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    • 1. 发明申请
    • METHODS FOR SUPPORTING IPv6 USING BRIDGE EXTENSION IN WIRELESS COMMUNICATION SYSTEM
    • 在无线通信系统中支持IPv6扩展的方法
    • US20100232306A1
    • 2010-09-16
    • US12377979
    • 2007-08-17
    • Hong-Seok JeonEun-Ah KimHee-Young JungHyeong-Ho LeeJung-Hoon Jee
    • Hong-Seok JeonEun-Ah KimHee-Young JungHyeong-Ho LeeJung-Hoon Jee
    • H04L12/26H04H20/71H04L12/56
    • H04L12/4625
    • The present invention relates to a method for supporting Internet Protocol version 6 (IPv6) in a wireless communication system. According to an exemplary embodiment of the present invention, a wireless communication system consists of an access router, a bridge, and a base station. The access router allocates a common network prefix to all subscriber stations served by it. When receiving IP multicast data destined for all nodes on the same link, the access router forwards the data back to the bridge. The bridge transmits IP multicast data with reference to an identification cache table (ICT) which includes MAC addresses of each subscriber stations, identifiers for point-to-point connections between the bridge and base station, IPv6 addresses of each subscriber station and valid flags for the IPv6 addresses. The base station provides point-to-point connections to both the bridge and each of subscriber stations.
    • 本发明涉及在无线通信系统中支持因特网协议版本6(IPv6)的方法。 根据本发明的示例性实施例,无线通信系统由接入路由器,桥接器和基站组成。 接入路由器为其所服务的所有用户站分配公共网络前缀。 当接收去往同一链路上所有节点的IP组播数据时,接入路由器将数据转发回桥。 桥接器参考包括每个用户站的MAC地址,桥与基站之间的点对点连接的标识符,每个用户站的IPv6地址以及每个用户站的IPv6地址的标识高速缓存表(ICT)以及用于 IPv6地址。 基站提供与桥接器和每个用户站的点对点连接。
    • 3. 发明授权
    • Digital broadcast system in passive optical network
    • 无源光网络中的数字广播系统
    • US07610608B2
    • 2009-10-27
    • US10739236
    • 2003-12-17
    • Yongtae KimKang Bok LeeHeyung Sub LeeHyeong Ho Lee
    • Yongtae KimKang Bok LeeHeyung Sub LeeHyeong Ho Lee
    • H04N7/173
    • H04N21/4405H04N7/17318H04N21/2347H04N21/235H04N21/435H04N21/4622H04N21/47202H04N21/4782H04N21/6125
    • Provided is a digital broadcast system that receives digital broadcast services on a passive optical network (PON). The data separator separates a signal input thereinto from the outside into an Ethernet frame for data service and an Ethernet frame for digital broadcast service. The Ethernet switch transmits the Ethernet frame for data service to an optical network terminal (ONT) provided in the user's home according to header information of the Ethernet frame for data service. The channel request processor receives the user's channel selection request information and user identification (ID) information from the ONT. The digital broadcast processor transmits the Ethernet frame for digital broadcast service, corresponding to the digital broadcast channel selected by the user, to the user's ONT, by using a part of bandwidth assigned for an existing line.
    • 提供了一种在无源光网络(PON)上接收数字广播服务的数字广播系统。 数据分离器将其中输入的信号与外部分离成用于数据服务的以太网帧和用于数字广播服务的以太网帧。 以太网交换机根据数据业务以太网帧的头信息,将用于数据业务的以太网帧发送到用户家庭中提供的光网络终端(ONT)。 信道请求处理器从ONT接收用户的频道选择请求信息和用户标识(ID)信息。 数字广播处理器通过使用分配给现有线路的带宽的一部分,将与用户选择的数字广播频道对应的数字广播服务的以太网帧发送给用户的ONT。
    • 4. 发明授权
    • Method of controlling FEC in EPON
    • 在EPON中控制FEC的方法
    • US07600171B2
    • 2009-10-06
    • US11005115
    • 2004-12-04
    • Hoon LeeTae Whan YooHyeong Ho Lee
    • Hoon LeeTae Whan YooHyeong Ho Lee
    • G06F11/00H03M13/00G01R31/08H04J3/16
    • H04L1/0009H04L1/0057H04L1/203H04Q11/0066H04Q11/0067H04Q2011/0079H04Q2011/0088
    • A method of controlling a Forward Error Correction (FEC) operation including: configuring a FEC frame to be transmitted between an OLT and an ONU comprising a FEC frame identifier indicating whether FEC should be performed, data, a first flag indicating that FEC should be performed, and a second flag indicating that the FEC frame is to be FEC encoded; initializing the OLT by disabling a FEC function; determining whether the ONU requires FEC to be performed based on a FEC frame identifier received from the ONU; IPG stretching the FEC frame when the ONU requires to FEC to be performed; and transmitting the FEC frame to the ONU after FEC encoding based on the second flag of an input frame to a PCS sublayer from an upper layer. The method controls an effective operation of a FEC of an ONU and an OLT without changing a Round Trip Time (RTT) according to optical link quality in an EPON. Accordingly, FEC is used only if necessary, thereby simplifying the managing of a link, and preventing an excessive 35% reduction of throughput caused by use of unnecessary FEC.
    • 一种控制前向纠错(FEC)操作的方法,包括:配置要在OLT和ONU之间传输的FEC帧,包括指示是否应执行FEC的FEC帧标识符,数据,指示应执行FEC的第一标志 以及指示FEC帧要被FEC编码的第二标志; 通过禁用FEC功能来初始化OLT; 基于从ONU接收到的FEC帧标识来确定ONU是否需要执行FEC; 当ONU需要执行FEC时,IPG扩展FEC帧; 并且基于来自上层的PCS子层的基于输入帧的第二标志的FEC编码之后将FEC帧发送到ONU。 该方法根据EPON中的光链路质量来控制ONU和OLT的FEC的有效操作,而不改变往返时间(RTT)。 因此,仅在必要时使用FEC,从而简化链路的管理,并且防止由于使用不必要的FEC导致的吞吐量的过度的35%的降低。
    • 5. 发明授权
    • Ethernet switch, and apparatus and method for expanding port
    • 以太网交换机,扩展端口的设备和方法
    • US07599353B2
    • 2009-10-06
    • US10739737
    • 2003-12-17
    • Chan KimTae Whan YooHyeong Ho Lee
    • Chan KimTae Whan YooHyeong Ho Lee
    • H04L12/66
    • H04L49/45H04L49/351
    • An Ethernet switch having a function of expanding a port, apparatus and method for expanding a port are provided. A receiver receives a frame including predetermined port identification information. An information detector detects the predetermined port identification information and a terminal address of a terminal connected to a sub port corresponding to the predetermined port identification information. A storage unit stores an address table including the terminal address and the predetermined port identification information. A reader reads port identification information corresponding to a destination address included in the frame from the address table. A frame transformer adds the read port identification information to the frame. An output unit outputs the frame transformed by the frame transformer to a main port connected to a sub port corresponding to the read port identification information among main ports that can be connected to at least one sub port.
    • 提供具有扩展用于扩展端口的端口,装置和方法的功能的以太网交换机。 接收机接收包括预定端口识别信息的帧。 信息检测器检测预定端口识别信息和连接到与预定端口识别信息对应的子端口的终端的终端地址。 存储单元存储包括终端地址和预定端口识别信息的地址表。 读取器从地址表读取与帧中包括的目的地地址对应的端口识别信息。 帧转换器将读端口识别信息添加到帧。 输出单元将帧变换器变换后的帧输出到与能够与至少一个子端口连接的主端口中对应于读端口识别信息的子端口连接的主端口。
    • 6. 发明授权
    • Optical network terminal and wavelength division multiplexing based optical network having the same
    • 光网络终端和基于波分复用的光网络具有相同的性能
    • US07539416B2
    • 2009-05-26
    • US11005758
    • 2004-12-06
    • Byoung Whi KimJae Woo YangHyeong Ho Lee
    • Byoung Whi KimJae Woo YangHyeong Ho Lee
    • H04J14/00
    • H04J14/02H04B10/2587H04J14/0226H04J14/0246H04J14/025H04J14/0282
    • Disclosed is a loop-back optical network terminal using a Febry-Perot laser diode as an active type optical modulator in a wavelength division multiplexing based optical network. In addition, a wavelength division multiplexing based optical network having the same is disclosed. The optical network terminal comprises a modulation timing control signal generator receiving a downstream optical signal transmitted from a central office and generating a timing control signal designating a start timing and an end timing for modulating an upstream optical signal to be transmitted from a user to the central office; an upstream data control circuit generating upstream data according to the timing control signal and controlling modulation of the upstream optical signal according to the timing control signal in response to generation of the upstream data; and a modulator receiving the upstream data and directly modulating the upstream data with loop-backing the downstream optical signal to produce the upstream optical signal and then output it to the central office.
    • 公开了一种在基于波分复用的光网络中使用Febry-Perot激光二极管作为有源型光调制器的环回光网络终端。 此外,公开了具有该波分复用的光网络。 光网络终端包括接收从中心局发送的下行光信号的调制定时控制信号发生器,并产生一个定时控制信号,该定时控制信号指定开始定时和结束定时,用于调制从用户发送到中央的上行光信号 办公室; 上游数据控制电路根据定时控制信号产生上行数据,并响应于上行数据的产生,根据定时控制信号控制上行光信号的调制; 以及调制器,接收上游数据,并通过环回下行光信号直接调制上行数据,产生上行光信号,然后将其输出到中心局。
    • 8. 发明授权
    • Method for supporting multicast service in ethernet passive optical network system
    • 以太网无源光网络系统中支持组播业务的方法
    • US07480295B2
    • 2009-01-20
    • US10944328
    • 2004-09-17
    • Jung Sik SungTae Il KimHyeong Ho Lee
    • Jung Sik SungTae Il KimHyeong Ho Lee
    • H04L12/28
    • H04L12/18
    • There is provided a method for supporting a multicast service in an Ethernet passive optical network system. Since an Optical Network Unit (ONU) system monitors an IGMP (Internet Group Management Protocol) message and informs the monitored result of an Optical Line Terminal (OLT) system so that the OLT system creates L2 multicast forwarding table using a multicast address and ONU ID information in a PON port, the ONU system transmits the multicast packet only to a corresponding subscriber on the basis of the L2 multicast forwarding table when receiving a multicast packet. Therefore, it is possible to transfer a multicast packet only to a specific ONU system belonging to a corresponding multicast address group among a plurality of ONU systems.
    • 提供了一种在以太网无源光网络系统中支持组播业务的方法。 由于光网络单元(ONU)系统监视IGMP(因特网组管理协议)消息,并通知光线路终端(OLT)系统的监控结果,使得OLT系统使用组播地址和ONU ID创建L2组播转发表 在PON端口中的信息中,当接收到组播数据包时,ONU系统基于L2组播转发表将组播数据包发送给对应的用户。 因此,可以将多播分组仅传送到属于多个ONU系统中的对应多播地址组的特定ONU系统。
    • 9. 发明授权
    • Method of controlling upstream data transmission in ethernet PON and apparatus thereof
    • 以太网PON上游数据传输控制方法及其设备
    • US07443861B2
    • 2008-10-28
    • US10700613
    • 2003-11-03
    • Ho Sook LeeTae Whan YooHyeong Ho Lee
    • Ho Sook LeeTae Whan YooHyeong Ho Lee
    • H04L12/28H04L12/56
    • H04Q11/0067H04Q11/0066H04Q2011/0064H04Q2011/0084
    • A method of controlling data transmission in an Ethernet passive optical network (EPON) and an apparatus thereof are provided. Transmission permission messages using a mode of bandwidth allocation are queued in a queuing unit according to the types of the transmission permission messages. A transmission time duration of upstream data is defined for each of the transmission permission messages queued in the queuing unit. A bandwidth allocation unit generates transmission permission messages to allocate upstream data transmission bandwidth for an optical network unit (ONU), based on the transmission permission messages stored in the storage unit. A scheduler designates the predetermined priority, reads transmission permission messages from queues according to a predetermined priority, determines a transmission start time of upstream data, and outputs the transmission permission messages.
    • 提供一种控制以太网无源光网络(EPON)中的数据传输的方法及其装置。 使用带宽分配模式的发送许可消息根据发送许可消息的类型在排队单元中排队。 针对在排队单元中排队的每个发送许可消息定义上行数据的传输持续时间。 带宽分配单元基于存储在存储单元中的传输允许消息,生成用于为光网络单元(ONU)分配上行数据传输带宽的发送允许消息。 调度器指定预定优先级,根据预定优先级从队列中读取发送许可消息,确定上行数据的发送开始时间,并输出发送许可消息。
    • 10. 发明申请
    • Apparatus and Method for Preventing Loss of Baggage Using Rfid
    • 使用Rfid防止行李丢失的装置和方法
    • US20080204242A1
    • 2008-08-28
    • US11917575
    • 2005-10-14
    • Jun Seob LeeYong Woon KimSang Keun YooHyoung Jun KimHyeong Ho Lee
    • Jun Seob LeeYong Woon KimSang Keun YooHyoung Jun KimHyeong Ho Lee
    • G08B13/14
    • B64F1/368G06Q10/08G06Q50/30
    • Provided is an apparatus and method for preventing air baggage from getting lost using a radio frequency identification (RFID) system. The apparatus for preventing baggage from getting lost, change, or stolen in which a baggage tag storing baggage management information is attached to the baggage and a receipt tag storing the baggage management information is issued to a baggage owner, the apparatus includes: a tag reader reading the receipt tag and the baggage tag in a predetermined area; and a determiner determining whether the tag reader reads the receipt tag including the same baggage management information as the baggage management information of the baggage tag within a predetermined time before and after the tag reader reads the baggage tag. As a result, air baggage is quickly and exactly managed, costs is reduced, and foreign confidence of an airport is increased, thereby preventing baggage from getting lost and exchanged.
    • 提供了一种使用射频识别(RFID)系统防止空中行李丢失的装置和方法。 本发明涉及一种用于防止行李丢失,更换或被盗的装置,其中行李管理信息附于行李上的行李标签和存放该行李管理信息的收据标签,该装置包括:标签读取器 在预定区域读取收据标签和行李标签; 以及确定器,其在标签读取器读取行李标签之前和之后,在预定时间内,确定标签读取器是否读取包括与行李标签的行李管理信息相同的行李管理信息的收据标签。 因此,航空行李快速,准确地管理,降低成本,增加机场的外界信心,防止行李丢失和交换。