KR20060080783A - Apparatus and method for managing a ethernet passive optical network - Google Patents

Abstract

The present invention provides an operation management apparatus and method for managing an Ethernet passive optical communication network. The present invention for this purpose is to collect performance information for each ONU in an Ethernet passive optical communication network system consisting of one optical line terminal (OLT) and a plurality of optical network units (ONU) connected to the OLT. The method of claim 1, wherein the OLT sequentially transmits a message requesting performance information to the ONU every performance information request period, and when the ONU receives a performance information request message from the OLT, the OLT transmits its performance information to the OLT. And transmitting, to the management system, the performance information received from the ONU that the OLT requests the performance information.

EPON, performance information management, EMS, SNMP.

Description

TECHNICAL APPARATUS AND APPARATUS FOR MANAGING ETHERNET Passive Optical Network             

1 is a view showing a physical network structure of a general Ethernet passive optical communication network,

2 is a diagram illustrating an Ethernet passive optical communication network for periodically collecting performance information of each ONU in an OLT according to an embodiment of the present invention;

3 is a diagram illustrating an Ethernet passive optical communication network for periodically collecting performance information of each ONU in an EMS according to an embodiment of the present invention;

4 is a diagram illustrating a field indicating an OLT index according to an embodiment of the present invention;

5 is a diagram illustrating a field indicating an ONU / ONT index according to an embodiment of the present invention;

6 is a flowchart illustrating a process for periodically collecting performance information of each ONU in an OLT according to an embodiment of the present invention.

The present invention relates to an Ethernet passive optical network (EPON), and more particularly, to an apparatus and method for collecting ONU / ONT performance information in an OLT centralized management EPON system.

Currently, the MAC (Media Access Control) technology for Gigabit Ethernet and ATM Asynchronous Transfer Mode Passive Optical Network (PON) has already been standardized, the contents of which are described in IEEE 802.3z and ITU-T G.983.1. . In the PON type, ATM-PON was first standardized. ATM-PON is a frame that combines ATM cells in a fixed size. Up and down transmission is performed. In a tree-type PON structure, OLT (Optical Line Termination) is in this frame. The downlink cell to be distributed to each ONU (Optical Network Unit) is properly inserted. PON is an optical subscriber network construction method that allows a single optical line termination (OLT) to connect several optical network units (ONUs) using an optical cable (Passive Optical Splitter). In particular, the PON is a one-to-one connection from the center to the connection point, whereas a single optical path can be laid up to a certain distance and the circuit can be distributed to several points around the connection point (ONU). Therefore, it is a way to drastically reduce costs than to install end-to-end optical cables for the construction of the optical network from home to home. PON is generally divided into Ethernet Passive Optic Network (EPON) and ATM Passive Optic Network (APON). With the development of Internet technology, subscribers are requesting more bandwidth and end up with Gigabit Ethernet, which is relatively expensive and obtains higher bandwidth than ATM technology, which is relatively expensive equipment, has limited bandwidth, and has to divide IP packets. The goal is end-to-end transmission. Therefore, the PON structure of the subscriber network has requested the Ethernet method rather than the ATM. This EPON standardization is underway under the name Ethernet in the First Mile (EFM) at IEEE 802.3ah.

1 illustrates a physical network structure of a general passive optical communication network. As shown in FIG. 1, a passive optical communication network is composed of one OLT 100 and at least one ONU 102, 104, 106 connected to the OLT 100. At least one user or end devices 102-1, 104-1, and 106-1 may be connected to the ONUs, respectively.

The EPM module of this EPON system has 16 EPUs connected to one EPM. If there are 16 EPM modules in one OLT, there are 512 ONUs connected to one OLT. In addition, if the EPON system managed by EMS (Element Management System) is not OLT-intensive management method, a Simple Network Management Protocol (SNMP) Agent must exist in 512 ONUs. IP must be assigned. Each OLT requires 512 IPs, which not only requires too many IPs, but also makes it difficult for operators to assign them. Therefore, SNMP Agent exists only in OLT, and ONU uses mostly OLT centralized management method managed through OLT.

In this way, the SNMP Agent provided in the OLT requires an index that distinguishes all OLT, ONU / ONT units, ports, and LLIDs (Logical Link IDs). This index can be used to collect performance information for 512 ONU / ONTs.

However, even if such an index exists, it is impossible to collect all at once because the performance information of 512 ONU / ONT is too much.

Accordingly, an object of the present invention is to provide an apparatus and method for periodically collecting performance information of ONU / ONT in an OLT centralized management EPON system.

Another object of the present invention is to provide an apparatus and method for providing an index configured for periodically collecting performance information of ONU / ONT in an OLT centralized management EPON system.

The present invention for achieving the above object is an Ethernet passive optical communication network system consisting of one optical line terminal (OLT) and a plurality of optical network units (ONU) connected to the OLT, the performance for each ONU An apparatus for collecting information, comprising: a management system for managing performance information of the ONUs, a message for requesting performance information to the ONUs sequentially in a performance information request period, and from the ONU requesting the performance information And the OLT for transmitting the received performance information to the management system, and one or more ONUs for transmitting their performance information to the OLT upon receiving a performance information request message from the OLT.                         

A method of the present invention for achieving the above objects is an Ethernet passive optical communication network system consisting of one optical line terminal (OLT) and a plurality of optical network units (ONU) connected to the OLT, each of the ONU In the method for collecting the performance information for the OLT, the OLT sequentially transmits a message requesting the performance information to the ONUs every performance information request period, and if the ONUs receive the performance information request message from the OLT And transmitting, to the management system, its own performance information to the OLT, and transmitting the performance information received from the ONU to which the OLT has requested the performance information.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

2 is a diagram illustrating an Ethernet passive optical communication network for periodically collecting performance information of each ONU in an OLT according to an embodiment of the present invention.

Assuming that there are n ETHERNET PON MODULEs (202, 204, 206, 208) included in the OLT 200, the OLT 200 first starts ONU / in the first ONU group connected to the first EPM 202. The performance information request message is transmitted to the ONTs, and the received ONU / ONTs provide their performance information to the OLT 200.

After one cycle thereafter, the performance information of the ONUs / ONTs connected to the second EPM is collected in the same manner as described above. Therefore, it takes a time (n x period) to collect performance information of all ONU / ONTs.

3 is a diagram illustrating an Ethernet passive optical communication network for periodically collecting performance information of respective ONUs in an EMS according to an embodiment of the present invention.

Referring to FIG. 3, an element management system (EMS) 300 is connected to a plurality of OLTs to manage a plurality of Ethernet PON access networks 310, 320, and 330. When the management information request for the ONU / ONTs from the EMS 300 is transmitted through the SNMP agent and TCP / IP communication mounted on the OLT. And the operation management information collected through this management function is delivered to the EMS (300) using TCP / IP communication.

Since the index length of the SNMP agent provided in the OLT is 32 bits, all information is represented within 32 bits. One index is used to distinguish between OLT and ONU / ONT by using 1 bit.

In the case of OLT, an index is generated that distinguishes a shelf, a slot, a module (epm / switch), a phone port, an ethernet port, and a link.

The index of this OLT is shown as in FIG. First, the Type field consists of 4 bits and distinguishes shelf, slot, module (epm / switch), pon port, ethernet port, and LLID. This field is for The Shelf field is composed of 4 bits and represents a shelf number. Unit field indicates the unit number, and Side is a field for distinguishing between OLT and ONU / ONT. The Port field is a field for indicating a port number. If the unit is an EPM unit, it indicates an EPM module number. In addition, Link represents an LLID number.

In the case of ONU / ONT, 1 bit is used to distinguish ONU and ONT, and an index for distinguishing a pon port, an Ethernet port, and a link is generated. At this time, an index indicating which EPM module branches the ONU / ONT and an index indicating the order among the 16 branched ONU / ONTs are also added. When ONU / ONT, which was once connected to such OLT, is newly connected, the existing index is used as it is and the existing data is maintained.

Then, the index of ONU / ONT is shown as in FIG. 5 is a diagram illustrating a field indicating an ONU // ONT index according to an embodiment of the present invention.

Referring to FIG. 5, first, the Type field is composed of 4 bits and includes a shelf, a slot, a module (epm / switch), a pon port, and an ethernet port. ), This field is used to distinguish LLID. The Shelf field is composed of 4 bits and represents a shelf number. The unit field indicates a unit number, and the side is a field for distinguishing an OLT case from an ONU / ONT case. The ONU / ONT field is a field for distinguishing ONU and ONT, and the PON Port field is a field for identifying an EPM module branched from ONU / ONT. The ONU / ONT Num field is a field for distinguishing a branched ONU / ONT, and a Port field is a field for indicating a port number. Finally, the link field Link is a field for indicating the LLID number.

In order to request performance information from the EMS 300, an index for the corresponding unit is sent to the OLT 200. If you want to see the performance information of the port / LLID of the OLT (200), give the value of the side corresponding to the OLT and transmit to the OLT 200 using the index structure of Figure 4, the performance information of the port / LLID of the ONU When requesting the value of side, give the value corresponding to ONU / ONT and fill the value in the index structure of FIG.

The OLT 200 periodically collects performance information, which is collected in minute increments from 1 second. It is impossible to collect performance information of all 512 port, user port, and LLID of 512 ONU / ONT within 1 second. Therefore, performance information of ONUs / ONTs connected to one EPM in sequence is transmitted to the OLT 200.

In order to view the information collected by the OLT 200 through the EMS 300 in the above process, the SNMP agent mounted in the OLT is requested using the index of FIG. 4 or 5, and the OLT 200 sends the corresponding information. Deliver to EMS (300).

6 is a flowchart illustrating a process for periodically collecting performance information of each ONU in an OLT according to an embodiment of the present invention. 6 is a diagram illustrating a method for the OLT 200 to collect performance information of a plurality of ONUs. In FIG. 6, it is assumed that three EPMs are included in one OLT. In addition, each EPM is associated with its respective ONU group.

If the OLT 200 becomes a T period for requesting the performance information in step 600, the OLT 200 transmits a performance information request message to the corresponding first ONU group 202 in step 602. Then, the ONUs belonging to the first ONU group 202 receiving the capability information request message transmit their capability information to the OLT 200 in step 604. Thereafter, the OLT 200 checks whether the performance information request T + 1 period has expired. For example, assuming that the performance information request period T is 3 seconds, the first information transmission request message is transmitted to the first ONU group 202, and then it is checked whether 3 seconds, which is a T + 1 period, is reached.

If the T + 1 period is reached, the OLT 200 transmits a performance information request message to the second ONU group 204 in step 608. The ONUs belonging to the second ONU group 204 having received this transmit their performance information to the OLT 200 in step 610. In operation 612, the OLT 200 checks whether a T + 2 period has been reached, and if a T + 2 period has been reached, transmits a performance information request message to the third ONU group 205 which is next, in step 614. . The ONUs belonging to the third ONU group 205 that receive this transmit their performance information to the OLT 200 in step 616.

When the performance information is received from all ONUs as described above, the OLT 200 completes the performance information collection in step 618.

If n EPMs exist in one OLT as shown in FIG. 2, the time taken to collect performance information of all ONUs may be represented by Equation 1 below.

Performance information collection time = number of EPM (n) x cycle time (period)

As described above, the present invention uses the indexing method for distinguishing OLT and ONU / ONT of the EPON system to collect performance information of one ONU / ONT per cycle. In addition, such performance information collection may collect performance information of all ONU / ONT after (EPM number x cycle) time.

In the foregoing detailed description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the claims below but also by those equivalent to the claims.

As described above, the present invention has an advantage of collecting performance information of ONU / ONT of the EPON system for centralized management of OLT.

Claims (7)

In an Ethernet passive optical communication network system consisting of one optical line terminal (OLT) and a plurality of optical network unit (ONU) groups connected to the OLT, an apparatus for collecting performance information for each ONU in the ONU group. To The OLT including one or more performance information managers that transmit performance request messages to the ONUs in the ONU group sequentially every performance information request period, and manage performance information received from the ONU that requested the performance information; And the one or more ONU groups which transmit their performance information to the OLT upon receiving a performance information request message from the OLT. The method of claim 1, And a management system for managing performance information of the ONUs. The method of claim 2, wherein the OLT, And transmitting the performance information received from the ONUs to the management system. 2. The apparatus as claimed in claim 1, wherein the OLT includes as many performance information managers as the number of ONU groups. The apparatus of claim 1, wherein the collection time of the performance information of the ONU in the OLT is a time multiplied by the number of the performance information managers and the information request cycle time. In an Ethernet passive optical communication network system consisting of one optical line terminal (OLT) and a plurality of optical network unit (ONU) groups connected to the OLT, a method for collecting performance information for each ONU, Transmitting, by the OLT, a message requesting performance information to the ONU groups sequentially every performance information request period; When each ONU in the ONU group receives a performance information request message from the OLT, transmitting its performance information to the OLT; And transmitting performance information received from the ONU that the OLT has requested the performance information to the management system. The method of claim 6, wherein the collection time of the performance information of the ONU in the OLT is a time multiplied by the number of the ONU group and the information request cycle time.

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