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    • 1. 发明申请
    • Access Network System, Base Station Device, Network Connection Device, Mobile Terminal, And Authentication Method
    • 接入网络系统,基站设备,网络连接设备,移动终端和认证方法
    • US20080139173A1
    • 2008-06-12
    • US11721575
    • 2005-12-19
    • Michiru YokoboriTetsuya KawakamiYoshihiro Suzuki
    • Michiru YokoboriTetsuya KawakamiYoshihiro Suzuki
    • H04M1/66
    • H04W12/06H04W80/04H04W88/08
    • A technology for providing an access network system that can reduce the load of a connection authentication of a connection to an access network, upon dividing authentication into the connection authentication of the connection to the access network and a connection authentication of a connection to an external IP network, is disclosed. According to the technology, a first base station device 104a and a second base station device 104b are included. The first base station device is connected to a mobile node 101. The first base station device receives a first authentication request from the mobile node, transmits the first authentication request to an authentication device 102, and receives a first authentication result from the authentication device. The second base station device is newly connected to the mobile node by movement of the mobile node after the mobile node and the first base station device are connected. The second base station device receives a second authentication request including identifying information of the first base station device from the mobile node and transmits the second authentication request to the first base station device. Upon receiving the second authentication request, the first base station device transmits the first authentication result to the second base station device.
    • 一种用于提供接入网络系统的技术,当将认证分解成与接入网络的连接的连接认证以及与外部IP的连接的连接认证时,可以减少连接到接入网络的连接认证的负载 网络,被披露。 根据该技术,包括第一基站装置104a和第二基站装置104b。 第一基站设备连接到移动节点101。 第一基站装置从移动节点接收第一认证请求,向认证装置102发送第一认证请求,从认证装置接收第一认证结果。 在移动节点和第一基站设备连接之后,第二基站设备通过移动节点的移动新连接到移动节点。 第二基站装置从移动节点接收包括第一基站装置的识别信息的第二认证请求,并向第一基站装置发送第二认证请求。 在接收到第二认证请求时,第一基站装置向第二基站装置发送第一认证结果。
    • 2. 发明授权
    • Wireless communication system, communication control method and communication node
    • 无线通信系统,通信控制方式和通信节点
    • US08503343B2
    • 2013-08-06
    • US12376495
    • 2007-08-17
    • Tetsuya KawakamiMichiru YokoboriKazuhiko MiyamotoYoshihiro Suzuki
    • Tetsuya KawakamiMichiru YokoboriKazuhiko MiyamotoYoshihiro Suzuki
    • G08C17/00
    • H04W52/0216H04W48/08H04W72/02H04W74/04Y02D70/144Y02D70/162Y02D70/166Y02D70/22
    • A technique is disclosed, by which it is possible to achieve the reduction of power consumption of each wireless node and to perform efficient access control in wireless communication system. According to this technique, a given period with a beacon transmitted from a gateway (GW) 100 at the foremost position is divided to an active period where each wireless node (P2P tag) transmits and receives a frame and a sleep period where transmitting and receiving of the frames are stopped. Further, the active period is divided to a plurality of timeslots each with a fixed length, and the period is partitioned to sub-periods where each type of a GW, a fixed node (P2P-S tag), and a mobile node (P2P-M tag) can transmit frames respectively. Each of the P2P tags selects a timeslot at random from the period for each type, and after waiting for a waiting period at random at the selected timeslot, it transmits a frame including information to identify the selected timeslot or the waiting period in addition to its own ID.
    • 公开了一种技术,通过该技术可以实现每个无线节点的功耗的降低并且在无线通信系统中执行有效的访问控制。 根据该技术,将从前一位置的网关(GW)100发送的信标的给定期间划分为各无线节点(P2P标签)发送和接收帧的活动期间和发送和接收的休眠期间 的帧被停止。 此外,将活动期间分割为具有固定长度的多个时隙,并且将周期划分为每个类型的GW,固定节点(P2P-S标签)和移动节点(P2P)的每个时段 -M标签)可以分别传输帧。 每个P2P标签从每种类型的周期中随机选择一个时隙,并且在所选择的时隙等待等待周期之后,它发送包括信息的帧,以识别所选择的时隙或等待时间段 自己的ID。
    • 4. 发明申请
    • Access network system, subscriber station device, and network terminal device
    • 接入网系统,用户站设备和网络终端设备
    • US20070165603A1
    • 2007-07-19
    • US10598237
    • 2005-02-24
    • Michiru YokoboriTetsuya KawakamiYoshihiro Suzuki
    • Michiru YokoboriTetsuya KawakamiYoshihiro Suzuki
    • H04L12/66
    • H04L12/2859H04L12/4645
    • The present invention provides a technique to freely select ISP of connection destination for each subscriber terminal while maintaining various advantages when using VLAN, such as accomplishment of inexpensive and simple arrangement and achieving of high-speed communication, and to ensure reliable communication between the subscriber terminal and ISP, and also to cope with Nomadic connection. According to this technique, an access network 3 is provided to achieve ISP connection, by which the subscriber terminal 1 can make access to a given network such as Internet. The access network comprises an ISP side terminal device 6, a subscriber station device 7, and a subscriber side terminal device 9. The transfer of a layer 2 level using VLAN tag can be accomplished between the ISP side terminal device and the subscriber station device (a first network 4), and between the subscriber station device and the subscriber side terminal device (a second network 5). To the frame to be transferred in the first network, a frame header including VLAN tag added at the transmission in the second network is added.
    • 本发明提供了一种在每个用户终端自由选择连接目的地的ISP的技术,同时在使用VLAN的同时保持各种优点,例如廉价且简单的布置和实现高速通信,并确保用户终端之间的可靠通信 和ISP,并且还应对游牧的连接。 根据该技术,提供接入网络3以实现ISP连接,用户终端1可以通过该连接访问诸如因特网的给定网络。 接入网络包括ISP侧终端设备6,用户站设备7和用户侧终端设备9.可以在ISP侧终端设备和用户站设备之间实现使用VLAN标签的二层传输( 第一网络4),以及用户站设备和用户侧终端设备(第二网络5)之间。 对于要在第一网络中传送的帧,添加包括在第二网络中的传输时添加的VLAN标签的帧报头。
    • 5. 发明申请
    • WIRELESS COMMUNICATION SYSTEM, COMMUNICATION CONTROL METHOD AND COMMUNICATION NODE
    • 无线通信系统,通信控制方法和通信节点
    • US20100278087A1
    • 2010-11-04
    • US12376495
    • 2007-08-17
    • Tetsuya KawakamiMichiru YokoboriKazuhiko MiyamotoYoshihiro Suzuki
    • Tetsuya KawakamiMichiru YokoboriKazuhiko MiyamotoYoshihiro Suzuki
    • G08C17/00H04B7/212
    • H04W52/0216H04W48/08H04W72/02H04W74/04Y02D70/144Y02D70/162Y02D70/166Y02D70/22
    • A technique is disclosed, by which it is possible to achieve the reduction of power consumption of each wireless node and to perform efficient access control in wireless communication system. According to this technique, a given period with a beacon transmitted from a gateway (GW) 100 at the foremost position is divided to an active period where each wireless node (P2P tag) transmits and receives a frame and a sleep period where transmitting and receiving of the frames are stopped. Further, the active period is divided to a plurality of timeslots each with a fixed length, and the period is partitioned to sub-periods where each type of a GW, a fixed node (P2P-S tag), and a mobile node (P2P-M tag) can transmit frames respectively. Each of the P2P tags selects a timeslot at random from the period for each type, and after waiting for a waiting period at random at the selected timeslot, it transmits a frame including information to identify the selected timeslot or the waiting period in addition to its own ID.
    • 公开了一种技术,通过该技术可以实现每个无线节点的功耗的降低并且在无线通信系统中执行有效的访问控制。 根据该技术,将从前一位置的网关(GW)100发送的信标的给定期间划分为各无线节点(P2P标签)发送和接收帧的活动期间和发送和接收的休眠期间 的帧被停止。 此外,将活动期间分割为具有固定长度的多个时隙,并且将周期划分为每个类型的GW,固定节点(P2P-S标签)和移动节点(P2P)的每个时段 -M标签)可以分别传输帧。 每个P2P标签从每种类型的周期中随机选择一个时隙,并且在所选择的时隙等待等待周期之后,它发送包括信息的帧,以识别所选择的时隙或等待时间段 自己的ID。
    • 6. 发明授权
    • Radio node apparatus, multi-hop radio system, and multi-hop radio system constructing method
    • 无线节点装置,多跳无线电系统和多跳无线电系统构建方法
    • US07885601B2
    • 2011-02-08
    • US11196530
    • 2005-08-04
    • Tetsuya KawakamiYoshihiro SuzukiMasayuki Fujise
    • Tetsuya KawakamiYoshihiro SuzukiMasayuki Fujise
    • H04B7/00H04B7/14H04B3/36
    • H04W40/22H04L45/122H04L45/20H04L45/48H04W8/22H04W8/24H04W40/246H04W88/04
    • The present invention provides a radio node apparatus, a multi-hop radio system and a multi-hop radio system constructing method, capable of constructing a tree type multi-hop radio system in which mutual radio nodes determine a radio node which becomes a root node of a tree in an autonomous manner and the root node is set as a root in an autonomous manner. The radio node apparatus includes a storage unit for storing state information, used for constructing a multi-hop radio system, including information for specifying a root radio node apparatus positioned at a summit of the multi-hop radio system, with the radio node apparatus has a connection, and the number of hops from the root ratio node apparatus, a collection unit for collecting state information transmitted from surrounding radio node apparatus, and a selection unit for selecting a host connection-accepting radio node apparatus on the basis of the information for specifying the root radio node apparatus and the number of hops included in the collected state information.
    • 本发明提供一种无线节点装置,多跳无线电系统和多跳无线电系统构造方法,能够构成相互无线节点确定成为根节点的无线节点的树型多跳无线系统 以自主的方式将根节点设为根,以自主的方式设置。 无线节点装置包括存储单元,用于存储用于构建多跳无线电系统的状态信息,包括用于指定位于多跳无线电系统的顶点的根无线电节点装置的信息,无线电节点装置具有 连接,根比率节点装置的跳数,用于收集从周围无线节点装置发送的状态信息的收集单元,以及基于用于选择主机连接接受无线节点装置的信息的选择单元 指定根收发状态信息中包含的根无线节点装置和跳数。
    • 7. 发明申请
    • Wireless Node Apparatus, and Multihop Wireless Lan System
    • 无线节点装置和Multihop无线蓝牙系统
    • US20070291679A1
    • 2007-12-20
    • US11579512
    • 2005-04-25
    • Tetsuya KawakamiYoshihiro Suzuki
    • Tetsuya KawakamiYoshihiro Suzuki
    • H04Q7/00
    • H04W40/02H04L12/44H04L45/48H04W84/12
    • Disclosed is a technique of transferring packets among wireless nodes as done in a tree type LAN, without intervening a root node to achieve efficient communications among the wireless nodes. According to the technique, a multihop wireless LAN is constructed by wireless nodes in such a way that it is determined whether or not a wireless node is a root node upon activation; when it is determined that the wireless node is the root node, status information is notified to wireless nodes to be connected, when it is determined that the wireless node is not the root node, wireless nodes to be connection candidates are requested to acquire status information, a higher-rank base station wireless node to be connected is selected and connected based on the status information, and when the wireless node apparatus is made a connection candidate later, status information is notified to wireless nodes. The wireless node includes bridge transfer means 101 which transfers packets from wireless nodes connected as higher-rank base stations to the higher-rank base station wireless node or the wireless node apparatuses connected as higher-rank base stations, or transfers a packet from the higher-rank base station wireless node to the wireless nodes connected as higher-rank base stations.
    • 公开了一种在树状LAN中完成的在无线节点之间传送分组的技术,而不插入根节点以实现无线节点之间的有效通信。 根据该技术,由无线节点构成多跳无线LAN,使得在激活时确定无线节点是否为根节点; 当确定无线节点是根节点时,将状态信息通知给要连接的无线节点,当确定无线节点不是根节点时,请求要连接候选的无线节点获取状态信息 基于状态信息来选择并连接要连接的高级基站无线节点,并且当稍后将无线节点设备设为连接候选者时,向无线节点通知状态信息。 无线节点包括桥接传送装置101,其将作为高级基站连接的无线节点的分组传送到作为高级基站连接的较高级基站无线节点或无线节点装置,或者从较高级基站 -rank基站无线节点连接到作为高级基站的无线节点。
    • 8. 发明申请
    • Radio node apparatus, multi-hop radio system, and multi-hop radio system constructing method
    • 无线节点装置,多跳无线电系统和多跳无线电系统构建方法
    • US20060040705A1
    • 2006-02-23
    • US11196530
    • 2005-08-04
    • Tetsuya KawakamiYoshihiro SuzukiMasayuki Fujise
    • Tetsuya KawakamiYoshihiro SuzukiMasayuki Fujise
    • H04B1/38
    • H04W40/22H04L45/122H04L45/20H04L45/48H04W8/22H04W8/24H04W40/246H04W88/04
    • The present invention provides a radio node apparatus, a multi-hop radio system and a multi-hop radio system constructing method, capable of constructing a tree type multi-hop radio system in which mutual radio nodes determine a radio node which becomes a root node of a tree in an autonomous manner and the root node is set as a root in an autonomous manner. The radio node apparatus includes a storage unit for storing state information, used for constructing a multi-hop radio system, including information for specifying a root radio node apparatus positioned at a summit of the multi-hop radio system, with the radio node apparatus has a connection, and the number of hops from the root ratio node apparatus, a collection unit for collecting state information transmitted from surrounding radio node apparatus, and a selection unit for selecting a host connection-accepting radio node apparatus on the basis of the information for specifying the root radio node apparatus and the number of hops included in the collected state information.
    • 本发明提供一种无线节点装置,多跳无线电系统和多跳无线电系统构造方法,能够构成相互无线节点确定成为根节点的无线节点的树型多跳无线系统 以自主的方式将根节点设为根,以自主的方式设置。 无线节点装置包括存储单元,用于存储用于构建多跳无线电系统的状态信息,包括用于指定位于多跳无线电系统的峰顶的根无线电节点装置的信息,无线电节点装置具有 连接,根比率节点装置的跳数,用于收集从周围无线节点装置发送的状态信息的收集单元,以及基于用于选择主机连接接受无线节点装置的信息的选择单元 指定根收发状态信息中包含的根无线节点装置和跳数。
    • 10. 发明申请
    • COMMUNICATION SYSTEM, WIRELESS COMMUNICATION TERMINAL DEVICE, POSITION ESTIMATION DEVICE, COMMUNICATION RELAY DEVICE AND CONNECTING STATION
    • 通信系统,无线通信终端设备,位置估计设备,通信中继设备和连接站
    • US20100151789A1
    • 2010-06-17
    • US12601080
    • 2008-05-30
    • Yoshihiro SuzukiTetsuya Kawakami
    • Yoshihiro SuzukiTetsuya Kawakami
    • H04B7/00
    • G01S5/0036G01S5/0252H04W60/00
    • The present invention discloses a technique, according to which estimation of a position of a mobile wireless device can be accomplished in a simple system configuration by using short distance communication functions. A plurality of standard stations 110 and a plurality of connecting stations 120 are installed within a predetermined area. A mobile wireless device moving within the predetermined area has short distance wireless communication functions and receives a device ID of an opponent device (a correspondent device) each time it intersects another mobile wireless device or a standard station, and stores the device ID as an intersecting history data. When the mobile wireless device moves to a position where it can perform communication to and from a connecting station, which can make access to a position estimation device 150, the stored intersecting history data is uploaded to the position estimation device. The intersecting history data as uploaded from the mobile wireless device is stored in an intersecting history database 155. The position estimation device identifies positions of installation of all standard stations, and it estimates a moving route of the mobile communication device (for which the position is to be estimated) according to the intersecting history data directly uploaded from the mobile wireless device (for which the position is to be estimated) and a moving route of the mobile wireless device (for which the position is to be estimated) is estimated according to the intersecting history with the mobile wireless device (for which the position is to be estimated) as included in the intersecting history data of another mobile wireless device.
    • 本发明公开了一种技术,根据该技术,可以通过使用短距离通信功能以简单的系统配置来实现移动无线设备的位置的估计。 多个标准站110和多个连接站120安装在预定区域内。 在预定区域内移动的移动无线设备具有短距离的无线通信功能,并且每次与另一个移动无线设备或标准站相交时接收对方设备(通讯设备)的设备ID,并将设备ID存储为交叉 历史数据 当移动无线设备移动到可以进行到连接站的通信的位置,其可以访问位置估计设备150时,将所存储的相交历史数据上传到位置估计设备。 从移动无线装置上传的交叉历史数据被存储在相交历史数据库155中。位置估计装置识别所有标准站的安装位置,并且估计移动通信装置的移动路线(位置是 根据从移动无线设备直接上传的相交历史数据(其位置将被估计)和移动无线设备的移动路由(对于该位置的估计)的估计)根据 与另一个移动无线设备的相交历史数据中包含的与移动无线设备(其位置将要被估计的)的相交历史。