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    • 1. 发明申请
    • Method and system for WiBro network interworking in wireless terminal
    • 无线终端WiBro网络互通方法与系统
    • US20080117855A1
    • 2008-05-22
    • US11907519
    • 2007-10-12
    • Wook ChoiYong LeeHyo-Hyun ChoiYong-Seok Park
    • Wook ChoiYong LeeHyo-Hyun ChoiYong-Seok Park
    • H04B7/14
    • H04W8/30H04B7/155H04W28/26H04W80/04H04W84/12
    • A method and system for WiBro network interworking in a wireless terminal. The method includes: setting up, by a relay station for connecting the WLAN terminal with the WiBro network, a connection through an initial process with the WiBro network; performing, by an access router, Internet connection authentication on a user of the WLAN terminal in response to a request for Internet connection from the WLAN terminal; allocating, by the access router, an IP address in response to a request for IP address allocation from the WLAN terminal, and then allocating, by a WiBro radio access station, a unique Connection IDentification (CID) corresponding to a QoS level of the terminal user in response to a request from the relay station; and mapping, by the relay station, the allocated unique CID to the IP address of the WLAN terminal and providing Internet service.
    • 一种无线终端WiBro网络互通的方法和系统。 该方法包括:由WiBro网络连接WLAN终端的中继站建立与WiBro网络的初始进程的连接; 响应于来自所述WLAN终端的因特网连接的请求,通过所述接入路由器对所述WLAN终端的用户进行因特网连接认证; 由所述接入路由器分配响应于从所述WLAN终端分配IP地址的请求的IP地址,然后由WiBro无线电接入站分配与所述终端的QoS级别对应的唯一连接标识(CID) 用户响应于来自所述中继站的请求; 以及由所述中继站将所分配的唯一CID映射到所述WLAN终端的IP地址并提供因特网服务。
    • 2. 发明申请
    • Multi-radio mesh network system supporting at least two different wireless communication standards and method of controlling the same
    • 支持至少两种不同无线通信标准的多无线网状网络系统及其控制方法
    • US20080080430A1
    • 2008-04-03
    • US11898917
    • 2007-09-17
    • Wook ChoiYong LeeHyo-Hyun ChoiYong-Seok Park
    • Wook ChoiYong LeeHyo-Hyun ChoiYong-Seok Park
    • H04Q7/00
    • H04W28/08H04W84/18H04W88/06
    • In a multi-radio mesh network system supporting at least two different wireless communication standards and a method of controlling the same, a wireless access switching module determines whether user data en-queued in the queue of a first wireless link and retained on standby cannot be transmitted. The wireless access switching module switches the user data, en-queued in the queue of the first wireless link and retained on standby, to an available second wireless link. The wireless access switching module changes a frame structure according to different wireless access techniques. When access is possible through the second wireless link, a forwarder searches for a local neighbor directly connected to a transmitting node and a receiving node, and forwards the user data. According to the invention, and in contrast to conventional techniques, available multi-wireless resources can be used more efficiently, flexibly and optimally up to the last moment, thereby reducing re-transmission and packet drop. Thus, each hop supports fast data forwarding so as to improve network performance.
    • 在支持至少两个不同无线通信标准的多无线网状网络系统及其控制方法中,无线接入交换模块确定在第一无线链路的队列中排队并保持待机的用户数据是否不能 传输。 无线接入交换模块将在第一无线链路的队列中排队并保持待机的用户数据切换到可用的第二无线链路。 无线接入交换模块根据不同的无线接入技术改变帧结构。 当通过第二无线链路进行访问时,转发器搜索直接连接到发送节点和接收节点的本地邻居,并转发用户数据。 根据本发明,与传统技术相反,可以更有效,灵活和最佳地使用可用的多无线资源,直到最后一刻,从而减少重传和分组丢弃。 因此,每跳支持快速数据转发,以提高网络性能。
    • 6. 发明授权
    • Multi-radio mesh network system supporting at least two different wireless communication standards and method of controlling the same
    • 支持至少两种不同无线通信标准的多无线网状网络系统及其控制方法
    • US07978657B2
    • 2011-07-12
    • US11898917
    • 2007-09-17
    • Wook ChoiYong LeeHyo-Hyun ChoiYong-Seok Park
    • Wook ChoiYong LeeHyo-Hyun ChoiYong-Seok Park
    • H04Q7/00
    • H04W28/08H04W84/18H04W88/06
    • In a multi-radio mesh network system supporting at least two different wireless communication standards and a method of controlling the same, a wireless access switching module determines whether user data en-queued in the queue of a first wireless link and retained on standby cannot be transmitted. The wireless access switching module switches the user data, en-queued in the queue of the first wireless link and retained on standby, to an available second wireless link. The wireless access switching module changes a frame structure according to different wireless access techniques. When access is possible through the second wireless link, a forwarder searches for a local neighbor directly connected to a transmitting node and a receiving node, and forwards the user data. According to the invention, and in contrast to conventional techniques, available multi-wireless resources can be used more efficiently, flexibly and optimally up to the last moment, thereby reducing re-transmission and packet drop. Thus, each hop supports fast data forwarding so as to improve network performance.
    • 在支持至少两个不同无线通信标准的多无线网状网络系统及其控制方法中,无线接入交换模块确定在第一无线链路的队列中排队并保持待机的用户数据是否不能 传输。 无线接入交换模块将在第一无线链路的队列中排队并保持待机的用户数据切换到可用的第二无线链路。 无线接入交换模块根据不同的无线接入技术改变帧结构。 当通过第二无线链路进行访问时,转发器搜索直接连接到发送节点和接收节点的本地邻居,并转发用户数据。 根据本发明,与传统技术相反,可以更有效,灵活和最佳地使用可用的多无线资源,直到最后一刻,从而减少重传和分组丢弃。 因此,每跳支持快速数据转发,以提高网络性能。
    • 7. 发明申请
    • Authentication apparatus and method in wireless mesh network
    • 无线网状网络中的认证装置和方法
    • US20080083022A1
    • 2008-04-03
    • US11898649
    • 2007-09-13
    • Yong LeeWook ChoiHyo-Hyun ChoiYong-Seok Park
    • Yong LeeWook ChoiHyo-Hyun ChoiYong-Seok Park
    • H04L9/32
    • H04L63/08H04W12/06H04W84/18
    • In an authentication apparatus and an authentication method for nodes in a wireless mesh network, an authentication server performs an initial authentication process for a new node entering the wireless mesh network, and a hop-by-hop authentication process between the new node and an adjacent node is performed between the new and adjacent nodes, based upon authentication information provided from the server. As a result, the server need not be involved in the hop-by-hop authentication process. Also, the initial authentication process for the new node is performed quickly, and the problem of hop-by-hop authentication associated with authentication information sharing is overcome. Furthermore, it is possible to prevent any malicious node from entering the wireless mesh network.
    • 在无线网状网络中的节点的认证装置和认证方法中,认证服务器对进入无线网状网络的新节点执行初始认证处理,并且在新节点与相邻节点之间进行逐跳认证处理 基于从服务器提供的认证信息,在新的和相邻的节点之间执行节点。 因此,服务器不需要参与逐跳认证过程。 此外,新节点的初始认证处理能够快速执行,克服了与认证信息共享相关联的逐跳认证问题。 此外,可以防止任何恶意节点进入无线网状网络。