JP2008109177A - Onu loop-back testing method in epon system, and onu with loop-back testing function - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide technique for determining which of a defect of user facilities and a defect of common carrier facilities is causes fault, for example, disables communication, when ONU loop-back test is to be conducted. <P>SOLUTION: An ONU 701 of an EPON system complying with IEEE802.3ah, such that a plurality of ONUs connected to one OLT is equipped with an ONU loop-back test control unit 702 and with an OLT-side loop-back unit 703 at a UNI-PHY, and also has a test start means for performing loop-back processing for data frames received from an OLT 710 thereafter, at the UNI-PHY on receiving a loop-back Control OAMPDU frame, prescribed by IEEE802.3ah as a loop-back test start indication from the OLT 710, and a test end means of performing processing for transferring data frames received from the OLT 710, thereafter on receiving a loop-back Control OAMPDU frame prescribed by IEEE802.3ah as a loop-back test end instruction from the OLT 710. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a technique for performing an ONU loopback test in an EPON (Ethernet-Passive Optical Network) system (Ethernet is a registered trademark), which is an optical access system.

"IEEE Standards 802.3ah-2004"

  The EPON system is a system in which the physical interface and communication control protocol between OLT and ONU are standardized by IEEE802.3ah. Multiple subscribers to one subscriber line terminal equipment (OLT: Optical Line Terminal) This is a system in which a line termination unit (ONU: Optical Network Unit) is connected via a branch optical fiber transmission line using an optical splitter and performs communication. The standard specification of IEEE802.3ah is defined in Non-Patent Document 1.

  The OLT is an in-station device installed in a telephone station or the like, and has a function of performing ONU monitoring control while performing communication with the ONU and the upper network. The ONU is a home device installed in the user's home or user building, and has a function of communicating with the OLT and the user terminal. FIG. 1 shows an example of a connection form of the EPON system. 1 is an OLT, 2a to 2c are ONUs, 3 is an optical splitter, 4 is an upper network, 5a to 5c are user terminals, and 6 is an optical fiber.

  A general configuration example of ONU is shown in FIG. Here, the PON-IF is an optical interface connected to the OLT, and the UNI is an interface connected to the user terminal. ONU is a PON-PHY that implements physical termination of PON-IF and PON-MAC that implements logical termination, UNI-PHY that implements physical termination of UNI, and UNI-MAC that implements logical termination, and It consists of a bridge that connects PON-MAC and UNI-MAC. Here, PON-PHY and PON-MAC are defined in IEEE802.3ah, and UNI-PHY and UNI-MAC are defined in IEEE802.3. The PON-MAC includes an OAM sublayer. This functional block is logical only and does not represent an actual physical implementation. The EPON system is a form in which a plurality of ONUs are connected to one OLT, but FIG. 4 shows a one-to-one relationship between the OLT and the ONU.

  When operating an EPON system, it is necessary to have a function to isolate the failure when an optical fiber failure or ONU failure occurs. Therefore, ONU loopback test function is defined in IEEE802.3ah. FIG. 2 shows a control sequence between the OLT and the ONU during the ONU loopback test. The EPON system is a form in which a plurality of ONUs are connected to one OLT, but FIG. 2 shows a one-to-one relationship between the OLT and the ONU.

  As shown in FIG. 2, when the ONU loopback test is started, the OLT transmits a Loopback Control OAMPDU frame in which the OAM Remote Loopback command is set to the Enable status to the ONU. The ONU that has received the frame sets the OAM sublayer as a loopback setting. When the loopback setting is completed, the ONU transmits an Information OAMPDU frame in which each value of the State field is in a loopback state to the OLT. As a result, a loopback test state is established between the OLT and the ONU. Thereafter, the ONU returns all data frames received from the OLT in the OAM sublayer and returns them to the OLT. Therefore, in this state, send the test data frame from the OLT to the ONU and check the test data frame returned from the ONU to check the error occurrence status and disconnection status between the OLT and ONU. Can do. The data frame refers to a frame excluding the MPCPDU frame and the OAMPDU frame defined in IEEE802.3ah among all frames transmitted from the OLT. Depending on the ONU implementation, control frames specified in IEEE802.3 may be excluded.

  At the end of the ONU loopback test, the OLT sends a Loopback Control OAMPDU frame with the OAM Remote Loopback command set to Disable status to the ONU. The ONU that has received the frame cancels the loopback setting of the OAM sublayer. When the cancellation of the loopback setting is completed, the ONU transmits to the OLT an Information OAMPDU frame in which each value of the State field is set to the loopback cancellation state. As a result, the loopback test state is canceled between the OLT and the ONU, and thereafter the ONU transfers the data frame received from the OLT to the UNI.

  As described above, the ONU loopback test uses the loopback in the OAM sublayer, and the flow of frames when performing the loopback in the OAM sublayer defined in Non-Patent Document 1 is shown in FIG. (Extracted from Non-Patent Document 1) Here, Local DTE indicates OLT and Remote DTE indicates ONU. In addition, the lower right part of FIG. 4 illustrates the return position of the test data frame when ONU is set to loop back.

  The names of the frames, commands, and fields described above are those described in Non-Patent Document 1, and the names may be different in other versions of IEEE802.3ah. In that case, The term corresponding to this frame, command and field will be replaced.

  In general, ONUs are installed by telecommunications carriers, and the demarcation point between telecommunications carrier equipment and user equipment is UNI on the user terminal side of ONU. Therefore, when a failure is reported such as communication failure from the user, it is necessary for the communication carrier to check the normality up to UNI. However, the IEEE 802.3ah standard loopback test is a loopback test in the OAM sublayer as described above. Therefore, even if the result of the IEEE 802.3ah standard loopback test is normal, it is not confirmed that it is normal up to the UNI, so the network operator travels to the user's home and exchanges the ONU. It is necessary to confirm the final normality of ONU. For this reason, there is a problem that a very large operation is required to determine whether the user equipment is defective or the communication carrier equipment is defective at the time of failure such as communication failure.

  In order to solve the above problems, the present invention does not use the aforementioned OAM sublayer loopback test in performing the ONU loopback test. It is an object of the present invention to provide a technology that implements a turn-back means in UNI-PHY so as to be able to determine whether there is a defect.

  Furthermore, a loopback start instruction / end instruction frame is completely separate from the case of using the OAM Remote Loopback command of Loopback Control OAMPDU specified by IEEE802.3ah as a method for instructing ONU to start / end a loopback test. May be specified. However, if a loopback start instruction / end instruction frame is specified completely separately, an OLT conforming to the IEEE802.3ah standard cannot be used as it is. That is, the OLT side needs a function for creating a loopback start instruction / end instruction frame in addition to the IEEE802.3ah specification chip. Therefore, in the present invention, the loopback means in the UNI-PHY is used by using the OAM Remote Loopback command of the Loopback Control OAMPDU defined by IEEE802.3ah.

  In order to achieve the above object, the ONU loopback test method according to claim 1 is an IEEE802.3ah-compliant EPON system in which a plurality of ONUs are connected to one OLT, and the OLT side uses IEEE802 as a loopback test start instruction. The process of transmitting the Loopback Control OAMPDU frame (hereinafter referred to as Frame A) specified in .3ah to ONU and the Loopback Control OAMPDU frame (hereinafter referred to as Frame B) specified in IEEE802.3ah as a loopback test end instruction A process to transmit to ONU, and ONU side receives a frame A and then starts a test start process that wraps the data frame received from the subsequent OLT with UNI-PHY and receives a frame B from the subsequent OLT And a test end process for performing a process of transferring the data frame to the UNI.

  The ONU loopback test method according to claim 2, wherein the test start process controls the OAM sublayer so as not to perform loopback setting in the OAM sublayer when the ONU side receives frame A; A process of performing loopback setting in the side direction, and a process of transmitting an Information OAM PDU frame defined in IEEE802.3ah to the OLT as a loopback setting completion notification after performing the loopback setting. And

  The ONU loopback test method according to claim 3, wherein the test termination process includes a process of performing loopback cancellation in UNI-PHY when frame B is received on the ONU side, and after performing the loopback cancellation. And a process of transmitting an Information OAM PDU frame defined in IEEE802.3ah to the OLT as a loopback release completion notification.

  The ONU according to claim 4 is a loopback control OAMPDU frame (specified in IEEE 802.3ah as an instruction to start a loopback test in an ONU of an IEEE 802.3ah compliant EPON system in which a plurality of ONUs are connected to one OLT. (Hereinafter referred to as “frame A”) from the OLT, a test start means for performing a loopback process on the data frame received from the subsequent OLT by the UNI-PHY, and a Loopback Control OAMPDU defined by IEEE802.3ah as a loopback test end instruction When a frame (hereinafter referred to as a frame B) is received from the OLT, a test ending unit is provided for performing a process of transferring a data frame received from the subsequent OLT to the UNI.

  6. The ONU according to claim 5, wherein the test start means controls so as not to perform loopback setting in the OAM sublayer when frame A is received, and means for performing loopback setting in UNI-PHY And means for transmitting an Information OAM PDU frame defined in IEEE802.3ah to the OLT as a loopback setting completion notification after the loopback setting is performed.

  The ONU according to claim 6 is characterized in that the test end means performs a loopback release in UNI-PHY when frame B is received, and an IEEE802 as a loopback release completion notification after the loopback release. And a means for transmitting an Information OAM PDU frame defined in .3ah to the OLT.

  The ONU according to claim 7 includes an ONU loopback test control unit for implementing the test start means and the test end means in the ONU according to claims 4 to 6, and includes an OLT in the UNI-PHY. It is characterized by having a side folding portion.

  The ONU according to claim 8, wherein the ONU loopback test control unit controls the OAM sublayer so as not to perform loopback setting when the frame A is received, and the OLT side folding unit A means for issuing a loopback instruction, and a means for transmitting to the OLT an Information OAM PDU frame defined in IEEE802.3ah as a loopback setting completion notification when a loopback completion notification is received from the OLT side loopback unit. And a means for issuing a UNI loopback release instruction to the OLT-side folding unit when frame B is received. When receiving a loopback release completion notification from the OLT-side folding unit, IEEE802 And a means for transmitting an Information OAM PDU frame defined in .3ah to the OLT.

  The ONU according to claim 9, wherein the OLT side folding unit, when receiving the UNI loopback instruction, performs loopback setting in the OLT side direction by UNI-PHY, and completes the loopback after performing the loopback setting Means for notifying the ONU loopback test control unit of the notification, and means for releasing the loopback in the UNI-PHY when receiving the UNI loopback release instruction, and releasing the loopback after the loopback release is performed. Means for notifying the ONU loopback test control section of a completion notification.

According to the ONU loopback test method of the present invention according to claims 1 to 3, the demarcation point between the facilities of the telecommunications carrier and the user equipment is obtained by performing the folding in the OLT direction with the UNI-PHY on the ONU side It is possible to confirm the normality up to UNI. That is, since it becomes possible to determine whether the user equipment is defective or the communication carrier equipment is defective in the event of a failure such as communication failure, it is possible to greatly reduce the operation of failure isolation.
Furthermore, it is possible to use the IEEE802.3ah standard specification as it is on the OLT side, and no change on the OLT side is required to implement the ONU loopback test method of the present invention, resulting in the addition of functions on the OLT side, etc. Cost can be kept to zero.

According to the ONU of the present invention according to claims 4 to 9, UNI is a demarcation point between the facilities of the communication carrier and the user equipment by performing the loopback in the OLT side direction by the UNI-PHY during the loopback test. It is possible to confirm the normality up to. That is, since it becomes possible to determine whether the user equipment is defective or the communication carrier equipment is defective in the event of a failure such as communication failure, it is possible to greatly reduce the operation of failure isolation.
Furthermore, it is possible to use the IEEE802.3ah standard specification as it is on the OLT side, and when performing a loopback test using the ONU of the present invention, there is no need to change the OLT side. The cost caused by can be suppressed to zero.

  Next, the best mode for carrying out the present invention (hereinafter simply referred to as “embodiment”) will be described. In addition, this invention is not limited by this embodiment. The names of frames, commands, and fields used in the following description are based on “IEEE Standards 802.3ah-2004”, and the names may differ in other versions of IEEE802.3ah. The terms corresponding to frames, commands, and fields shall be read.

FIG. 5 is a diagram showing a control sequence between the OLT and the ONU during the ONU loopback test of the EPON system according to the present invention. The ONU loopback test method of the present invention uses frames, commands, and fields defined in IEEE802.3ah, and will be described with reference to FIG. The EPON system is a form in which a plurality of ONUs are connected to one OLT, but FIG. 5 shows a one-to-one relationship between the OLT and the ONU.
(1) On the OLT side, as a loopback test start instruction, a Loopback Control OAMPDU frame (hereinafter referred to as frame A) with the OAM Remote Loopback command set to Enable status is transmitted to the ONU.
(2) When the frame A is received on the ONU side, control is performed so that the loopback setting in the OAM sublayer is not performed, and the loopback setting is performed in the OLT direction in the UNI-PHY.
(3) When the loopback setting is completed on the ONU side, an Information OAMPDU frame in which each value of the State field is set to the loopback state is transmitted to the OLT.
(4) Between OLT and ONU is in a loopback test state. On the ONU side, the data frame received from OLT is looped back by UNI-PHY.
(5) On the OLT side, a Loopback Control OAMPDU frame (hereinafter referred to as frame B) with the OAM Remote Loopback command set to Disable status is transmitted to the ONU as a loopback test end instruction.
(6) When ONU side receives frame B, it cancels the loopback setting in UNI-PHY.
(7) When the cancellation of the loopback setting is completed on the ONU side, an Information OAMPDU frame in which each value of the State field is set to the loopback cancellation state is transmitted to the OLT.
(8) Loopback is canceled between OLT and ONU, and the ONU side performs processing to transfer the data frame received from OLT to UNI.

  As described above, the ONU loopback test method of the present invention confirms the normality up to UNI, which is the demarcation point between the facilities of the telecommunications carrier and the user equipment, by performing the loopback in the UNI-PHY. It becomes possible. That is, it becomes possible to determine whether the user equipment is defective or the communication carrier equipment is defective at the time of failure such as communication failure.

  Next, functions implemented by the ONU of the present invention will be described. FIG. 6 is a diagram for explaining the function of the ONU according to the embodiment of the present invention. The names of frames, commands, and fields used in the following explanation are based on “IEEE Standards 802.3ah-2004”. The names may differ in other versions of IEEE802.3ah. , And will be read as corresponding to the command and field. In addition, the EPON system has a form in which a plurality of ONUs are connected to one OLT, but FIG. 6 shows a one-to-one relationship between the OLT and the ONU.

  When the ONU 601 of the present invention receives a Loopback Control OAMPDU frame (hereinafter referred to as frame A) with the OAM Remote Loopback command set to Enable status as a loopback test start instruction from the OLT 602, the data frame received from the subsequent OLT 602 is UNI. -When the OLT 602 receives a Loopback Control OAMPDU frame (hereinafter referred to as frame B) with the OAM Remote Loopback command set to Disable status as a loopback test end instruction from the OLT 602. And a test end means 620 for performing processing for transferring the received data frame to the UNI.

  The test start means 610 includes means 611 for controlling not to perform loopback setting in the OAM sublayer when frame A is received, and means 612 for performing loopback setting in the OLT direction in the UNI-PHY. Further, when the loopback setting is completed, there is provided means 613 for transmitting to the OLT 602 an Information OAMPDU frame in which each value of the State field is set to the loopback state as a loopback setting completion notification. After the loopback setting completion notification is transmitted to the OLT 602, the OLT 602 and the ONU 601 are in a loopback test state, and the data frame received from the OLT 602 is returned by the UNI-PHY on the ONU 601 side.

  The test end means 620 includes means 621 for canceling the loopback setting in the UNI-PHY when the frame B is received, and when the cancellation of the loopback setting is completed, A means 622 for transmitting an Information OAMPDU frame whose value is released from the loopback to the OLT 602 is provided. After the loopback release completion notification is transmitted to the OLT 602, the loopback release state is established between the OLT 602 and the ONU 601 and the ONU 601 side performs processing to transfer the data frame received from the OLT 602 to the UNI.

  As explained above, the ONU of the present invention confirms the normality up to the UNI, which is the demarcation point between the network equipment and the user equipment, by performing the loopback in the UNI-PHY in the loopback test state. It becomes possible to do. That is, it becomes possible to determine whether the user equipment is defective or the communication carrier equipment is defective at the time of failure such as communication failure.

  Next, the configuration of the ONU of the present invention will be described. FIG. 7 is a diagram illustrating a configuration example of the ONU according to the embodiment of the present invention. The names of frames, commands, and fields used in the following explanation are based on “IEEE Standards 802.3ah-2004”. The names may differ in other versions of IEEE802.3ah. , And will be read as corresponding to the command and field. In addition, the EPON system is a form in which a plurality of ONUs are connected to one OLT, but FIG. 7 shows a one-to-one relationship between the OLT and the ONU.

  The ONU 701 of the present invention includes an ONU loopback test control unit 702 and an OLT side folding unit 703 in the UNI-PHY in order to implement the test start unit and the test end unit described in FIG.

  When the ONU loopback test control unit 702 receives from the OLT 710 a Loopback Control OAMPDU frame in which the OAM Remote Loopback command is set to the Enable status as a loopback test start instruction, the ONU loopback test control unit 702 controls the loopback setting not to be performed in the OAM sublayer. Instead, a UNI loopback instruction in the OLT side direction is issued to the UNI-PHY.

  Upon receiving the UNI loopback instruction, the UNI-PHY performs loopback to the OLT side at the OLT side loopback unit 703 and notifies the ONU loopback test control unit 702 of the loopback completion.

  The ONU loopback test control unit 702 that has received the return completion notification transmits an Information OAMPDU frame in which each value of the State field is set to the loopback state to the OLT 710 as a loopback setting completion notification. As a result, the OLT 710 recognizes that the ONU 701 is in a loopback state.

  When the ONU loopback test control unit 702 receives a Loopback Control OAMPDU frame from the OLT 710 with the OAM Remote Loopback command set to Disable status as an instruction to end the loopback test, it releases the UNI loopback from the OLT side to the UNI-PHY. Give instructions.

  Upon receiving the UNI loopback cancellation instruction, the UNI-PHY performs loopback cancellation at the OLT side loopback unit 703 and notifies the ONU loopback test control unit 702 of the loopback cancellation completion.

  The ONU loopback test control unit 702 that has received the loopback release completion notification transmits to the OLT 710 an Information OAMPDU frame in which each value of the State field is released as a loopback release completion notification. As a result, the OLT 710 recognizes that the ONU 701 is in a loopback release state.

  As described above, since the loopback position is set to UNI-PHY, the test data frame transmitted from the OLT in the ONU loopback state is returned by the UNI-PHY. As a result, it is possible to confirm the normality up to UNI, which is a demarcation point between the communication facility and user equipment, in the loopback test state. That is, it becomes possible to determine whether the user equipment is defective or the communication carrier equipment is defective at the time of failure such as communication failure. In addition, the lower right part of FIG. 7 illustrates the return position of the test data frame when ONU is set to loop back.

  Further, since the present invention is implemented using a loopback test frame defined in IEEE802.3ah, the OLT side can perform this test if it conforms to IEEE802.3ah.

It is a schematic diagram which shows the connection structure of an EPON system. It is a figure which shows the control sequence between OLT and ONU at the time of the conventional ONU loopback test. It is a figure which shows the flow of the frame at the time of performing a loopback in the OAM layer prescribed | regulated to IEEE Standards 802.3ah-2004. It is a figure which shows the structural example of the conventional ONU. It is a figure which shows the control sequence between OLT and ONU at the time of the ONU loopback test which concerns on embodiment of this invention. It is a figure explaining the function of ONU which concerns on embodiment of this invention. It is a figure which shows the structural example of ONU which concerns on embodiment of this invention.

Explanation of symbols

1 OLT
2a ~ 2c ONU
3 Optical splitter 4 Upper network
5a to 5c User terminal 6 Optical fiber 601 ONU
602 OLT
610 Test start means 620 Test end means 701 ONU
702 ONU loopback test control unit 703 OLT side folding unit 710 OLT

Claims (9)

In an EPON system conforming to IEEE802.3ah where multiple ONUs are connected to one OLT, the Loopback Control OAMPDU frame (hereinafter referred to as Frame A) specified by IEEE802.3ah is sent to the ONU as a loopback test start instruction on the OLT side. It has a process to send and a process to send a Loopback Control OAMPDU frame (hereinafter referred to as Frame B) specified by IEEE802.3ah to ONU as a loopback test end instruction. It has a test start process for performing a loopback process on a data frame received from OLT with UNI-PHY, and a test end process for performing a process for transferring a data frame received from OLT to UNI after receiving frame B ONU loopback test method. The test start process includes a process of controlling not to perform loopback setting in the OAM sublayer when frame A is received on the ONU side, a process of performing loopback setting in the OLT side direction with UNI-PHY, and 2. The ONU loopback test method according to claim 1, further comprising: a process of transmitting an Information OAM PDU frame defined in IEEE802.3ah to the OLT as a loopback setting completion notification after performing the loopback setting. . The test end process is defined in IEEE802.3ah as a process of releasing loopback in UNI-PHY when frame B is received on the ONU side, and a loopback release completion notification after executing the loopback release. The ONU loopback test method according to claim 1, further comprising: a process of transmitting an Information OAM PDU frame to the OLT. Loopback Control OAMPDU frame (hereinafter referred to as Frame A) defined by IEEE802.3ah is received from OLT as an instruction to start loopback test in ONU of IEEE802.3ah compliant EPON system where multiple ONUs are connected to one OLT Then, a test start means for performing a loopback process on the data frame received from the subsequent OLT with UNI-PHY, and a Loopback Control OAMPDU frame (hereinafter referred to as frame B) defined in IEEE802.3ah as an instruction to end the loopback test. ONU comprising test end means for performing a process of transferring a data frame received from the subsequent OLT to the UNI. The test start means performs control so as not to perform loopback setting in the OAM sublayer when frame A is received, means for performing loopback setting in UNI-PHY, and implemented the loopback setting 5. The ONU according to claim 4, further comprising means for transmitting an Information OAM PDU frame defined in IEEE802.3ah to the OLT as a loopback setting completion notification later. The test ending means includes a means for performing loopback cancellation in UNI-PHY when frame B is received, and an Information OAM defined in IEEE802.3ah as a loopback cancellation completion notification after performing the loopback cancellation. 5. The ONU according to claim 4, further comprising means for transmitting a PDU frame to the OLT. 7. The ONU according to claim 4, wherein an ONU loopback test control unit is provided for mounting the test start unit and the test end unit, and an OLT side folding unit is provided in the UNI-PHY. The ONU according to any one of claims 4 to 6. The ONU loopback test control unit has means for controlling not to set loopback in the OAM sublayer when frame A is received, and means for issuing a UNI loopback instruction to the OLT side loopback unit. And a means for transmitting an Information OAM PDU frame defined in IEEE802.3ah to the OLT as a loopback setting completion notification when a loopback completion notification is received from the OLT side folding unit, and when a frame B is received. Information OAM defined in IEEE802.3ah as a loopback release completion notification when a loopback release completion notification is received from the OLT side turnover unit, having means for issuing a UNI loopback release instruction to the OLT side turnup unit The ONU according to claim 7, further comprising means for transmitting a PDU frame to the OLT. The OLT side loopback unit is configured to perform loopback setting in the OLT direction in the UNI-PHY upon receiving the UNI loopback instruction, and to notify the loopback completion notification after the loopback setting is performed. And a means for releasing the loopback in the UNI-PHY upon receiving the UNI loopback release instruction, and a loopback release completion notification after the loopback release is performed, and the ONU loopback test control. The ONU according to claim 7, further comprising means for notifying a section.

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