位置改变,以便沿扫描中的样品的不规则表面形貌将流体的流动阻力值调整到设定的流动阻力值; 并将X,Y和Z轴中的样品的移动范围表示为数值,并将计算机屏幕上的数值表示为亮度值,以显示样品的表面形貌。 还提供了使用该方法的原子力显微镜。