| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 101 | Rlan wireless telecommunication system with ran ip gateway and methods | JP2009110323 | 2009-04-30 | JP2009207164A | 2009-09-10 | CHITRAPU PRABHAKAR R; MENON NARAYAN PARAPPIL; OZLUTURK FAITH M; KIERNAN BRIAN GREGORY; RAHMAN SHAMIN AKBAR; CHAO YI-JU; KAZAKEVICH LEONID; HUNKELER TERESA J |
| <P>PROBLEM TO BE SOLVED: To provide a radio local area network (RLAN) including a radio access network internet protocol (RAN IP) gateway that enables connectivity to the public internet. <P>SOLUTION: The radio local area network (RLAN), that provides concurrent (12) radio communication services to a plurality of user equipment (UE), comprises: at least one base station (node B) having a transceiver to perform code division multiple access (CDMA) wireless communication; at least one controller (RNC) which controls communication of the base station group; and a radio access network internet protocol gateway (RIP GW) including a gateway general packet radio service support node (GGSN) including an access router function for internet access. <P>COPYRIGHT: (C)2009,JPO&INPIT | ||||||
| 102 | Distributed infrastructure for wireless data communications | JP2008179065 | 2008-07-09 | JP2009027707A | 2009-02-05 | BENDER PAUL E; GROB MATTHEW S; KIMBALL ROBERT H; KARMI GADI |
| PROBLEM TO BE SOLVED: To construct an optimum network system having a control point, routers, and network access points which is capable of handling failures in the control point and routers. SOLUTION: Functionality of the control point is distributed, and the control point can be co-located with every network access point. Each of the plurality of network access points is configured to communicate with at least two of the plurality of routers and to communicate with at least one remote user. COPYRIGHT: (C)2009,JPO&INPIT | ||||||
| 103 | Aggregation method of service connection identifier at relay station adaptive to ieee802.16, program, and relay station | JP2006018432 | 2006-01-27 | JP2007201847A | 2007-08-09 | SAITO KENJI; KANEKO HISAFUMI; IZUMIKAWA HARUNORI |
| PROBLEM TO BE SOLVED: To provide an aggregation method of service connection identifier at a relay station, capable of reducing overhead at a base station BS according to increase in the number of service connection IDs, in a high speed wireless system applied with IEEE802.16. SOLUTION: The relay station accumulates, for a first service information required from a mobile station MS1, the table information in which a first service connection ID between a base station and a relay station is corresponded to a second service connection ID between a relay station and a mobile station. When a dynamic service addition request that contains the service information identical with the first service information is received form a mobile station MS2, a dynamic service change request for changing service information is transmitted to the base station. When a dynamic service change response is received from the base station, a third service connection identifier between a relay station and a mobile station is assigned. The relay station converts a service connection identifier for relaying. COPYRIGHT: (C)2007,JPO&INPIT | ||||||
| 104 | Rlan wireless telecommunication system with ran ip gateway and methods | JP2005280526 | 2005-09-27 | JP2006020369A | 2006-01-19 | CHITRAPU PRABHAKAR R; MENON NARAYAN PARAPPIL; OZLUTURK FAITH M; KIERNAN BRIAN GREGORY; RAHMAN SHAMIN AKBAR; CHAO YI-JU; KAZAKEVICH LEONID; HUNKELER TERESA JOANNE |
| <P>PROBLEM TO BE SOLVED: To provide a radio local area network (RLAN) including a radio access network Internet protocol (RAN IP) gateway for enabling connection to the public Internet. <P>SOLUTION: A radio local area network (RLAN) for providing concurrent (12) wireless telecommunication service for a plurality of user equipments (UEs), includes at least one base station (Node B) having a transceiver for conducting code division multiple access (CDMA) wireless communication, at least one controller (RNC) for controlling the communications of a group of base stations, and a Radio Access Network Internet Protocol Gateway (RIP GW) having a Gateway General Packet Radio Service Support Node (GGSN) with access router functions for connection with the Internet. <P>COPYRIGHT: (C)2006,JPO&NCIPI | ||||||
| 105 | tdd-RLAN wireless communication system and method using Ranip gateway | JP2003581380 | 2003-03-25 | JP2005520449A | 2005-07-07 | アクバール ラーマン シャミン; イ−ジュ チャオ; ジョニー ハンケレル テレサ; パラピル メノン ナラヤン; エム.オズルターク フェイス; グレゴリー キールナン ブライアン; アール.チトラップ プラブハッカー; カザクヴィッチ レオニド |
| 複数のユーザー端末(UE)に対して同時(12)無線通信サービスを提供する時分割複信無線ローカルエリアネットワーク(TDD−RLAN)は、時分割複信(TDD)符号分割多重接続(CDMA)無線通信を行う送受信機を有する少なくとの1つの基地局(ノードB)と、基地局のグループの通信を制御する少なくとも1つのコントローラ(RNC)と、インターネットとの接続のためのアクセスルーター機能を有するゲートウェイ汎用パケット無線サービスサポートノード(GGSN)を備えた無線アクセス網インターネットプロトコルゲートウェイ(RIP GW)を含む。 | ||||||
| 106 | A method and apparatus in order to avoid the loss of data in the PPP re-negotiation in the Um interface | JP2001510259 | 2000-07-14 | JP2003527770A | 2003-09-16 | アブロール、ニシャール; リオイ、マルセロ |
| (57)【要約】 U mインターフェース上でPPP再折衝が生じるときR mインターフェースでTE2 装置102 から送られるデータ流を制御することのできる方法および無線通信装置に関する。 データ流制御はMT2 装置104 とTE2 装置102 との間の物理的インターフェースの電気的シグナリングを操作することによりMT2 装置104によって実行される。 第2の実施形態はU mインターフェースのPPP再折衝が生じるときバッファする方法および無線通信装置104 を提供する。 第3の実施形態では、U mインターフェースのPPP再折衝が生じるときデータはバッファされる。 自由なバッファスペースの量が予め定められたしきい値S540 よりも小さいとき、データ流の制御はTE2 装置102 に対して実行される。 | ||||||
| 107 | Method and service network unit for information when the incoming call directed to a subscriber of the communication network requests | JP2000541834 | 1999-03-22 | JP3442739B2 | 2003-09-02 | ベッヒャー ラインハルト |
| 108 | Repeater having radio communication function, and repeating system | JP2001275727 | 2001-09-11 | JP2003087294A | 2003-03-20 | SATO KAZUHIKO; NISHI TAKATSUGU |
| PROBLEM TO BE SOLVED: To provide a repeater and a repeating system by which a network is freely and easily organized regardless of installation sites. SOLUTION: Repeater device as one aspect of the present invention is the device which is connected to the network and performs packet routing to network equipment connected to the repeating device. The device is provided with a control part for supplying a packet to the network equipment which communicates with a first communication part via the first communication part which conducts communication with an external unit by radio wave and a slot where an extension card which provides function extending property to one of the repeating device is inserted. The control part performs communication with the extension card in a state where the extension card is inserted to the slot. | ||||||
| 109 | Method and service network unit for information when the incoming call directed to a subscriber of the communication network requests | JP2000541834 | 1999-03-22 | JP2002510912A | 2002-04-09 | ベッヒャー ラインハルト |
| (57)【要約】 本発明による情報伝送のための方法によれば、加入者データベース(HLR)からトリガ情報(T−CSI)が加入者に対して目下対応しているサービスネットワークユニット(MSSP)に対して送信され、それと共にトリガイベント(TRE)もサービスネットワークユニット(MSSP)に記憶される。 トリガイベントの存在のもとで情報は、サービス制御ユニット(SCP)からサービスネットワークユニット(MSSP)によって直接請求される。 このようにして、情報は、接続構築の最中でも、あるいは接続が既に一旦形成された後でもサービス制御ユニットによって呼出され加入者もしくはその通信端末に提供される。 | ||||||
| 110 | Subscriber connection unit provided with an individual path selection capability for telecommunications network having an intelligent network structure | JP17002491 | 1991-07-10 | JP3258039B2 | 2002-02-18 | エドユアール・イサンマン; ミシエル・バラール |
| 111 | How to connect the base station to the cellular system | JP2000528057 | 1999-01-05 | JP2002501333A | 2002-01-15 | ユーハ ピルコーラ; マルティン ベルゲンワール |
| (57)【要約】 本発明は、セルラー無線ネットワーク、および、基地局(100)をセルラー無線システムに接続する方法に関する。 その方法は、IP情報ネットワークが使用可能である場合にはいつでも、基地局の高速かつ自動化されたインストレーションを可能する。 セルラー無線システムは、基地局コントローラ(102)および少なくとも1つの基地局をネットワーク要素として備える基地局システムを備え、基地局コントローラは少なくとも1つの基地局を制御する。 本発明は、ネットワーク要素(102、100)がパケットプロトコルを用いる情報ネットワークによって相互接続され、ネットワーク要素の各々は固有のネットワーク要素アドレスを与えられ、パケットプロトコルを用いる前記情報ネットワークのネットワークコンフィギュレーション情報は情報ネットワークに接続されるコンフィギュレーションサーバー(104)において保守され、ネットワークに接続される新しい基地局は最初にコンフィギュレーションサーバーと連絡をとり、コンフィギュレーションサーバーはネットワークコンフィギュレーション情報を基地局に伝送することを特徴とする。 | ||||||
| 112 | Interface device for communication base station | JP2001041285 | 2001-02-19 | JP2001274840A | 2001-10-05 | TEI KENCHU; KEN SHUEI |
| PROBLEM TO BE SOLVED: To provide a base station interface device in an IMT-2000 base station control system eliminating the unnecessary overlapping of a function due to distributed control by centralizing the control function. SOLUTION: Data inputted from a base station is transmitted to an RX multiplexer 509 through E1 interface parts 500 to 503 and ATM physical layer performing parts 504 to 507 to be classified into a cell corresponding to an internal signal and a cell other than the cell corresponding to the internal signal, and an AAL2 ATM cell is converted into an AAL2' ATM cell by an RX type converting part 508 to be transmitted to an ATM switch through a physical layer performing part 513 and an optical transmitting and receiving part 514. Conversely, data inputted from the ATM switch is transmitted to a TX multiplexer 510 through the parts 514 and 513 to be classified into a cell corresponding to an internal signal and a cell other than the cell corresponding to the internal signal, and an AAL2' ATM cell is converted into an AAL2 ATM cell by a TX converting part 511 to be transmitted to the base station through the ATM physical layer performing parts 504 to 507 and the interface parts 500 to 503. COPYRIGHT: (C)2001,JPO | ||||||
| 113 | Mobile communications | JP52960898 | 1997-12-22 | JP2000513901A | 2000-10-17 | ミッコ コルペーラ |
| (57)【要約】 移動体端末(10)は複数の基幹ネットワーク(31a−30c)で使用されるプロトコルに対応した複数の代替プロトコルスタック(151,152,.)を有し、当該移動体端末(10)は当該基幹ネットワークに、共通の所定の低レベル信号化プロトコルを使用して通信している一つ又は複数の無線アクセスネットワーク(20a−20c)を通じてアクセスできる。 無線アクセスネットワーク(20)は、接続されている基幹ネットワークのタイプ(それ故信号が使っているプロトコル)を示す信号(102)をブロードキャストし、基幹ネットワークの新たなタイプを示す信号に遭遇時、移動体端末(10)は無線アクセスネットワークから新たなプロトコルスタックをダウンロードしてもよい。 | ||||||
| 114 | Mobile subscriber calling method and mobile communication system | JP11694694 | 1994-05-30 | JP2885067B2 | 1999-04-19 | YAHAGI MASAHIKO |
| 115 | Mobile object subscriber calling method and mobile object communication system | JP11694694 | 1994-05-30 | JPH07322335A | 1995-12-08 | YAHAGI MASAHIKO |
| PURPOSE: To reduce mobile object subscriber calling signals without reducing the number of base stations provided in a position registration area in a mobile object communication system. CONSTITUTION: In this mobile object communication system, between a position registration register 31 for storing the position information of mobile object subscribers and the base stations 11-13 for calling the mobile object subscribers, a mobile object subscriber calling signal transfer node 21 provided with functions for analyzing the mobile object subscriber calling signals received from the position registration register 31, judging whether or not to transfer the mobile object subscriber calling signals to subordinate equipments including the base stations and transferring or not transferring the signals is provided. The mobile object subscriber calling signal transfer node 21 groups the mobile object subscribers present in the area of the subordinate connected base stations, stores the number of the subscribers for the respective subscriber groups and transfers the mobile object subscriber calling signals when the number of the subscribers of the same subscriber groups as the mobile object subscriber to which a call is terminated is not '0'. COPYRIGHT: (C)1995,JPO | ||||||
| 116 | COMMUNICATION SYSTEM, MANAGEMENT APPARATUS, CONTROL APPARATUS, AND COMMUNICATION METHOD | US15780265 | 2016-11-28 | US20180349203A1 | 2018-12-06 | Yoshinobu OHTA; Kazuhiro EGASHIRA |
| A communication system according to the present disclosure includes: a management apparatus (30) configured to manage positional information regarding a communication terminal (10); a server (50) configured to provide a communication service for the communication terminal (10), and a control apparatus (60) configured to control start or stop of a communication function included in a communication apparatus (40). The server (50) is arranged in the vicinity of a base station (20), the management apparatus (30) transmits the positional information regarding the communication terminal (10) to the control apparatus (60), the control apparatus (60) controls start or stop of the communication function that the communication apparatus (40) includes based on the positional information, and the control apparatus (60) notifies the communication terminal (10) of start or stop of the communication function that the communication apparatus (40) includes via the management apparatus (30). | ||||||
| 117 | BASE STATION AND TIMING CONTROL METHOD | US15778034 | 2016-08-29 | US20180343633A1 | 2018-11-29 | Tooru UCHINO; Anil UMESH; Kohei KIYOSHIMA; Sadayuki ABETA |
| A base station used as a first base station in a radio communication system including the first base station, a second base station communicating via the first base station with a user device, and the user device communicating with the first base station. The base station includes a first receiver that receives an uplink signal transmitted from the user device; a measurer that measures a timing difference between a timing of receiving the uplink signal and a predetermined reference timing retained by the base station; and a first transmitter that transmits, to the user device, a command that is generated based on the timing difference and used to control a transmission timing at which the user device transmits the uplink signal. | ||||||
| 118 | METHOD AND APPARATUS FOR DELETING UE INFORMATION BY SINGLE BASE STATION | US15741109 | 2016-07-04 | US20180199187A1 | 2018-07-12 | Daewook BYUN; Jian XU |
| Provided are a method for deleting, by a mobility management entity (MME) of a local evolved packet core (EPC), user equipment (UE) information in a wireless communication system, and an apparatus for supporting the same. The method may include: receiving a UE information delete request message from a normal base station (BS), and deleting UE information on all UEs in an area of the normal BS, wherein the local EPC is comprised in an isolated BS, the MME is comprised in the local EPC, and the normal BS comprises no local EPC. | ||||||
| 119 | STAGGERED CHANNEL CHANGING FOR CELLS OF SPECTRUM SHARING NETWORKS | US15232474 | 2016-08-09 | US20180049036A1 | 2018-02-15 | Puneet Sethi; Farhad Meshkati; Mehmet Yavuz |
| Described features are directed to staggered frequency channel changing for cells of spectrum sharing networks. In some examples users communicating on one or more frequency channels of a spectrum sharing network may receive an indication that those channels are to be vacated, for example that the frequency channels are not to be transmitted on, or otherwise used for communications. Cells of the spectrum sharing network may receive the indication and perform staggered (e.g., sequential or randomly-timed) channel changes. The staggered channel changes may facilitate handover of user devices of the spectrum sharing network by, for example, reducing a number of cells that are simultaneously undergoing a channel change procedure. Thus, staggered frequency channel changing may reduce user service interruptions and radio link failures in a spectrum sharing network. | ||||||
| 120 | Apparatus and method for base transceiver redundancy in a wireless communication system | US14593462 | 2015-01-09 | US09860771B2 | 2018-01-02 | Jung-Kun Park |
| A method and apparatus are provided for connecting Digital Units (DUs) and Radio frequency Units (RUs) of base transceivers in a wireless communication system. The method includes identifying a failed DU of a base transceiver; and linking an RU corresponding to the failed DU to a DU of a different base transceiver which operates normally. | ||||||
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