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    • 91. 发明申请
    • THREAT PROTECTION NETWORK
    • 威胁防护网络
    • US20110078795A1
    • 2011-03-31
    • US12890552
    • 2010-09-24
    • Bing Liu
    • Bing Liu
    • G06F21/00
    • H04L63/1433G06F11/2294G06F21/10G06F21/568G06F21/577G06F2221/0773H04L63/0428H04L63/102H04L63/12H04L67/104H04L67/1057H04L67/1063H04L67/1072H04L67/108H04L69/329
    • Threat protection networks are described. Embodiments of threat protection network in accordance with the invention use expert systems to determine the nature of potential threats to a remote computer. In several embodiments, a secure peer-to-peer network is used to rapidly distribute information concerning the nature of the potential threat through the threat protection network. One embodiment of the invention includes at least one client computer connected to a network, a server that stores threat definition data and is connected to the network, an expert system in communication with the server. In addition, the client computer is configured to refer potential threats to the server, the server is configured to refer to the expert system any potential threat forwarded by a client computer that is not identified in the threat definition data and the expert system is configured to determine whether the potential threat is an actual threat by exposing at least one test computer to the potential threat and observing the behavior of the test computer.
    • 描述了威胁网络。 根据本发明的威胁防护网络的实施例使用专家系统来确定对远程计算机的潜在威胁的性质。 在几个实施例中,使用安全对等网络来通过威胁防护网络快速分发关于潜在威胁的性质的信息。 本发明的一个实施例包括连接到网络的至少一个客户端计算机,存储威胁定义数据并连接到网络的服务器,与服务器通信的专家系统。 此外,客户端计算机被配置为将潜在威胁引用到服务器,服务器被配置为引用专家系统由客户端计算机转发的任何潜在的威胁,该威胁定位数据中未标识的专用系统被配置为 通过将至少一台测试计算机暴露于潜在威胁并观察测试计算机的行为来确定潜在威胁是否是实际的威胁。
    • 92. 发明申请
    • CABLE SUPPORT
    • 电缆支持
    • US20100102175A1
    • 2010-04-29
    • US12260441
    • 2008-10-29
    • Forrest Allen DockeryBing Liu
    • Forrest Allen DockeryBing Liu
    • F16L3/12
    • F16L3/23F16L3/1233H02G3/32H02G7/053
    • A support for supporting a run of cable, wire or conduit may include a semi-circular saddle, a stem portion, a closing tab and a catch. The saddle may have a front face and a rear face and it operate receive and support a plurality of cables. The stem may be formed integrally with, and extending tangentally from, one end of the saddle with the catch being supported on the stem opposite the closing tab. The closing tab may extend from an opposite end of the saddle and may be tapered along its length. Moreover, the width of the closing tab may be smaller than a width of the saddle at the point where the closing tab is integrated with the saddle. The tab is movable between a first orientation in which the saddle is open and a second orientation in which the closing tab engages the catch.
    • 用于支撑电缆,电线或导管的运行的支撑件可以包括半圆形马鞍,杆部分,闭合突片和卡扣。 鞍座可以具有前表面和后表面,并且其操作接收并支撑多根电缆。 杆可以与鞍座的一端一体形成,并且与鞍座的一端成直角地延伸,而掣子被支撑在与闭合翼片相对的杆上。 闭合突片可以从鞍座的相对端延伸并且可以沿其长度逐渐变细。 此外,关闭突片的宽度可以小于在关闭突片与鞍座一体化的点处的鞍座的宽度。 突片可在其中鞍座打开的第一方向和闭合突片接合卡扣的第二方向之间移动。
    • 94. 发明申请
    • METHOD FOR FABRICATING THIN FILMS
    • 薄膜制作方法
    • US20090246413A1
    • 2009-10-01
    • US12254076
    • 2008-10-20
    • Makoto MurakamiZhendong HuYong CheBing Liu
    • Makoto MurakamiZhendong HuYong CheBing Liu
    • C23C14/30C23C16/54
    • C23C14/28C23C14/08C23C14/564H01S3/0057H01S3/0085H01S3/2308
    • A method of ultrashort pulsed laser deposition (PLD) capable of continuously tuning formed-film morphology from that of a nanoparticle aggregate to a smooth thin film completely free of particles and droplets. The materials that can be synthesized using various embodiments of the invention include, but are not limited to, metals, alloys, metal oxides, and semiconductors. A ‘burst’ mode of ultrashort pulsed laser ablation and deposition is provided, where each ‘burst’ contains a train of laser pulses. Tuning of the film morphology is achieved by controlling the burst-mode parameters such as the number of pulses and the time-spacing between the pulses within each burst, the burst repetition rate, and the laser fluence. The system includes an ultrashort pulsed laser, an optical setup for delivering the laser beam such that the beam is focused onto the target surface with an appropriate average energy density (fluence), and a vacuum chamber in which the target and the substrate are installed and background gases and their pressures are appropriately adjusted.
    • 一种超短脉冲激光沉积(PLD)的方法,其能够将形成膜的形态从纳米颗粒聚集体的形态连续调节到完全没有颗粒和液滴的光滑薄膜。 可以使用本发明的各种实施方案合成的材料包括但不限于金属,合金,金属氧化物和半导体。 提供了超短脉冲激光烧蚀和沉积的“突发”模式,其中每个“脉冲串”包含一系列激光脉冲。 通过控制脉冲串模式参数,例如脉冲数和每个脉冲之间的脉冲之间的时间间隔,脉冲串重复频率和激光能量密度来实现电影形态的调整。 该系统包括超短脉冲激光器,用于传送激光束的光学装置,使得光束以适当的平均能量密度(能量密度)聚焦到目标表面上;以及真空室,其中安装有靶和基底; 背景气体及其压力得到适当调整。
    • 97. 发明申请
    • METHOD OF PRODUCING COMPOUND NANORODS AND THIN FILMS
    • 生产化合物和薄膜的方法
    • US20080292808A1
    • 2008-11-27
    • US11754031
    • 2007-05-25
    • Bing LiuZhendong HuYong Che
    • Bing LiuZhendong HuYong Che
    • B05D3/12
    • C23C14/086C23C14/28C30B23/00C30B29/16C30B29/60Y10T428/25
    • A method of producing compound nanorods and thin films under a controlled growth mode is described. The method involves ablating compound targets using an ultrafast pulsed laser and depositing the ablated materials onto a substrate. When producing compound nanorods, external catalysts such as pre-deposited metal nanoparticles are not involved. Instead, at the beginning of deposition, simply by varying the fluence at the focal spot on the target, a self-formed seed layer can be introduced for nanorods growth. This provides a simple method of producing high purity nanorods and controlling the growth mode. Three growth modes are covered by the present invention, including nanorod growth, thin film growth, and nano-porous film growth.
    • 描述了在受控生长模式下制备复合纳米棒和薄膜的方法。 该方法包括使用超快速脉冲激光烧蚀化合物靶,并将消融材料沉积在基底上。 当制备复合纳米棒时,不涉及外部催化剂如预沉积的金属纳米颗粒。 相反,在沉积开始时,简单地通过改变目标上焦点处的注量,可以引入自形晶种层用于纳米棒生长。 这提供了生产高纯度纳米棒并控制生长模式的简单方法。 本发明涵盖三种生长方式,包括纳米棒生长,薄膜生长和纳米多孔膜生长。
    • 100. 发明申请
    • Threat protection network
    • 威胁网络
    • US20060075504A1
    • 2006-04-06
    • US11234531
    • 2005-09-22
    • Bing Liu
    • Bing Liu
    • G06F11/00G06F11/22G06F11/30G06F11/32G06F11/34G06F11/36G06F12/14G06F12/16G06F15/18G08B23/00
    • H04L63/1433G06F11/2294G06F21/10G06F21/568G06F21/577G06F2221/0773H04L63/0428H04L63/102H04L63/12H04L67/104H04L67/1057H04L67/1063H04L67/1072H04L67/108H04L69/329
    • Threat protection networks are described. Embodiments of threat protection network in accordance with the invention use expert systems to determine the nature of potential threats to a remote computer. In several embodiments, a secure peer-to-peer network is used to rapidly distribute information concerning the nature of the potential threat through the threat protection network. One embodiment of the invention includes at least one client computer connected to a network, a server that stores threat definition data and is connected to the network, an expert system in communication with the server. In addition, the client computer is configured to refer potential threats to the server, the server is configured to refer to the expert system any potential threat forwarded by a client computer that is not identified in the threat definition data and the expert system is configured to determine whether the potential threat is an actual threat by exposing at least one test computer to the potential threat and observing the behavior of the test computer.
    • 描述了威胁网络。 根据本发明的威胁防护网络的实施例使用专家系统来确定对远程计算机的潜在威胁的性质。 在几个实施例中,使用安全对等网络来通过威胁防护网络快速分发关于潜在威胁的性质的信息。 本发明的一个实施例包括连接到网络的至少一个客户端计算机,存储威胁定义数据并连接到网络的服务器,与服务器通信的专家系统。 此外,客户端计算机被配置为将潜在威胁引用到服务器,服务器被配置为引用专家系统由客户端计算机转发的任何未在威胁定义数据中标识的潜在威胁,而专家系统被配置为 通过将至少一台测试计算机暴露于潜在威胁并观察测试计算机的行为来确定潜在威胁是否是实际的威胁。