CN1321011A

CN1321011A - Bandwidth allocation method for passive optical network based on ATM

Info

Publication number: CN1321011A
Application number: CN01106614A
Authority: CN
Inventors: 谭文兵; 何岩
Original assignee: Wuhan Research Institute of Posts and Telecommunications Co Ltd
Current assignee: Wuhan Research Institute of Posts and Telecommunications Co Ltd
Priority date: 2001-04-09
Filing date: 2001-04-09
Publication date: 2001-11-07
Anticipated expiration: 2021-04-09
Also published as: CN1135749C

Abstract

A bandwidth allocating method for passive optical network based on ATM is disclosed. The uplink access bandwidth of ONU is configured by network management interface to manage the bandwidth of PON. It fully uses the characteristics of ATM that its least information unit is a cell. On this basis, the bandwidth is allocated. Its advantages are high flexibility and simplicity, and the support to the transmission structure in ATM mode and more broadband and narrowband services.

Description

Bandwidth allocation methods based on asynchronous transfer mode passive optical network

The present invention relates to a kind of bandwidth allocation methods based on asynchronous transfer mode passive optical network, belong to fiber optic communication field, be specifically related to passive optical fiber network system (Passive Optical Network, abbreviation PON) bandwidth allocation techniques, more particularly, relate to a kind of flexible bandwidth distribution method of the passive optical-fiber network based on ATM (asynchronous transfer mode) technology.

Allocated bandwidth for PON has several different methods.Passive optical network technique is a kind of technology of shared medium in itself, thereby needs an access protocol.The simplest is the mode that adopts a kind of fixed-bandwidth, and this method is the own numbering at this PON of each ONU foundation, carries out up transmission at the time location of appointing regularly.This method is fairly simple, but has following shortcoming, 1) up total bandwidth loses.Because supposition is that 16 ONU are in running status, up bandwidth is just taken, and can not all be that the ONU that envisions has been full of in the network of reality.2) bandwidth of each ONU can not reconfigure by actual needs.

The objective of the invention is bandwidth allocation methods based on asynchronous transfer mode passive optical network, be configured by the up access bandwidth of network management interface ONU, thereby realize the bandwidth of PON is managed, having made full use of the ATM minimum unit of information is the characteristics of a cell, distribute bandwidth on this basis, make it to have succinct, flexible characteristic.

Technical scheme of the present invention is achieved in that

Described bandwidth allocation techniques is that the interface by webmaster is configured the up access bandwidth of ONU, thereby realizes the bandwidth of PON is managed.Be how the OLT side goes to control the process of up transmission how for authorized appropriation the process of ONU and ONU according to authorized signal.The upstream bandwidth distribution technique webmaster program that specifically is exactly system is written to authorization message in the standby mandate memory by microcomputer interface, after having write all authorization messages, the webmaster program is put flag register (202), the feasible state generation once inside out of selecting circuit (202) of the set of flag register (202), make and authorize the active/standby of memory (203) and (207) to take place once to switch with relation, originally be used for therefrom reading mandate and be multiplexed into the main memory of authorizing of descending PLOAM cell and became standby mandate memory, and the standby mandate memory that was used to receive the authorization message of webmaster application configuration originally becomes the main memory of authorizing, and new authorization message is multiplexed in the descending PLOAM cell.

Described bandwidth allocation methods, deposit mandate that webmaster disposing and the mandate of using respectively with two mandate memories, active/standby each other relation, the layoutprocedure of webmaster program does not influence the transport process of mandate, both are separate, and when start new authorization configuration, the webmaster program can be controlled flexibly by set flag register 202.

The upstream bandwidth of the minimum that described bandwidth allocation methods can be distributed is by the capacity decision of authorizing

memory

203 and 207, suppose that the distributable total bandwidth of whole passive optical fiber network system is W, each authorizes the capacity of memory is N mandate, then can distribute the big or small D=W/N of the minimum unit of bandwidth.

The hardware of described bandwidth allocation methods is formed and is comprised microcomputer interface circuit 201, flag register 202, select circuit 206, authorize

memory

202 and 207, mandate is read and is enabled generator 205, multiplex circuit 204, webmaster writes authorization message by microcomputer interface circuit 201 to standby mandate memory, authorize memory 203 and authorize the active/standby each other relation of memory 207, main authorization message of authorizing memory to be used to receive the webmaster application configuration, standby mandate memory is multiplexed into new authorization message in the descending PLOAM cell, the feasible state generation once inside out of selecting circuit (206) of the set of flag register 202, make simultaneously and authorize memory 203 and authorize the active/standby relation generation of memory (207) once to exchange, mandate read the effect that enables generator 205 be with descending signal frame produce synchronously authorize memory read to enable to produce signal, be used for reading authorization message from the main memory of authorizing, the authorization message of reading is multiplexed in the PLOAM cell of down direction by multiplex circuit 204, by the PLOAM cell authorization message is delivered to each ONU.

Described bandwidth allocation methods can be according to the requirement of system by being provided with mandate

Advantage of the present invention is:

1, adopted two mandate memories to store the mandate of getting off by network management configuration, make that the authorization configuration of webmaster and the licensing process of upstream bandwidth are not disturbing mutually each other of carrying out synchronously, improve performance simultaneously, realized the switching that seamless bandwidth authorizing changes.

2, the present invention has realized that not only the flexible bandwidth of asynchronous transfer mode EPON distributes, and has also simplified the programing work of webmaster for the authorization configuration process simultaneously.

3, another characteristics of this method are exactly to adjust the size of the minimum unit of allocated bandwidth according to the needs of system.The total bandwidth of supposing whole passive optical fiber network system is W, and each authorizes the capacity position N byte of memory, then can distribute the big or small D=W/N of the minimum unit of bandwidth.

Below accompanying drawing is described: Fig. 1 is that hardware logic block diagram of the present invention, Fig. 2 are of the present invention

The software logic block diagram.

Narrate embodiments of the invention below:

Hardware components of the present invention comprises microcomputer interface circuit 201, authorize to read and enable generator 205, flag register 202, select circuit 206, authorize

memory

202 and 207, multiplex circuit 204.Webmaster writes authorization message by microcomputer interface circuit 201 to standby mandate memory, authorize memory (203) and authorize the active/standby each other relation of memory 207, main authorization message of authorizing memory to be used to receive the webmaster application configuration, standby mandate memory is multiplexed into new authorization message in the descending PLOAM cell, the feasible state generation once inside out of selecting circuit 206 of the set of flag register 202, make simultaneously and authorize memory 203 and authorize the active/standby relation generation of memory 207 once to exchange, mandate read the effect that enables generator 205 be with descending signal frame produce synchronously authorize memory read to enable to produce signal, be used for reading authorization message from the main memory of authorizing, the authorization message of reading is multiplexed in the PLOAM cell of down direction by multiplex circuit 204, by the PLOAM cell authorization message is delivered to each ONU.

Described bandwidth allocation methods can be according to the requirement of system by being provided with mandate.

The process that described up flexible bandwidth distributes is such: specify device to distribute the parameter of a bandwidth for the setting device mandate of bandwidth by network management interface.Authorize and specify device to distribute to several mandates of certain ONU in the time of one-period, this ONU has just obtained certain bandwidth so.This mandate is sent to ONU by descending PLOAM cell.The mandate container of the ONU number at PON that authorizes oneself that descending PLOAM is contained compares, if equate to think that then this time slot is the mandate of this ONU, and control ONU is sent when the time comes.

The feasible state generation once inside out of selecting circuit 206 of the set of flag register 202, authorize the main and standby relation of

memory

203 and 207 to take place once to change, thereby becoming, standby mandate memory originally main authorizes memory to be multiplexed into new bandwidth authorizing is come into force simultaneously original main authorized appropriation layoutprocedure next time of authorizing memory to become standby mandate memory wait webmaster in order to mandate with network management configuration.Mandate read the effect that enables generator 205 be with descending signal frame produce synchronously authorize memory read to enable to produce signal.The frame structure of down direction is fixed in based on the passive optical-fiber network of ATM, and promptly per 56 cells are formed a frame, and the 1st of each frame and the 28th cell are the PLOAM cell.Authorization value is exactly by the certain location that multiplex circuit 204 is multiplexed into each PLOAM cell authorization message to be passed to each ONU.

This method can be adjusted the size of the minimum unit of allocated bandwidth according to the needs of system.The total bandwidth of supposing whole passive optical fiber network system is W, and each authorizes the capacity position N byte of memory, then can distribute the big or small D=W/N of the minimum unit of bandwidth.For example the total bandwidth of whole passive optical fiber network system is 155.52M, and each authorizes capacity position 512 bytes of memory, then can distribute the big or small D=155.52M/512=0.3M of the minimum unit of bandwidth.In like manner as long as adjust the size that the size of the capacity of authorizing memory just can change the minimum unit that can distribute bandwidth.

Specifically, the flexible bandwidth distribution method based on the asynchronous transfer mode EPON provided by the invention comprises step: 1, webmaster writes authorization message by microcomputer interface circuit 201 to standby mandate memory.2, webmaster is after authorizing the intact authorization message of memory write, set flag register 202, and the expression webmaster has been finished new mandate.3, the feasible state generation once inside out of selecting circuit 206 of the set of flag register 202, make and authorize memory 203 and authorize the active/standby relation generation of memory 207 once to switch, the main memory of authorizing originally becomes the authorization configuration next time that standby mandate memory is waited for webmaster, and original standby mandate memory becomes the main memory of authorizing.When the active/standby relation of authorizing memory is switched, flag register 202 is resetted, make that flag register 202 can be by the set of webmaster program in authorization configuration process next time.4, authorize and to read to enable generator 205 and produce to authorize with respect to descending PLOAM cell and read enable signal and be used for reading authorization message from the main memory of authorizing.The authorization message of 5, reading is multiplexed in the PLOAM cell of down direction by multiplex circuit 204, by the PLOAM cell authorization message is delivered to each ONU.6, main circulation of authorizing the authorization message in the memory not stopped is read, and the configuration that produces once new bandwidth authorizing up to webmaster makes the current main memory of authorizing become standby mandate memory.

The present invention has realized that not only the flexible bandwidth of asynchronous transfer mode EPON distributes, and has also simplified the programing work of webmaster for the authorization configuration process simultaneously.For webmastering software, only need to safeguard an array G[n who has whole authorization messages], wherein n is the amount of capacity of authorizing memory among Fig. 1.The determining of this n is according to system I to be distributed the requirement decision of bandwidth, set forth in front the narration of concrete computational methods.When will carry out the authorization configuration of bandwidth, webmastering software is just with array G[n] in data write successively in standby each memory cell of mandate memory.Concrete writing mandate memory 203 or write mandate memory 207 do not need webmastering software to be concerned about, this point is to rely on internal circuit to switch.Webmastering software only knows that a span is that one section of n ground value is used to write authorization data.After webmastering software has been write n authorization data,, monitor the state of flag register 202 then as long as writing flag register 202 again makes it set.If flag register 202 is reset modes, then represent the authorization configuration success, the bandwidth authorizing that can carry out is next time distributed.If flag register 202 is a SM set mode, represent that then hardware handling authorization configuration, at this moment can not carry out new bandwidth authorizing and distribute.

Claims

1, a kind of bandwidth allocation methods based on the ATM passive optical network network, comprise writing of authorization message that near-end optical line terminal OLT is sent, handle and multiple connection, it is characterized in that: the webmaster program is written to authorization message in the standby mandate memory by microcomputer interface, after having write all authorization messages, the webmaster program is put flag register (202), the feasible state generation once inside out of selecting circuit (202) of the set of flag register (202), make and authorize the active/standby of memory (203) and (207) to take place once to switch with relation, originally be used for therefrom reading mandate and be multiplexed into the main memory of authorizing of descending PLOAM cell and became standby mandate memory, and the standby mandate memory that was used to receive the authorization message of webmaster application configuration originally becomes the main memory of authorizing, and new authorization message is multiplexed in the descending PLOAM cell.

2, bandwidth allocation methods according to claim 1, it is characterized in that depositing mandate that webmaster disposing and the mandate of using respectively with two mandate memories, active/standby each other relation, the layoutprocedure of webmaster program does not influence the transport process of mandate, both are separate, and when start new authorization configuration, the webmaster program can be controlled flexibly by set flag register (202).

3, bandwidth allocation methods according to claim 1 and 2, the upstream bandwidth that it is characterized in that the minimum that this method can be distributed is by the capacity decision of authorizing memory (203) and (207), suppose that the distributable total bandwidth of whole passive optical fiber network system is W, each authorizes the capacity of memory is N mandate, then can distribute the big or small D=W/N of the minimum unit of bandwidth.

4, the hardware of the described bandwidth allocation methods of claim 1 is formed and is comprised microcomputer interface circuit (201), flag register (202), select circuit (206), authorize memory (202) and (207), mandate is read and is enabled generator (205), multiplex circuit (204), webmaster writes authorization message by microcomputer interface circuit (201) to standby mandate memory, authorize memory (203) and authorize the active/standby each other relation of memory (207), main authorization message of authorizing memory to be used to receive the webmaster application configuration, standby mandate memory is multiplexed into new authorization message in the descending PLOAM cell, the feasible state generation once inside out of selecting circuit (206) of the set of flag register (202), make simultaneously and authorize memory (203) and authorize the active/standby relation of memory (207) to produce once exchange, mandate read the effect that enables generator (205) be with descending signal frame produce synchronously authorize memory read to enable to produce signal, be used for reading authorization message from the main memory of authorizing, the authorization message of reading is multiplexed in the PLOAM cell of down direction by multiplex circuit (204), by the PLOAM cell authorization message is delivered to each ONU.