| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | Self-reinforced type automatic extended network | JP2007007796 | 2007-01-17 | JP4422157B2 | 2010-02-24 | ガンサー クレイグ; クライフェルド リチャード; ボートライト ロバート |
| 82 | Self-reinforced auto-expanding network | JP2009189595 | 2009-08-18 | JP2009273158A | 2009-11-19 | BOATRIGHT ROBERT; KREIFELDT RICHARD; GUNTHER CRAIG |
| PROBLEM TO BE SOLVED: To provide a structure to simplify a reconstructing network. SOLUTION: A ring based network includes a first circuit and a second circuit. The first circuit selects one of a plurality of inputs and switches an input to a first common communication line. The second circuit selects one of a second plurality of inputs and switches a second input to a second common communication line linked to one of a first plurality of inputs. A detection circuit controls switches of the first and second circuits so as to emulate a communication ring in which nodes are connected in series in a communication loop. COPYRIGHT: (C)2010,JPO&INPIT | ||||||
| 83 | Self-annealing auto-expanding network | JP2007007796 | 2007-01-17 | JP2007195183A | 2007-08-02 | BOATRIGHT ROBERT; KREIFELDT RICHARD; GUNTHER CRAIG |
| PROBLEM TO BE SOLVED: To provide a structure for simplifying a reconfiguration network. SOLUTION: A ring based network includes a first circuit and a second circuit. The first circuit selects one of a number of inputs and switches an input to a first common communication line. The second circuit selects one of a second number of inputs and switches a second input to a second common communication line linked to one of the first number of inputs. A detect circuit controls the switches of the first and second circuits so as to emulate a communication ring in which nodes are connected in series in a communication loop. COPYRIGHT: (C)2007,JPO&INPIT | ||||||
| 84 | Process for the logical network design in a multi-service network | JP29428196 | 1996-11-07 | JP3720147B2 | 2005-11-24 | ゴプラスワミー ラマクリシュナン カジャマライ; エー.モリソン ジョン; ミトラ デバシス |
| 85 | Test of Unix Open Systems Interconnection layer | JP53533497 | 1997-03-21 | JP3706145B2 | 2005-10-12 | アウトレイ,ケビン; ゲッセル,ロバート,ジェイ.; スウェトマン,ウィリアム,シー.; ベイカー,ジェイ |
| A development test system and method for testing Open Systems Interconnection (OSI) layers 3 through 7 of a communications protocol utilized between nodes in a telecommunications network. The system comprises a protocol simulator that simulates OSI layers 3 through 7 of the communications protocol, a local area network (LAN) connected to the protocol simulator with a first Internet socket interface which replaces OSI layers 1 and 2 of the simulated communications protocol, and a target telecommunication node connected to the LAN with a second Internet socket interface and performing operations with blocks of application software to validate the use of the communications protocol with the target telecommunication node. A protocol interface gateway (PIG-tool) is connected to the LAN with a third Internet socket interface, and serves as a gateway to a target telecommunication system emulator. The target telecommunication system emulator emulates a target telecommunication node and performs operations by executing the code of the application software utilized in the target telecommunication node. The operations validate the use of the communications protocol with the target telecommunication node software without having to utilize the target node hardware. | ||||||
| 86 | Switch with emulation client | JP2001234473 | 2001-08-02 | JP2002118594A | 2002-04-19 | WENGROVITZ MICHAEL |
| PROBLEM TO BE SOLVED: To provide a switch with emulation client in a data communication network according to a session initiation protocol(SIP). SOLUTION: The switch is connected to a legacy telephone which initiates or receives telephonic communication with a SIP-observant telephone or another legacy telephone over an SIP-observant network. The emulation client translates between PBX and SIP manages to allow the legacy telephone to communicate seamlessly via the SIP-observant network. The switch is further connected to a location server which stores redirection information for redirecting calls made to a particular number. The calls are preferably redirected based on the location where the user is scheduled to be present at the time of the call. COPYRIGHT: (C)2002,JPO | ||||||
| 87 | Apparatus and method of the frame synchronization information in a wireless communication system | JP53679896 | 1996-06-03 | JP2002502558A | 2002-01-22 | クーパ,イアン、レスリー |
| (57)【要約】 無線通信システム(1)は、加入者端末(20)との無線周波数信号の送受信のための中央端末(10)を含むものである。 ダウンリンク通信路は、中央端末(10)の送信機(200)から加入者端末(20)の受信機(202)まで確立される。 ダウンリンク信号(212)は、セットアップ時ならびに複数のフレームに区分された情報を搬送する無線通信システム(1)の動作中に送信機(200)から受信機(202)まで送信される。 ダウンリンク信号(212)は各情報フレームに関してフレーム同期信号(232)を持つオーバーヘッド・チャンネル(224)を含んでいる。 受信機(202)は、フレーム同期信号(232)を識別するためにダウンリンク信号(212)をモニターする。 ダウンリンク通信路は、受信機(202)が2つの連続するフレーム同期信号(232)を識別したときに、確立される。 | ||||||
| 88 | Switch control system | JP6620599 | 1999-03-12 | JP2000270095A | 2000-09-29 | MURATA SATOSHI; SUGIMURA YUICHI; HIGUCHI MAMORU; YOKOTA KEIGORO; SUNOCHI TATSUO |
| PROBLEM TO BE SOLVED: To enable a switch control system, which has an old host exchange housing subscriber or remote switch units in a new host exchange, to control call processing control by the new host exchange while effectively using the resources of the old host exchange including the remote switch units. SOLUTION: The new host exchange 3 has an inter-office connection with the old host exchange 1 through a signal link 8, each exchange is provided with an emulation process part, and the old host exchange 1 and new host exchange 3 edit and exchange messages between their emulation process parts; when data and a request for basic control which should be processed by the old host exchange 1 are generated, the new host exchange 3 is informed of them and processes and reports the reported request and data to the old host, thereby performing switching control. | ||||||
| 89 | Test of Unix Open Systems Interconnection layer | JP53533497 | 1997-03-21 | JP2000508848A | 2000-07-11 | アウトレイ,ケビン; ゲッセル,ロバート,ジェイ.; スウェトマン,ウィリアム,シー.; ベイカー,ジェイ |
| A development test system and method for testing Open Systems Interconnection (OSI) layers 3 through 7 of a communications protocol utilized between nodes in a telecommunications network. The system comprises a protocol simulator that simulates OSI layers 3 through 7 of the communications protocol, a local area network (LAN) connected to the protocol simulator with a first Internet socket interface which replaces OSI layers 1 and 2 of the simulated communications protocol, and a target telecommunication node connected to the LAN with a second Internet socket interface and performing operations with blocks of application software to validate the use of the communications protocol with the target telecommunication node. A protocol interface gateway (PIG-tool) is connected to the LAN with a third Internet socket interface, and serves as a gateway to a target telecommunication system emulator. The target telecommunication system emulator emulates a target telecommunication node and performs operations by executing the code of the application software utilized in the target telecommunication node. The operations validate the use of the communications protocol with the target telecommunication node software without having to utilize the target node hardware. | ||||||
| 90 | Method for preparing direct call selecting function in communication device | JP479599 | 1999-01-12 | JPH11285039A | 1999-10-15 | NAUMBURGER VOLKMAR |
| PROBLEM TO BE SOLVED: To repeat a connection with a private terminal based upon a characteristic private terminal call number by allowing a voice constituting element to request a caller to input a postselection instruction when a connection with the caller is established and converting the postselection instruction inputted by the caller to a repeating signal to the private terminal to be selected. SOLUTION: When a repeating matrix 2 accepts an incoming call, a sequence control system 3 outputs a notice message from a voice constituting element 5 to transmit voice information to the caller. The caller is requested to input the postselection instruction including the discrimination code of a private terminal to be selected. A discrimination unit 4 receives and identifies the postselection instruction inputted by the caller, converts it into an electron control signal, and sends it to the sequence control system 3. The sequence control system 3 takes in the number of the private terminal to be selected to generate a repeating signal and sends it to the repeating matrix 2. The repeating matrix 2 makes a connection with the object private terminal with the repeating signal. COPYRIGHT: (C)1999,JPO | ||||||
| 91 | Apparatus and method for controlling transmission power and transmission rate of the wireless communication system | JP53679996 | 1996-06-03 | JPH11506586A | 1999-06-08 | クーパ,イアン、レスリー; バガリア,シャシカント; ユン,ジョマンヌ、シ、シェン; リセイコ,マーティン |
| (57)【要約】 無線通信システム(1)は、加入者端末(20)に、かつそこから無線周波信号を送信し、かつ受信するための中央端末(10)を含んでいる。 無線通信システム(1)は、3つの動作モードのうちの1つで動作する。 ダウンリンク通信パスの確立中の取得モードにおいて、ダウンリンク信号(212)は、低送信速度で動作する受信機(202)によって高パワーレベル及び低送信速度で送信される。 ダウンリンク通信パスの確立後の待機モードにおいて、ダウンリンク信号(212)は、低送信速度で動作する受信機(202)によって低パワーレベル及び低送信速度で送信される。 無線通信送信の要求があったときのトラフィックモードで、ダウンリンク信号(212)は、高送信速度で動作するよう調整する受信機(202)によって高パワーレベル及び高送信速度で送信される。 無線通信送信の完了時に、無線通信システム(1)は、待機モードに戻り、かつ受信機(202)は低送信速度で動作するよう調整する。 | ||||||
| 92 | Apparatus and method for transmitting information in a communication system receiver | JP53678996 | 1996-06-03 | JPH11506585A | 1999-06-08 | リセイコ,マーティン |
| (57)【要約】 無線通信システム(1)は、加入者端末(20)へ、および、から、無線周波数信号を伝送しおよび受信する中央端末(10)を有する。 ダウンリンク通信パスは、中央端末(10)の発信器(200)から、加入者端末(20)の受信器(202)まで確立される。 ダウンリンク信号(212)は、無線通信システム(1)の開始および作動の間、発信器(200)から受信器(202)まで伝送される。 この無線通信システム(1)は、3つの作動モードの一つで働く。 ダウンリンクパスが確立している間捕捉モードにおいては、ダウンリンク信号(212)は高い出力レベルで低い伝送速度で伝送され、受信器(202)は低い伝送速度で働く。 ダウンリンク通信パスの確立した後の待機モードにおいては、ダウンリンク信号(212)は低い出力レベルで低い伝送速度で伝送され、受信器(202)は低い伝送速度で働く。 無線通信伝送の要求があったときの交信モードにおいては、ダウンリンク信号(212)は、高い出力レベルで高い伝送速度で伝送されて、受信器(202)は高い伝送速度で働くように調整される。 無線通信伝送の完了したとき、無線通信システム(1)は待機モードに戻り、受信器(202)は低い伝送速度で働くよう調整される。 | ||||||
| 93 | The apparatus and method of transmission power control in the subscriber terminal of the telecommunications system | JP53678396 | 1996-06-03 | JPH11506583A | 1999-06-08 | バガリア,シャシカント; ユン,ジョマンヌ、シ、シェン |
| (57)【要約】 無線通信システム(1)は、加入者端末(20)との無線周波数信号の送受信のための中央端末(10)を含むものである。 ダウンリンク通信路は、中央端末(10)の送信機(200)から加入者端末(20)の受信機(202)まで確立される。 ダウンリンク信号(212)は、無線通信システム(1)のセットアップ時および動作中に、送信機(200)から受信機(202)まで送信される。 このダウンリンク信号(212)は、電力制御信号(236)を持つオーバーヘッド・チャンネル(224)を含んでいる。 この電力制御信号(236)は、加入者端末(20)の送信機(204)の送信電力を調整することができる。 この送信機(204)の送信電力の調整は、加入者端末(20)の送信機(204)と中央端末(10)の受信機(206)の間のアップリンク通信路の確立および維持を容易にする。 | ||||||
| 94 | Gel-filled modular electrical connection block | JP51708194 | 1994-01-12 | JPH08506210A | 1996-07-02 | SHIMIRAK GERALD L; THOMAS JACKIE; MORALES MIGUEL; DHANIK YOGENDRA S; MESSNER DARCEY |
| (57)【要約】 周囲から保護された電気ソケット及びプラグ組立体(10)は、反復接続及び分離の間中、周囲からの保護を保持する。 ソケット及びプラグ組立体は、導体(85)を収容し、プラグを挿入可能に受け入れるようになっているソケット(100)を含む。 プラグがソケット内に挿入されたとき、密閉剤がソケットから、少なくとも部分的に移動するように、周囲密閉剤は、ソケットを少なくとも部分的に充填する。 閉じ込め用弾性手段(40)は、プラグがソケット内に挿入されたときに、移動された密閉剤を収容し、プラグが外されたときに、密閉剤をソケット内に戻すように、外側に偏向されるはめ込みくぼみを有する。 | ||||||
| 95 | Method and device for control of relay processing of incoming and outgoing calls and mutual dependency processing therefor | JP15996391 | 1991-06-05 | JPH06217015A | 1994-08-05 | AREKUSANDAA TSURAMU; JIEIMUZU DABURIYUU KURUUKUSU J; DEIIN EICHI HARISU |
| PURPOSE: To optimize the paging and processing of call relay, to maximize the operability of an operator and to minimize the waiting time of an incoming call and an outgoing call. CONSTITUTION: Various data relating to the incoming call, the outgoing call and the operability of the operator of the respective calls are generated in a host computer 10 and divided for the incoming call and for the outgoing call. Respective telephone relay lines are respectively specified for the incoming call and the outgoing call and respective states are monitored. When all the relay lines allocated for the incoming call are used, a part of the relay lines specified for the outgoing call is re-specified for the incoming call. When more than prescribed number of the relay lines specified for the incoming call are not used, a part of them is re-specified for the outgoing call. The ratio of responding to the incoming call, the ratio of processing the outgoing call and the allocation of the relay lines to the incoming call and the outgoing call are respectively controlled by the frequency of respective call processings, the time and number of processing delay and a processing procedure selected by a user. | ||||||
| 96 | Controlling a first type telecommunications switch upon translating instructions for a second type telecommunications switch | US16355 | 1998-01-30 | US6134515A | 2000-10-17 | Staffan Skogby |
| A telecommunications exchange comprises a switching device (1201) of a first type through which telecommunications connections are routed. An access unit (1202) connects the switching device to a telecommunications network. The telecommunications exchange includes an exchange main processor (1200) which generates switch control messages for a switching device of a second type but which translates the switch control messages for use by the switching device of the first type. Preferably, the switching device of the second type is a group switch, and the exchange main processor is an open platform processor. The exchange main processor emulates portions of a telecommunications exchange which control the switching device of the first type the emulated portions including a central processor (1234), regional processors, and a switching subsystem (1230). In emulating the central processor, the exchange main processor advantageously enables utilization of previously developed logic for telecommunications exchanges using the second switching device by translating coded instructions executable by the central processor into instructions executable by exchange main processor. | ||||||
| 97 | Method and a system for providing service to telecommunication subscribers at low traffic intensity | US992172 | 1997-12-17 | US6078651A | 2000-06-20 | Jos Den Hartog |
| A method and a system for providing information services to subscribers of a telecommunication network, such as the Public Switched Telephone Network (PSTN) or the Global System for Mobile communications (GSM). Access to the information services is based on the traffic condition of the telecommunication network. An access signal indicating the availability of the information services is generated for receipt by subscribers. The access signal and the information may be transferred in a broadcast mode. The information services may be accessed on demand or automatically. With the invention low traffic hours in the telecommunication network can be made more productive. | ||||||
| 98 | Simulation of computer-based telecommunications system | US887653 | 1997-07-03 | US5946474A | 1999-08-31 | Staffan Skogby |
| A simulation system (200) executes on a host computer system (110) for simulating a target telecommunications system. The simulation system (200) includes a simulation kernel (231) which contains a plurality of simulation subsystems, each of the simulation subsystems corresponding to subsystems of the target telecommunications system. The simulation kernel (231) is assembled as one executable image with all simulation subsystems executing in one common process context and sharing one common execution thread. The simulation system includes a central processor simulator (234) which simulates execution of target instructions in response to commands entered through a user communication channel to the simulation kernel. The central processor simulator simulates utilization of registers of the central processor of the target telecommunication system. An internal bus of the target telecommunication system is simulated by function calls between the simulation subsystems. | ||||||
| 99 | Reconfigurable subscriber terminal for a wireless telecommunications system | US657680 | 1996-05-31 | US5930704A | 1999-07-27 | David L. Kay |
| A subscriber station for the wireless connection of user telecommunications equipment to a remote central station of a wireless telecommunications system includes a transmitter/receiver for wireless communication with the central station, at least one telephone line for connection to subscriber telecommunications equipment and a communications controller connected between the transmitter/receiver and the telephone line for processing signals for transmission and/or received signals The subscriber station is configurable in response to wireless programming signals representative of control code down-loaded from the central station By enabling the down-loading of software for programming the subscriber station, the flexibility and convenience of configuring the subscriber station, both initially and subsequently, is greatly enhanced | ||||||
| 100 | Apparatus and method of establishing a downlink communication path in a wireless telecommunications system | US966351 | 1997-11-06 | US5923668A | 1999-07-13 | Martin Lysejko |
| A wireless telecommunications system (1) includes a central terminal (10) for transmitting and receiving radio frequency signals to and from a subscriber terminal (20). A downlink communication path is established from a transmitter (200) of the central terminal (10) to a receiver (202) of the subscriber terminal (20). A downlink signal (212) is transmitted from the transmitter (200) to the receiver (202) during setup and operation of the wireless telecommunications system (1). The receiver (202) of the subscriber terminal (20) compares a code and phase of a master code sequence in the downlink signal (212) to a code and phase of a slave code sequence of the receiver (202). The receiver (202) adjusts the phase of the slave code sequence until a match is obtained with the master code sequence. Matching of the slave code sequence to the master code sequence facilitates establishment of the downlink communication path. | ||||||
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