KR101008780B1 - Method for failure detection of NG-SDH and ethernet network - Google Patents

Abstract

The present invention defines a new OAM function part in the data part of the Ethernet frame, and provides a fault detection method between the NG-SDH network and the Ethernet network by introducing this OAM function in Ethernet to further increase the reliability of the Ethernet network. There is a purpose.

According to the present invention, in the SDH connection failure detection method of the integrated network between the NG-SDH network and the Ethernet network in the failure matching unit in the EOS processing apparatus, when performing a real-time performance monitoring for the SDH frame to receive a defect signal, the corresponding VCAT A first step of identifying which Ethernet VLANs are connected internally and generating an Ethernet OAM frame for the Ethernet VLAN connection; If no defect is found during the real-time performance monitoring, it is determined whether an abnormal frame is received, and when an abnormal frame is received, it is determined whether the received abnormal frame is an error occurrence frame of a predetermined rate or more per second, If applicable, generating an Ethernet OAM frame for the Ethernet VLAN connection; If the received abnormal frame is an error occurrence frame of less than a predetermined rate per second, determining whether the path is in an available state, and if the path is in an available state, adding an error counter to a previous counter and ending the third step. .

NG-SDH, Ethernet, EOS, VLAN, SDH

Description

Method for failure detection of NG-SDH network and Ethernet network {Method for failure detection of NG-SDH and ethernet network}             

1 is a configuration diagram for providing an Ethernet service through the NG-SDH (Next Generation-SDH) network applied to the present invention,

Figure 2 is a structural diagram showing the form of the Ethernet-II frame (VLAN) standard and OAM frame applied to the present invention,

3 is a block diagram of an Ethernet / SDH conversion apparatus according to an embodiment of the present invention;

4 is a flowchart illustrating an Ethernet OAM generation operation performed by a failure matching unit installed in an EOS processing apparatus according to an embodiment of the present invention.

5 is a flowchart of an SDH maintenance signal generation operation performed by a failure matching unit included in an EOS processing apparatus according to an embodiment of the present invention.

6 is a sequence diagram illustrating a process of detecting an OAM frame through performance monitoring on the Ethernet side according to an embodiment of the present invention.

The present invention relates to a fault detection method between an NG-SDH network and an Ethernet network. In particular, a new OAM function is defined in the data portion of an Ethernet frame, and the OAM function can be introduced in Ethernet to further increase the reliability of the Ethernet network. The present invention relates to a fault detection method between an NG-SDH network and an Ethernet network.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a combination of Ethernet technology and Synchronous Digital Hierarchy (SDH) technology in a synchronous transmission network, which has been developed in recent years, but mainly in traffic. It is currently being studied to be limited to the delivery technology.

In the related art, since the SDH transmission network and the Ethernet network are logically completely separated, even if a failure occurs in one network, it is impossible to provide the corresponding failure information to the other network. Moreover, the Ethernet network itself does not even define OAM (Operations And Maintenance) frames. Therefore, even when Ethernet and SDH are connected through EOS (Ethernet Over Sonet) technology, there is a problem that information cannot be exchanged with each other in terms of fault management.

The present invention has been made to solve the above problems of the prior art, when the Ethernet subscriber or users of the Ethernet LAN network when the failure occurs in the SDH network while receiving the circuit service through the NG-SDH network, this is the Ethernet network layer Its purpose is to provide a method for delivering disability information.

According to the present invention for achieving the above object, in the method of detecting the SDH connection failure of the integrated network between the NG-SDH network and the Ethernet network in the failure matching unit in the EOS processing device, real-time performance monitoring for the SDH frame is performed Receiving a fault signal, a first step of identifying which Ethernet VLANs are connected to the corresponding VCAT connection to generate an Ethernet OAM frame for the Ethernet VLAN connection; If no defect is found during the real-time performance monitoring, it is determined whether an abnormal frame is received, and when an abnormal frame is received, it is determined whether the received abnormal frame is an error occurrence frame of a predetermined rate or more per second, If applicable, generating an Ethernet OAM frame for the Ethernet VLAN connection; If the received abnormal frame is an error occurrence frame of less than a predetermined rate per second, determining whether the path is in an available state, and if the path is in an available state, adding an error counter to a previous counter and ending the third step. .

In addition, the present invention, in the Ethernet connection failure detection method of the integrated network between the NG-SDH network and the Ethernet network in the failure matching unit in the EOS processing device, the Ethernet failure occurs while monitoring the performance of the frames from the Ethernet for each VLAN. When OAM frames are detected, generating an SDH AU-AIS signal for a corresponding VCAT connection to inform the SDH network of the Fault; And if the OAM frames are not detected, continuing to increment the frame counter one by one.

Even more preferably, the OAM frame is located in the data area of the Ethernet-II frame and is assumed to be a data type that indicates whether or not the network has failed.

The above object and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention described below with reference to the accompanying drawings by those skilled in the art.

Hereinafter, a failure detection method between an NG-SDH network and an Ethernet network according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram for providing an Ethernet service through a NG-SDH (Next Generation-SDH) network to which the present invention is applied. A plurality of EOS processing apparatuses 105 is provided.

When a user group A is provided with circuit service, the user group B is connected to the user group B through the NG-SDH network using a specific VLAN value. The function of matching the Ethernet and the SDH network is located in the EOS processing unit 105, and the normal service is provided by sending the Ethernet to the corresponding EOS processing unit 105 in a container of the SDH. The network management system 103 performs a management function for the NG-SDH network.

FIG. 2 is a structural diagram showing the form of an Ethernet-II frame (VLAN) standard and an OAM frame applied to the present invention.

Ethernet-II frame specifications (including IEEE 802.1Q VLANs) include destination address 6 bytes, source address 6 bytes, VLAN field 2 bytes, Ethernet type 2 bytes, data 46 to 1500 bytes, and frame check sequence (FCS) 6 A byte is provided.

In addition, the VLAN field includes a priority 3 bits, a Connection Endpoint Identifier (CEI) 1 bit, and a VID 12 bit. In addition, the data includes OAM type 2 bytes, OAM data 100 bytes, and a pad corresponding to data.

When a failure occurs in the SDH network, one frame per second is transmitted to the Ethernet side of the Ethernet OAM frame illustrated in FIG. 2 to inform the failure of the network. At this time, the OAM type is designed in the present embodiment to indicate 1 for failure due to SDH and 2 for failure due to Ethernet.

3 is a block diagram of an Ethernet / SDH conversion device according to an embodiment of the present invention, wherein the Ethernet / SDH conversion device includes a MII or GMII interface 301, a plurality of 8B / 10B encoders 302, and a MAC processing unit ( 303), Tx Ethernet frame buffer unit 304, Rx Ethernet frame buffer unit 305, frame control unit 306, path matching unit 307, VCAT processing unit 308, SDH processing unit 309, fault matching unit ( 310 and a management / statistics processing unit 311.

Meanwhile, the Ethernet / SDH converter is located at the edge of the NG-SDH transmission network.

Data including the Ethernet frame (subscriber Ethernet-> transmission network SDH) transmitted from the subscriber side is separated into the Ethernet frame by the 8B / 10B decoder unit 302 via the MII / GMII interface unit 301. The separated frame is temporarily stored in the Tx frame buffer unit 304 through a VLAN ID verification process in the MAC processing unit 303.

Subsequently, the Ethernet frame temporarily stored in the Tx frame buffer unit 304 is processed by the frame controller 305 according to the bandwidth and quality class contracted by the subscriber. At this time, the Ethernet frame is matched to an appropriate path (path) corresponding to the quality class of the SDH network predetermined by the path matching unit 307.

The path matching unit 307 designates the quality class required by the VLAN of Ethernet, and the bandwidth allocation is made by the VCAT processing unit 308, and mapped to the SDH processing unit 309 to pass through the SDH network to the other Ethernet / It is delivered to SDH conversion device.

The failure matching unit 310 detects an SDH failure signal and declares a failure. This mechanism will be described later with reference to FIG. 4. In addition, the MAC processing unit 303 detects the Ethernet failure signal by the management / statistics processing unit 311 and declares a failure. This mechanism will be described later with reference to FIG. 5.

4 is a flowchart illustrating an Ethernet OAM generation operation performed by a failure matching unit installed in an EOS processing apparatus according to an embodiment of the present invention.

First, in step S401, while performing real-time performance monitoring of all SDH frames on the corresponding interface for fault detection and declaration of an SDH connection, in step S402, a loss of signal (LOS), an alarm indication signal (AIS), and the like. When receiving a defect signal such as an RDI (Remote Defect Indication), in step S403, a failure is declared, and at the same time, it is checked whether the corresponding VCAT connection is internally connected to which VLANs of the Ethernet, and the fault matching unit 310 immediately. Generates an Ethernet OAM frame for an Ethernet VLAN connection.

If no defect is found, in step S404, it is determined whether or not an abnormal frame is received, and if an abnormal frame is received, in step S405, the received abnormal frame is a predetermined rate per second (30 percent in this embodiment). ) If it is determined that the frame is an error occurrence or more, and if this is the case, the Ethernet OAM frame is generated for the Ethernet VLAN connection through the fault matching unit 310 as in step S402.

If the received abnormal frame is an error occurrence frame equal to or less than a preset rate per second, in step S407, it is determined whether the path is in an available state, and if the path is in an available state, the error counter Y is set to 1 in the previous counter. Add and exit If the path is not available, the connection will remain unavailable.

FIG. 5 is a flowchart of an SDH maintenance signal generation operation performed in a failure matching unit included in an EOS processing apparatus according to an embodiment of the present invention. An outline of the SDH maintenance signal generation operation is described in detail below. The management / statistics processing unit 311 through 303 detects a failure for the Ethernet frame and declares a failure. When the failure is declared, the failure is propagated to the SDH side by checking the VCAT connection corresponding to the corresponding VLAN. This will be described in detail as follows.

First, in step S501, while performing performance monitoring of the frames input to the Ethernet for each VLAN, in step S502, if OAM frames are detected, in step S503, an SDH fault (AU-AIS) signal is generated for the corresponding VCAT connection to generate SDH. Inform the network of faults.

If no OAM frames are detected, i.e., receiving normal Ethernet frames, in step S504, the frame counter Y is incremented one by one and then terminated.

On the other hand, if a failure occurs in the SDH network, the Ethernet OAM frame as shown in Figure 2 is transmitted to the Ethernet side one frame per second to inform the failure of the network, in this case, OAM is 1 when the failure by the SDH, This embodiment is designed to allocate 2 in case of failure by Ethernet.

FIG. 6 is a sequence diagram illustrating a process of detecting an OAM frame through performance monitoring on the Ethernet side according to an embodiment of the present invention.

Since the failure propagation of Ethernet cannot be performed unless the OAM frame defined in the present invention is defined and used, the EOS device detecting the OAM frame when a failure occurs propagates the information to the SDH network. In this case, when the 2 Mbps band is used, the error value is set to the V5 bit, and when the 45/155 Mbps band is used, the present embodiment is designed to be set to the H4 bit.

Meanwhile, as illustrated in FIG. 6, in a failure propagation procedure in a user, an EOS device, a DSH device, and the like, messages when a failure occurs in the SDH and a failure occurs in the Ethernet are different.

That is, first, when a failure occurs in the SDH, the EOS processing apparatus detects the failure and propagates to both Ethernet sides. In addition, when a failure occurs in Ethernet, the information is transmitted to the Ethernet user corresponding to the SDH network.

Although the technical spirit of the present invention has been described above with reference to the accompanying drawings, it is intended to exemplarily describe the best embodiment of the present invention, but not to limit the present invention. In addition, it is obvious that any person skilled in the art may make various modifications and imitations without departing from the scope of the technical idea of the present invention.

As described above, according to the present invention, it is possible to further increase the reliability and availability of the network by introducing a new mechanism that prevents propagation of failure information in the existing Ethernet.

Claims (5)

In the detection method of the SDH connection failure of the integrated network between the NG-SDH network and the Ethernet network in the failure matching unit in the EOS processing device, In order to detect the failure of the SDH connection, if a real-time performance monitoring is performed on the SDH frame at the interface to receive a fault signal, the Ethernet VLAN connection is checked by checking which Ethernet VLANs the VCAT connection is connected internally. Generating a Ethernet OAM frame; If no defect is found during the real-time performance monitoring, it is determined whether an abnormal frame is received, and when an abnormal frame is received, it is determined whether the received abnormal frame is an error occurrence frame of a predetermined rate or more per second, If applicable, generating an Ethernet OAM frame for the Ethernet VLAN connection; A third step of determining whether the path is in an available state if the received abnormal frame is an error occurrence frame of less than a predetermined rate per second, and if the path is in an available state, adding an error counter to a previous counter and ending the third step; SDH connection failure detection method of the integrated network between the NG-SDH network and Ethernet network comprising a. The method of claim 1, The defect signal is at least one of a Loss of Signal (LOS), an Alarm Indication Signal (AIS) and a Remote Defect Indication (RDI), SDH connection failure detection method of the integrated network between the NG-SDH network and Ethernet network. The method of claim 1, The third step, If the path is not available, the SDH connection failure detection method of the integrated network between the NG-SDH network and Ethernet network characterized in that the connection is maintained in an unavailable state. The method of claim 1, The OAM frame, A method for detecting SDH connection failure in an integrated network between an NG-SDH network and an Ethernet network, wherein the data type is located in a data area of an Ethernet-II frame and indicates a network failure. In the Ethernet connection failure detection method of the integrated network between the NG-SDH network and the Ethernet network in the failure matching unit in the EOS processing device, If OAM frames are detected, indicating that Ethernet has failed while monitoring frames input from Ethernet for each VLAN, an SDH Fault (AU-AIS) signal is generated for the corresponding VCAT connection to inform the SDH network. step; And If the OAM frames are not detected, continuing to increment the frame counter one by one, The OAM frame, A method for detecting an Ethernet connection failure in an integrated network between an NG-SDH network and an Ethernet network, wherein the data type is a data type located in a data region of an Ethernet-II frame to indicate a failure of a network.

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