| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | Processor for communication | JP25510291 | 1991-10-02 | JPH0595385A | 1993-04-16 | KURANAGA HIROSHI |
| PURPOSE:To provide a processor for communication which is capable of performing a processing for plural layers of a communication protocol by a simple hardware, is capable of performing a high speed access and has few use frequency of a data bus. CONSTITUTION:A processing is performed for the data received from a first layer in a processor for communication 50. A memory controller 15 decides whether an instruction to be processed next by a processing circuit 6 is stored in an incorporated RAM 14 or not. When it is stored, the instruction is read from the incorporated RAM 14. When it is not stored, the instruction is read from an external ROM for a second layer 9 or an external ROM for a third layer 10 via a DMAC 7. When the processing circuit 6 terminates the processing for one layer, it sets and changes the register value of each register in the memory controller 15 to the corresponding one for layer. Therefore, a layer for which a processor for communication 50 performs a processing is switched. | ||||||
| 2 | Communication processor | JP25510291 | 1991-10-02 | JP2729420B2 | 1998-03-18 | KURANAGA HIROSHI |
| 3 | Modular suite for protocol between same row | JP16492294 | 1994-06-24 | JPH07147580A | 1995-06-06 | TOOMASU EFU RA POOTA; MARASHI BEERARAGUHABAN |
| PURPOSE: To provide a new wide E-ISDN service by constituting a modular suite in a signal protocol architecture which is composed at least of one client server oriented signal message and has no relation with any communication network architecture nor any exchange system. CONSTITUTION: An exchange 702 processes ordinary calls, N-ISDN calls, and B-ISDN calls. A B-ISDN communication signal message is received and processed by means of a B-ISDN 703. The B-ISDN 703 is a processor executing call control 710, connection control 711, channel control 712, and service control 713. The exchange 702 communicates with another ATM exchange, such as the ATM exchange 705, etc., by performing B-ISDN call processing 703 by using a communication signal message suitable to theses protocols. Therefore, the application processes of the exchanges 702 and 705 use a common signal protocol defined in this invention for communication. COPYRIGHT: (C)1995,JPO | ||||||
| 4 | Communications signaling protocols | US82654 | 1993-06-25 | US5509010A | 1996-04-16 | Thomas F. La Porta; Malathi Veeraraghavan |
| A modular suite of peer-to-peer protocols that are independent of communications network architecture supported, and the type of switching systems (packet-switched or circuit-switched), is used for a broadband and/or narrowband communications network. The protocols are comprised of client-server-oriented signaling messages that are restricted to include information and parameters associated with only one particular function of traditional call processing. | ||||||
| 5 | Node architecture for communication networks | US035130 | 1987-04-06 | US4821265A | 1989-04-11 | Nandakishore A. Albal; Praduemn K. Goyal |
| An architecture for a switching node of a communication network includes a dedicated hardware Layer 1 processing portion and a Layer 2 and 3 processing portion based on multiple programmed general purpose processors. An array of such processors are used with an arbitration scheme for selecting which of the processors is to be used for any given Layer 2 or Layer 3 process. The architecture allows the node's capacity to be expanded by simply adding more processors to handle increased traffic. | ||||||
| 6 | Application program interface | US231029 | 1994-04-22 | US5572675A | 1996-11-05 | Frank Bergler |
| An application program interface for integrated services digital networks is implemented so that application programs can be generated independently of network protocols (Layer 1, 2; 1TR6, VN2) and independently of the respective implementation of service features. The application program interface contains for each network service an independent service program module (Telephony, FAX, Packet data, Teletex, . . . ) with a message set representing procedures as specified by standards (CCITT, ETSI, . . . ). | ||||||
| 7 | Method for maintaining channels and a subscriber station for use in an ISDN system | US834605 | 1992-02-12 | US5276679A | 1994-01-04 | Thomas D. McKay; James C. Shelby; Martin D. Siebring |
| A method and at least one subscriber station utilizes a software package in combination with at least one terminal adapter which links ISDN circuit-switched channels, such as "B", "H0", "H10", "H11" and the like, into a single logical connection and synchronizes the linked channels in an ISDN system. The station allows a subscriber to dynamically select various bandwidths (i.e. different channels) for data transfer, such as text or graphics. The software package and, preferably, multiple terminal adapters, reside on a personal computer and also permits simultaneous messaging and voice functions between several such subscriber stations. Any number of logical channels can be managed. ISDN data is segmented based on the channel's respective data rates and thereafter simultaneously sent on the channels of the logical connection. ISDN data is consequently transferred at a rate greater than the rate available on any single ISDN channel. | ||||||
| 8 | Communication processor | US906719 | 1992-06-30 | US5408661A | 1995-04-18 | Hiroshi Kuranaga |
| Data received from a first layer is processed in a communication processor. Memory controller determines whether or not an instruction to be processed next by a processing circuit is stored in an internal RAM. When it is stored, it reads the instruction from internal RAM, and otherwise, it reads an instruction from an external ROM through an DMAC. Processing circuit changes setting of register values in respective registers in memory controller to values of the corresponding layer, when processing for one layer is completed. Consequently, the layer to be processed by the communication processor is switched. | ||||||
| 9 | ISDN codeset conversion | US414987 | 1989-09-29 | US5062108A | 1991-10-29 | Bruce M. Bales; Rebecca J. McGillin; Paul E. Miller |
| In a telecommunication switching system, an apparatus for automatically converting ISDN codeset and codepoint protocol in messages transmitted to the telecommunication switching system from a plurality of other telecommunication switching systems each using a diffrent ISDN codeset and codepoint protcol than the telecommunication switching system to identify the same data information. All telecommunication switching systems are interconnected by data channels. Further, the apparatus is responsive to another ISDN message generated by the telecommunications switching system for transmission to another one of the plurality of telecommunication switching systems to convert the codeset and codepoint protocol of the other message to the codepoint and codeset protocol of the other one of the plurality of telecommunication switching systems. The conversions are performed by using sets of conversion tables each identified with an ISDN data channel, and the identity of the data channel is used to select which set of tables is to be used to convert a codeset and codepoint protocol. | ||||||
| 10 | Arbitration in multiprocessor communication node | US271210 | 1988-11-14 | US4949338A | 1990-08-14 | Nandakishore A. Albal; Praduemn K. Goyal |
| An architecture for a switching node of a communication network includes a dedicated hardware Layer 1 processing portion and a Layer 2 and 3 processing portion based on multiple programmed general purpose processors. An array of such processors are used with an arbitration scheme for selecting which of the processors is to be used for any given Layer 2 or Layer 3 process. The architecture allows the node's capacity to be expanded by simply adding more processors to handle increased traffic. | ||||||
| 11 | 수동형 광 가입자 망을 구성하는 광 가입자 단말 및 광 가입자 단말의 소프트웨어 이미지 업데이트 방법 | KR1020090115990 | 2009-11-27 | KR1020110059302A | 2011-06-02 | 김근용; 이영석; 이동수 |
| PURPOSE: An ONT configuring a PON(Passive Optical Network) and a method for updating the software image of the ONT are provided to execute a software image which can be booted in the ONT on the basis of stored state information of an OMCI(ONT Management Control and Interface) software image management entity. CONSTITUTION: A control unit completes OS(Operating System) booting(414). An ONT(Optical Network Terminal) interprets the software image script file of a non-volatile memory(415,416). The ONT selects one of two software images of the nonvolatile memory(417). The ONT loads the selected software image(418). The ONT practices the selected software image(419). | ||||||
| 12 | 서브시 광 통신 네트워크 | KR1020187026740 | 2017-05-17 | KR1020180114153A | 2018-10-17 | |
| 통신시스템(200, 200a-e)은제1 및제2 트렁크터미널들(110, 110a-b), 복수의통신트렁크들(222, 400), 및전력공급장비(212)를포함한다. 각각의통신트렁크는제1 트렁크터미널을제2 트렁크터미널에커플링시키며, 대응하는통신트렁크를따라전달되는신호(266)를증폭시키도록구성된적어도하나의신호증폭기(300)를포함한다. 전력공급장비는복수의통신트렁크들에커플링되며, 통신트렁크의적어도하나의신호증폭기에전력을공급하기위해각각의통신트렁크를따라전력을전달하도록구성된다. 전력공급장비는또한, 복수의통신트렁크들의장애가발생한통신트렁크를따라전기션트장애를식별하는션트장애통지(214)를수신하도록구성된다. 션트장애통지에대한응답으로, 전력공급장비는적어도하나의통신트렁크를따른전력의전달을중단하도록구성된다. | ||||||
| 13 | AUTOMATIC TERMINATION PATH CONFIGURATION | PCT/US2007082514 | 2007-10-25 | WO2008055044A3 | 2008-07-10 | DECONCILIS MICHAEL F |
| There is provided herein a system and method for automatic configuration of data routings for use with electronic data such as phone calls, faxes, etc. In the preferred embodiment, when more than one carrier might potentially terminate the transmission, the carriers are ordered based on some screening criterion (e.g., transmission price). Data transmissions are then assigned to the carriers based on the sorting order, with the second place and lower carriers (e.g., the higher priced carriers) not being selected unless the first carrier cannot complete the transaction. The switch instructions necessary to implement this scheme are generated automatically. | ||||||
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