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    • 1. 发明申请
    • Inorganic contaminant removal from water
    • 从水中去除无机污染物
    • US20060011550A1
    • 2006-01-19
    • US11124624
    • 2005-05-06
    • Michael BourkeHung Nguyen
    • Michael BourkeHung Nguyen
    • C02F1/42
    • B01J20/28009B01J39/04B01J41/04B01J47/011B01J49/00C02F2001/422C02F2001/425C02F2101/20C02F2303/16
    • A method is provided for removing an inorganic ionic species or organometallic ion contaminant, or combination contaminants, including such as arsenic, chromium, bromide, bromate, perchlorate, and/or others from water which contains an unacceptably high concentration of the contaminant(s). The method includes treating the water with an ion exchange resin, preferably a magnetic ion exchange resin such as MIEX® Resin, which is capable of adsorbing the inorganic ionic species contaminant(s), and regenerating and recycling the ion exchange resin back to the process. The method produces potable water from ground water containing such contaminants and eliminates breakthrough and chromatographic peaking problems observed with conventional ion exchange systems.
    • 提供了一种用于从含有不可接受的高浓度污染物的水中去除无机离子物质或有机金属离子污染物或组合污染物的方法,包括诸如砷,铬,溴,溴酸盐,高氯酸盐和/或其它物质的混合污染物, 。 该方法包括用离子交换树脂处理水,优选是能够吸附无机离子物质污染物的MIEX树脂等磁性离子交换树脂,并将离子交换树脂再生并再循环回 的过程。 该方法从含有这些污染物的地下水中产生饮用水,并消除了常规离子交换系统观察到的突破和色谱峰值问题。
    • 2. 发明授权
    • Monitoring virtualized network
    • US09769049B2
    • 2017-09-19
    • US13560968
    • 2012-07-27
    • Hung Nguyen
    • Hung Nguyen
    • H04L12/28H04L12/26
    • H04L43/50H04L43/12
    • A method of monitoring virtualized network includes receiving information regarding the virtualized network, wherein the information is received at a port of a network switch appliance, receiving a packet at a network port of the network switch appliance, and using the received information to determine whether to process the packet according to a first packet processing scheme or a second packet processing scheme, wherein the first packet processing scheme involves performing header stripping, and performing packet transmission to one of a plurality of instrument ports at the network switch appliance after the header stripping, each of the instrument ports configured for communicatively coupling to a network monitoring instrument, and wherein the second packet processing scheme involves performing packet transmission to one of the plurality of instrument ports at the network switch appliance without performing any header stripping.
    • 4. 发明申请
    • Method and Apparatus for Accommodating Differrent Clock Frequencies in an Ethernet Passive Optical Network
    • 用于适应以太网无源光网络中不同时钟频率的方法和装置
    • US20110170868A1
    • 2011-07-14
    • US13073525
    • 2011-03-28
    • Edward W. BOYDRyan E. HirthHung Nguyen
    • Edward W. BOYDRyan E. HirthHung Nguyen
    • H04B10/20
    • H04J3/0638H04J3/0652H04J3/0682H04J3/07H04J3/1694H04Q11/0067H04Q2011/0079
    • One embodiment of the present invention provides a system that accommodates different clock frequencies in an Ethernet passive optical network (EPON). The system receives a signal from an optical line terminal (OLT) at an optical network unit (ONU) and derives an OLT clock. The system also maintains a local clock. The system further receives from the OLT an assignment for an upstream transmission window, during which the ONU can transmit an upstream data burst to the OLT based on the local clock. The system adjusts the number of bits of the data burst without affecting the payload data carried in the data burst, thereby allowing the data burst to fit properly within the upstream transmission window and compensating for frequency differences between the local clock and the OLT clock. The system transmits the data burst based on the local clock in the upstream transmission window.
    • 本发明的一个实施例提供一种在以太网无源光网络(EPON)中适应不同时钟频率的系统。 该系统从光网络单元(ONU)的光线路终端(OLT)接收信号,得到OLT时钟。 该系统还维护本地时钟。 该系统还从OLT接收用于上行传输窗口的分配,在该传输窗口期间,ONU可以基于本地时钟向OLT发送上行数据突发。 该系统调整数据脉冲串的位数,而不影响数据脉冲串中承载的有效载荷数据,从而允许数据脉冲串适配于上游传输窗口内,并补偿本地时钟与OLT时钟之间的频率差异。 系统根据上行传输窗口中的本地时钟传输数据脉冲串。
    • 7. 发明授权
    • Wireless switch for use in wireless communications
    • 用于无线通信的无线交换机
    • US07286513B2
    • 2007-10-23
    • US10449630
    • 2003-05-30
    • Hung Nguyen
    • Hung Nguyen
    • H04J1/16H04J3/14
    • H04W92/00H04W92/04H04W92/16
    • The present invention is related to a switch for use in wireless communication systems. In one embodiment, the switch can concurrently process data from multiple mobile stations and supports full duplex, i.e., allowing receiving and transmitting data at the same time. The switch can concurrently communicate with other switches and/or mobile stations in the basic service set (BSS) of that switch. A switch may be considered an access point commonly used in other approaches. However, systems using the switch do not need to use an Ethernet switch commonly found in WLAN communication systems that use access points. Switches may be set up in a master-slave scheme wherein a master switch communicates with its slave switches, and slave switches communicate with one another through the master switch. If the data is for a mobile station in the same BSS of the switch, then, via a switch controller, the switch passes the data from the receiving path to the transmitting path. As a result, the data does not have to travel out of the switch and then back to the same switch again.
    • 本发明涉及一种用于无线通信系统的交换机。 在一个实施例中,交换机可以同时处理来自多个移动站的数据并支持全双工,即允许同时接收和发送数据。 交换机可以与该交换机的基本业务集(BSS)中的其他交换机和/或移动台同时进行通信。 交换机可以被认为是其他方法中常用的接入点。 然而,使用交换机的系统不需要使用通常在使用接入点的WLAN通信系统中发现的以太网交换机。 交换机可以以主从方案建立,其中主交换机与其从交换机通信,并且从交换机通过主交换机彼此通信。 如果数据是针对交换机的同一BSS中的移动台,则经由交换机控制器,交换机将数据从接收路径传递到发送路径。 因此,数据不需要离开交换机,然后再次返回到同一个交换机。
    • 8. 发明授权
    • Hardware looping mechanism and method for efficient execution of discontinuity instructions
    • 用于有效执行不连续指令的硬件循环机制和方法
    • US07272704B1
    • 2007-09-18
    • US10844941
    • 2004-05-13
    • Hung NguyenShannon Wichman
    • Hung NguyenShannon Wichman
    • G06F9/44
    • G06F9/325G06F9/30058G06F9/324G06F9/3802G06F9/3804G06F9/3875G06F9/3885
    • A hardware looping mechanism and method is described herein for handling any number and/or type of discontinuity instruction that may arise when executing program instructions within a scalar or superscalar processor. For example, the hardware looping mechanism may provide zero-overhead looping for branch instructions, in addition to single loop constructs and multiple loop constructs (which may or may not be nested). Zero-overhead looping may also be provided in special cases, e.g., when servicing an interrupt or executing a branch-out-of-loop instruction. In addition to reducing the number of instructions required to execute a program, as well as the overall time and power consumed during program execution, the hardware looping mechanism described herein may be integrated within any processor architecture without modifying existing program code.
    • 本文描述了用于处理在标量或超标量处理器中执行程序指令时可能出现的任何数量和/或类型的不连续指令的硬件循环机制和方法。 例如,除了单个循环结构和多个循环结构(其可以嵌套或可以不嵌套)之外,硬件循环机制可以为分支指令提供零开销循环。 在特殊情况下也可以提供零开销循环,例如当服务于中断或执行分支回路指令时。 除了减少执行程序所需的指令数量以及在程序执行期间消耗的总体时间和功耗之外,本文描述的硬件循环机制可以集成在任何处理器架构中而不修改现有的程序代码。
    • 9. 发明申请
    • Moldable composite article
    • 可成型复合制品
    • US20070160799A1
    • 2007-07-12
    • US10588117
    • 2005-02-04
    • Hung Nguyen
    • Hung Nguyen
    • B32B3/00B29C45/14B27N3/10
    • C08G63/916C08G69/48C08J5/047C08K5/0008C08K5/15C08L67/00C08L67/02D04H1/425D04H1/4291D04H1/4334D04H1/435D04H1/4382Y10T428/237C08L77/00C08L2666/24
    • The present invention relates to moldable composite articles, and particularly to a molded nonwoven fibrous article, and specifically to an automobile headliner that has improved physical properties at low weight. There is a need to minimize the weight of the headliner and the critical parameter is minimum sag. For a molded non-needlepunched batt in the weight range of 1000 to 1200 grams per square meter (gsm), the sag at 91° C. must be less than 10 mm, when cantilevering a distance of 28 cm. The stiffness, strength and toughness of the batt should be greater than 2 N/mm, 17N and 70% respectively. In the first embodiment, the thermoplastic binder is a bicomponent fiber with an adhesion promoted polyolefin sheath and a polyester core. In the second embodiment, the matrix fiber is a synthetic fiber with a modulus greater than 10 cN/tex. In the third embodiment the matrix fiber is a natural fiber. In the fourth embodiment the bicomponent fiber contains a filler such as carbon black or titanium dioxide.
    • 本发明涉及可模制的复合制品,特别是涉及一种模制的非织造纤维制品,特别涉及一种具有改善的物理性能的低重量的汽车顶篷。 需要最小化顶篷的重量,关键参数是最小下垂。 对于重量范围为1000至1200克/平方米(gsm)的模制非针刺絮垫,当悬臂距离为28厘米时,91℃的下垂必须小于10毫米。 絮垫的刚度,强度和韧性应分别大于2 N / mm,17N和70%。 在第一实施方案中,热塑性粘合剂是具有粘合促进的聚烯烃护套和聚酯芯的双组分纤维。 在第二实施方案中,基质纤维是具有大于10cN / tex的模量的合成纤维。 在第三实施例中,基质纤维是天然纤维。 在第四实施方案中,双组分纤维含有诸如炭黑或二氧化钛的填料。
    • 10. 发明申请
    • Prefabricated universal structural steel panel and panel system
    • 预制通用结构钢板和面板系统
    • US20070144090A1
    • 2007-06-28
    • US11708570
    • 2007-02-21
    • Hung Nguyen
    • Hung Nguyen
    • E04B1/00
    • E04B1/14E04B1/08E04C2/08
    • The prefabricated universal structural steel panel and panel system includes a generally elongated rectangular panel having an opposed exterior and interior surfaces, an opposed first and second end portions, and an opposed first and second side edge portions. At least two stiffening ribs are integrally formed in the panel and extend longitudinally between the first and second end portions. The first side edge portion has a beveled configuration and is integrally connected to an elongated male connecting member. An elongated female connecting member is integrally connected to the second side edge portion and extends adjacent the interior surface to define a fold. The elongated male connecting member of one panel is cooperatively profiled to mate with the female connecting member of an adjacent panel.
    • 预制的通用结构钢板和面板系统包括具有相对的外表面和内表面的相当长的矩形面板,相对的第一和第二端部以及相对的第一和第二侧边缘部分。 至少两个加强肋一体地形成在面板中并在第一和第二端部之间纵向延伸。 第一侧边缘部分具有斜面构造并且与细长的阳连接构件一体地连接。 细长的阴连接构件一体地连接到第二侧边缘部分并且在内表面附近延伸以限定折叠。 一个面板的细长阳连接构件配合成型以与相邻面板的阴连接构件相配合。