JP5109885B2 - Station side communication equipment - Google Patents

Description

  The present invention relates to an optical access system, particularly a PON (Passive Optical Network), which connects one station side communication device (OLT: Optical Line Terminal) and a plurality of terminal side communication devices (ONU: Optical Network Unit) via an optical fiber. It is about the system.

  The PON system connects one station side communication device (hereinafter referred to as OLT) and a plurality of terminal side communication devices (hereinafter referred to as ONU) using passive optical branching devices such as optical fibers and optical splitters. In the PON system, an ONU is connected to a branch line optical fiber installed in a user's house or outdoors, thereby enabling communication with an OLT installed in a station building.

  In general, a service provider that provides a telephone service, Internet data service, video distribution service, etc. to a user via a PON system receives a contract application from the user, a construction worker visits the user's home, and Install. When a new ONU is connected in the communication system, a continuity confirmation test (loopback test) is performed to confirm whether this ONU can communicate with the OLT correctly. In the prior art, the OLT has started a loopback test for the ONU based on a loopback test instruction from a PC operated by an operator.

JP 2006-352327 A JP 2007-142529 A IEEE Std 802.3TM-2005

  As described above, in the conventional PON system, the continuity confirmation test was performed by the operator's operation. For example, when the construction worker connects the ONU to the OLT, the operator uses a telephone or the like to confirm that the ONU is correctly connected. The operator who has received the notification issues an instruction to conduct the ONU continuity test to the OLT by operating the PC. Upon receiving this instruction, the OLT conducts a continuity confirmation test for the ONU, a test result is notified to the operator, and a series of operations occurs in which the operator confirms the test result, and it takes time to install the ONU. It was.

  Further, although the procedure between the OLT and the ONU for the continuity confirmation test has been clarified, the trigger for starting the test and the confirmation of the test result depend on the operator and have not been clarified.

  The present invention has been made to solve the above-mentioned problems. The ONU continuity confirmation test, the result confirmation procedure are clarified, and the telephone call from the construction staff to the operator and the operator's PC operation are performed. The purpose is to shorten the ONU installation work time as unnecessary.

A station-side communication device (OLT) of a PON system that can connect a plurality of terminal-side communication devices (ONUs) using an optical fiber and an optical branching device, and connection to the station-side communication device (OLT) is permitted. The registration information database for registering the terminal-side communication device (ONU), the terminal-side communication device (ONU) is connected to the station-side communication device (OLT), and the link between the communication devices is established by starting the terminal-side communication device. A registration determination unit that determines whether or not the terminal-side communication device (ONU) has been registered in the registration information database, and the station-side communication device when the registration determination unit determines that the registration has been completed. (OLT) and the terminal-side communication device (ONU) conduct a continuity confirmation test autonomously, and control is performed so that the continuity confirmation test is not performed when the registration determination unit determines that it is not registered. And a control unit.

  According to the present invention, when an ONU registered in advance in the OLT is connected, the OLT is configured to autonomously start a continuity confirmation test with the ONU. Installation work time can be shortened.

Embodiment 1 FIG.
FIG. 1 is a configuration diagram of a PON system according to Embodiment 1 of the present invention. The PON system includes an OLT 1, an operation system (OPS) OPS2, a plurality of ONUs 3, 3a (collectively referred to as ONUs), an optical splitter (optical branching device) 14, a trunk optical fiber 15, and a plurality of branch lines. It is comprised from the optical fibers 16 and 16a (it is named generically as a branch line optical fiber).

  The OLT 1 includes a PON control unit 4 that controls the PON interface, an optical transceiver 5 that transmits and receives optical signals to and from the ONU, an ONU registration information database 6 that stores ONU registration information (for example, a MAC address), and an ONU registration information database 6. An ONU registration / unregistration determination unit 7 that determines whether or not an ONU connected by reference is registered, an ONU automatic continuity test control unit 8 that controls the ONU continuity confirmation test, and exchanges information with the OPS 2. The OPS interface unit 9 is used to rewrite the ONU registration information database 6 and notify the OPS 2 of the ONU automatic continuity test result.

  The ONUs 3 and 3a are PON control units 11 and 11a that control the PON interface, optical transceivers 10 and 10a that transmit and receive optical signals to and from the ONU, and UNIs (Users) that exchange information with user terminals not shown in the figure. Network Interface (Network Interface) units 13 and 13a, PON control units 11 and 11a, and UNI units 13 and 13a are configured with MAC (Media Access Control) bridge units 12 and 12a.

  FIG. 2 is a configuration example of the ONU registration information database according to Embodiment 1 of the present invention. In FIG. 2, the MAC address of the ONU is managed for each line card number.

  Next, the operation when a new ONU is connected will be described with reference to FIGS. In FIG. 3, the person in charge of construction connects the new ONU 3 to the in-home optical fiber, and activates (powers on) the ONU (step S301). A prescribed procedure is performed between the OLT side PON control unit 4 and the ONU side PON control unit 11 to establish a link as a communication path (step S302). As the link establishment procedure, for example, in the case of the Ethernet (registered trademark) PON system, there is a Discovery procedure described in Chapter 64 of Non-Patent Document 1. In the link establishment procedure, the OLT side PON control unit 4 acquires the MAC address of the connected ONU 3. The OLT 1 notifies the OPS 2 of the link establishment via the monitoring control interface unit 9 (step S303).

  When the link is established, the OLT side PON control unit 4 notifies the ONU registration / unregistration determination unit 7 of the acquired MAC address of the ONU 3, and the ONU registration / unregistration determination unit 7 uses the notified MAC address as a key. Then, the ONU registration information database 6 is searched (step S304). When an entry having a matching MAC address exists in the ONU registration information database 6 (when an ONU is registered), the ONU registration / unregistration determination unit 7 instructs the ONU automatic continuity test control unit 8 to start a continuity confirmation test. Is transmitted (step S305, Yes). When the ONU automatic continuity test control unit 8 receives the continuity confirmation test start instruction from the ONU registration / non-registration determination unit 7, it transmits a continuity confirmation test execution instruction to the PON control unit 4 (step S306). On the other hand, when there is no entry having the same MAC address in the ONU registration information database 6 (when no ONU is registered), the ONU automatic continuity test control unit 8 is not instructed to start the continuity confirmation test. Is not implemented (step S305, No).

  Upon receiving the continuity check test execution instruction from the ONU automatic continuity test control section 8, the PON control section 4 issues a return path setting instruction for the ONU 3 to be tested and transmits a test frame. The ONU side PON control unit 11 sets a return path for returning the frame received from the OLT 1 inside the ONU and returning it to the OLT 1 in accordance with the return path setting instruction from the OLT 1. Thereafter, the test frame received from the OLT 1 is returned to the OLT through the return path (step S307). When the continuity confirmation test is completed, the OLT side PON control unit 4 issues a return path release instruction to the ONU 3 to be tested, and the ONU side PON control unit 11 releases the return path. As the return path setting / cancellation procedure, for example, in the case of the Ethernet (registered trademark) PON system, there is an OAM Remote Loopback procedure described in Chapter 57 of Non-Patent Document 1. The OLT side PON control unit 4 notifies the result of the continuity confirmation test to the OPS 2 via the OPS interface unit 9 (step S308).

  The difference between the continuity check test operation at the time of existing ONU connection and the operation at the time of new ONU connection is only step S401 (step S301) as shown in FIG. 4, and the subsequent procedure is the same as the procedure at the time of new ONU connection. is there. That is, when the user turns on and activates the ONU 3 (step S401), a prescribed procedure is performed between the OLT side PON control unit 4 and the ONU side PON control unit 11 to establish a link as a communication path ( Step S402). In the link establishment procedure, the OLT side PON control unit 4 acquires the MAC address of the activated ONU 3. Further, the OLT 1 notifies the OPS 2 of link establishment via the monitoring control interface unit 9 (step S403).

  When the link is established, the OLT side PON control unit 4 notifies the ONU registration / unregistration determination unit 7 of the acquired MAC address of the ONU 3, and the ONU registration / unregistration determination unit 7 uses the notified MAC address as a key. Then, the ONU registration information database 6 is searched (step S404). When an entry having a matching MAC address exists in the ONU registration information database 6 (when an ONU is registered), the ONU registration / unregistration determination unit 7 instructs the ONU automatic continuity test control unit 8 to start a continuity confirmation test. Is transmitted (step S405, Yes). When the ONU automatic continuity test control unit 8 receives the continuity confirmation test start instruction from the ONU registration / unregistration determination unit 7, it transmits a continuity confirmation test execution instruction to the PON control unit 4 (step S406). On the other hand, when there is no entry having the same MAC address in the ONU registration information database 6 (when no ONU is registered), the ONU automatic continuity test control unit 8 is not instructed to start the continuity confirmation test. Is not implemented (step S405, No).

  Upon receiving the continuity check test execution instruction from the ONU automatic continuity test control section 8, the PON control section 4 issues a return path setting instruction for the ONU 3 to be tested and transmits a test frame. The ONU side PON control unit 11 sets a return path for returning the frame received from the OLT 1 inside the ONU and returning it to the OLT 1 in accordance with the return path setting instruction from the OLT 1. Thereafter, the test frame received from the OLT 1 is returned to the OLT via the return path (step S407). When the continuity confirmation test is completed, the OLT side PON control unit 4 issues a return path release instruction to the ONU 3 to be tested, and the ONU side PON control unit 11 releases the return path. The OLT side PON control unit 4 notifies the result of the continuity confirmation test to the OPS 2 via the OPS interface unit 9 (step S408).

  As described above, when the connected ONU has already been registered in the OLT, the OLT autonomously conducts the continuity confirmation test, so that the construction staff can call the operator and perform the continuity confirmation test. This eliminates the need for an operator operation, and shortens the work time when installing a new ONU.

Embodiment 2. FIG.
FIG. 5 is a configuration diagram of the PON system according to Embodiment 2 of the present invention. The components denoted by the same reference numerals as those in FIG. The OLT 21 according to the second embodiment of the present invention is obtained by adding an ONU connection history information table 17 and an ONU connection history presence / absence determining unit 18 to the OLT 1 according to the first embodiment. The other configuration is the same as that of the PON system of the first embodiment.

  FIG. 6 is a configuration example of the ONU connection history information table 17 according to the second embodiment of the present invention. In FIG. 6, the MAC addresses of ONUs with a connection history (past connection) are managed.

  Next, the operation at the time of ONU connection will be described using FIG. 5 and FIG. In FIG. 7, when the ONU 3 is a new ONU, the person in charge of the construction connects the ONU 3 to the home optical fiber and activates the ONU (power ON). If the ONU 3 is an existing ONU, the user activates the ONU 3 (step S701).

  A prescribed procedure is performed between the OLT side PON control unit 4 and the ONU side PON control unit 11 to establish a link as a communication path (step S702). In the link establishment procedure, the OLT side PON control unit 4 acquires the MAC address of the activated ONU 3. Further, the OLT 21 notifies the OPS 2 of the link establishment via the monitoring control interface unit 9 (step S703).

  When the link is established, the OLT side PON control unit 4 notifies the ONU registration / unregistration determination unit 7 of the acquired MAC address of the ONU 3, and the ONU registration / unregistration determination unit 7 uses the notified MAC address as a key. Then, the ONU registration information database 6 is searched (step S704). When an entry with a matching MAC address exists in the ONU registration information database 6 (when an ONU is registered), the ONU registration / unregistration determination unit 7 instructs the ONU connection history presence / absence determination unit 18 to start a continuity test. Transmit (step S705, Yes). When there is no entry with the same MAC address in the ONU registration information database 6 (when no ONU is registered), the continuity confirmation test is not instructed to the ONU connection history presence / absence determination unit 18, so the continuity confirmation test is performed. No (Step S705, No).

  When receiving the continuity test start instruction from the ONU registration / unregistration determination unit 7, the ONU connection history presence / absence determination unit 18 searches the ONU connection history information table 17 using the notified MAC address as a key (step S706). When there is no entry having the same MAC address in the ONU connection history information table 17 (when no ONU has been connected in the past = new ONU), the ONU connection history presence / absence determining unit 18 performs ONU automatic continuity test control. The continuity test start instruction is transmitted to the unit 8, and the MAC address is additionally registered in the ONU connection history information table 17, and the ONU is set to have a connection history (step S707, no match). When there is an entry with the same MAC address in the ONU connection history information table 17 (when an ONU has been connected in the past = an existing ONU), the ONU automatic continuity test control unit 8 is instructed to start a continuity test. Since it is not performed, the continuity test is not performed (step S707, there is a match). When receiving the continuity test start instruction from the ONU connection history presence / absence determining unit 18, the ONU automatic continuity test control unit 8 transmits a continuity test execution instruction to the PON control unit 4 (step S708).

  Upon receiving the continuity check test execution instruction from the ONU automatic continuity test control section 8, the PON control section 4 issues a return path setting instruction for the ONU 3 to be tested and transmits a test frame. The ONU side PON control unit 11 sets a return path for returning a frame received from the OLT 21 inside the ONU and returning it to the OLT 21 in accordance with a return path setting instruction from the OLT 21. Thereafter, the test frame received from the OLT 21 is returned to the OLT 21 via the return path (step S709). When the continuity confirmation test is completed, the OLT side PON control unit 4 issues a return path release instruction to the ONU 3 to be tested, and the ONU side PON control unit 11 releases the return path. The OLT side PON control unit 4 notifies the result of the continuity confirmation test to the OPS 2 via the OPS interface unit 9 (step S710).

  The OPS 2 can delete ONU entries stored in the ONU registration information database 6. When the operator deletes the ONU registration information, the OLT 21 deletes the entry from the ONU registration information database 6 via the OPS interface unit 9 and also deletes the entry from the ONU connection history information table 17. It will be deleted.

  As described above, when the connected ONU has already been registered in the OLT, the OLT autonomously conducts the continuity confirmation test, so that the construction staff can call the operator and perform the continuity confirmation test. This eliminates the need for an operator operation, and shortens the work time when installing a new ONU.

  Also, only when the connected ONU has been registered and the ONU has never been connected in the past, the OLT autonomously conducts the continuity confirmation test, so that the continuity confirmation test is established when the link of the existing ONU is established. The result is not notified to the OPS, the load on the OPS can be reduced, and the consumed bandwidth in the PON interface associated with the continuity confirmation test can be suppressed.

Embodiment 3 FIG.
FIG. 8 is a configuration diagram of the PON system according to Embodiment 3 of the present invention. Components having the same reference numerals as those in FIG. 1 or FIG. 5 have the same configuration and function as those in the first or second embodiment, and thus description thereof is omitted. The OLT 31 according to the third embodiment of the present invention includes an ONU registration / connection history determination unit 37 instead of the ONU registration / unregistration determination unit 7 and the ONU connection history presence / absence determination unit 18 in the OLT 21 according to the second embodiment. In place of the registration information database 6 and the ONU connection history information table 17, an ONU registration / connection history information database 36 is provided. The other configuration is the same as that of the PON system of the second embodiment.

  FIG. 9 is a configuration example of the ONU registration / connection history information database 36 according to the third embodiment of the present invention. In FIG. 9, in addition to the MAC address of the ONU, a connection history (past connection) flag (1 bit) for each registered ONU is managed.

  Next, the operation at the time of ONU connection will be described using FIG. 8 and FIG. In FIG. 10, when the ONU 3 is a new ONU, the person in charge of the construction connects the ONU 3 to the home optical fiber and activates the ONU (power ON). If the ONU 3 is an existing ONU, the user activates the ONU 3 (step S1001).

  A prescribed procedure is performed between the OLT side PON control unit 4 and the ONU side PON control unit 11 to establish a link as a communication path (step S1002). In the link establishment procedure, the OLT side PON control unit 4 acquires the MAC address of the activated ONU 3. The OLT 31 notifies the link establishment to the OPS 2 via the monitoring control interface unit 9 (step S1003).

  When the link is established, the OLT side PON control unit 4 notifies the ONU registration / connection history determination unit 37 of the acquired MAC address of the ONU 3, and the ONU registration / connection history determination unit 37 uses the notified MAC address as a key. The ONU registration / connection history information database 36 is searched (step S1004). If an entry with a matching MAC address does not exist in the ONU registration / connection history information database 36 (when no ONU is registered), the ONU registration / unregistration determination unit 37 terminates the process and does not perform a continuity confirmation test ( Step S1005, No).

  On the other hand, if an entry with a matching MAC address exists in the ONU registration / connection history information database 36 (when an ONU is registered) (step S1005, Yes), the ONU registration / connection history determination unit 37 further determines the MAC address. If the connection history (past connection) flag of the entry with the matching is confirmed and the connection history (past connection) flag is no (when the ONU has never been connected = new ONU), the ONU registration / The connection history determination unit 37 transmits a continuity test start instruction to the ONU automatic continuity test control unit 8 and changes the connection history (past connection) flag of this MAC address in the ONU registration / connection history information database 36 to “yes”. The ONU is set to have a connection history (No in step S1007). When the connection history (past connection) flag of the entry with the matching MAC address is yes (when the ONU has been connected in the past = when it is an existing ONU), a continuity test start instruction to the ONU automatic continuity test control unit 8 Is not performed, the continuity test is not performed (step S1007, Yes). When receiving the continuity test start instruction from the ONU registration / connection history determination unit 37, the ONU automatic continuity test control unit 8 transmits a continuity test execution instruction to the PON control unit 4 (step S1008).

  Upon receiving the continuity check test execution instruction from the ONU automatic continuity test control section 8, the PON control section 4 issues a return path setting instruction for the ONU 3 to be tested and transmits a test frame. The ONU side PON control unit 11 sets a return path for returning the frame received from the OLT 31 inside the ONU and returning it to the OLT 31 in accordance with the return path setting instruction from the OLT 31. Thereafter, the test frame received from the OLT 31 is returned to the OLT 31 via the return path (step S1009). When the continuity confirmation test is completed, the OLT side PON control unit 4 issues a return path release instruction to the ONU 3 to be tested, and the ONU side PON control unit 11 releases the return path. The OLT side PON control unit 4 notifies the result of the continuity confirmation test to the OPS 2 via the OPS interface unit 9 (step S1010).

  The OPS 2 can delete an ONU entry stored in the ONU registration / connection history information database 36.

  As described above, when the connected ONU has already been registered in the OLT, the OLT autonomously conducts the continuity confirmation test, so that the construction staff can call the operator and perform the continuity confirmation test. This eliminates the need for an operator operation, and shortens the work time when installing a new ONU.

  Also, only when the connected ONU has been registered and the ONU has never been connected in the past, the OLT autonomously conducts the continuity confirmation test, so that the continuity confirmation test is established when the link of the existing ONU is established. The result is not notified to the OPS, the load on the OPS can be reduced, and the consumed bandwidth in the PON interface associated with the continuity confirmation test can be suppressed.

  Further, since the past ONU connection history is managed as a connection history (past connection) flag for the registered ONU with a small amount of data, the required memory capacity can be suppressed.

Embodiment 4 FIG.
FIG. 11 is a configuration diagram of the PON system according to the fourth embodiment of the present invention. The components denoted by the same reference numerals as those in FIG. The OLT 41 according to the fourth embodiment of the present invention includes an ONU determination unit 47 in which a function for determining whether or not a continuity check test is performed is added instead of the ONU registration / connection history determination unit 37 in the OLT 31 according to the third embodiment. An ONU information database 46 is provided instead of the ONU registration / connection history information database 36. The other configuration is the same as that of the PON system of the third embodiment.

  In the third embodiment, when a new ONU is connected, if the ONU is registered in the OLT 31, a continuity confirmation test is always performed. However, depending on the telecommunications carrier, there may be a case where the continuity confirmation test is not required even when the ONU is newly established. Therefore, a continuity check test execution flag (1 bit) is provided in the entry of the ONU information database 46, and the continuity check test is executed only when this flag is set valid (on).

  FIG. 12 is a configuration example of the ONU information database 46 according to Embodiment 4 of the present invention. In FIG. 12, in addition to the ONU MAC address, a continuity check test execution flag (1 bit) and a connection history (past connection) flag (1 bit) for each registered ONU are managed.

  Next, the operation at the time of ONU connection will be described using FIG. 11 and FIG. In FIG. 13, when the ONU 3 is a new ONU, the person in charge of the construction connects the ONU 3 to the home optical fiber and activates the ONU (power ON). If the ONU 3 is an existing ONU, the user activates the ONU 3 (step S1301).

  A prescribed procedure is performed between the OLT side PON control unit 4 and the ONU side PON control unit 11 to establish a link as a communication path (step S1302). In the link establishment procedure, the OLT side PON control unit 4 acquires the MAC address of the activated ONU 3. Further, the OLT 31 notifies the OPS 2 of the link establishment via the monitoring control interface unit 9 (step S1303).

  When the link is established, the OLT side PON control unit 4 notifies the ONU determination unit 47 of the MAC address of the acquired ONU 3, and the ONU determination unit 47 searches the ONU information database 46 using the notified MAC address as a key. (Step S1304). If there is no entry having the same MAC address in the ONU information database 46 (when no ONU is registered), the ONU determination unit 47 ends the process and does not perform the continuity confirmation test (No in step S1305).

  On the other hand, when an entry with a matching MAC address exists in the ONU information database 46 (when an ONU is registered) (step S1305, Yes), the ONU determination unit 47 further performs a continuity check test for an entry with a matching MAC address. When the execution flag is confirmed (step S1306) and this flag is invalid (off) (when the ONU is not subjected to the continuity confirmation test), the ONU determination unit 47 ends the process and does not perform the continuity confirmation test ( Step S1307, No). When the continuity check test execution flag of the entry with the matching MAC address is valid (on) (when the ONU is the continuity check test execution target) (Yes in step S1307), the ONU determination unit 47 determines whether the entry has the same MAC address. The connection history (past connection) flag is confirmed (step S1308).

  When this flag is yes (when the ONU has been connected in the past = existing ONU), the ONU determination unit 47 ends the process and does not perform the continuity check test (step S1309, there is a match). On the other hand, when the connection history (past connection) flag of the entry with the matching MAC address is no (when the ONU has never been connected = new ONU), the ONU determination unit 47 performs ONU automatic continuity test control. The continuity test start instruction is transmitted to the unit 8 and the connection history (past connection) flag of this MAC address in the ONU information database 46 is changed to “yes”, so that the ONU has a connection history (step S1309, match). None). When receiving the continuity test start instruction from the ONU registration / connection history determination unit 37, the ONU automatic continuity test control unit 8 transmits a continuity test execution instruction to the PON control unit 4 (step S1310).

  Upon receiving the continuity check test execution instruction from the ONU automatic continuity test control section 8, the PON control section 4 issues a return path setting instruction for the ONU 3 to be tested and transmits a test frame. The ONU side PON control unit 11 sets a return path for returning the frame received from the OLT 41 inside the ONU and returning it to the OLT 41 in accordance with the return path setting instruction from the OLT 41. Thereafter, the test frame received from the OLT 41 is returned to the OLT 41 via the return path (step S1311). When the continuity confirmation test is completed, the OLT side PON control unit 4 issues a return path release instruction to the ONU 3 to be tested, and the ONU side PON control unit 11 releases the return path. The OLT side PON control unit 4 notifies the result of the continuity confirmation test to the OPS 2 via the OPS interface unit 9 (step S1312).

  The OPS 2 can delete the ONU entry stored in the ONU information database 46.

  As described above, when the connected ONU has already been registered in the OLT, the OLT autonomously conducts the continuity confirmation test, so that the construction staff can call the operator and perform the continuity confirmation test. This eliminates the need for an operator operation, and shortens the work time when installing a new ONU.

  Also, only when the connected ONU has been registered and the ONU has never been connected in the past, the OLT autonomously conducts the continuity confirmation test, so that the continuity confirmation test is established when the link of the existing ONU is established. The result is not notified to the OPS, the load on the OPS can be reduced, and the consumed bandwidth in the PON interface associated with the continuity confirmation test can be suppressed.

  Further, since the past ONU connection history is managed as a connection history (past connection) flag for the registered ONU with a small amount of data, the required memory capacity can be suppressed.

  Furthermore, only when the connected ONU is a continuity confirmation test target, the OLT autonomously conducts the continuity confirmation test, whereby an operation without performing the continuity confirmation test is possible, and a flexible operation can be handled.

In the fourth embodiment, the continuity check test execution information is managed in the ONU information database as a flag (1 bit), but the continuity check test is performed in the same manner as the handling of the connection history information in the second embodiment. It is of course possible to provide a separate information determination unit and manage it as a separate table.
In addition, the OLT may autonomously conduct a continuity confirmation test based on the continuity confirmation test execution information without determining whether there is a connection history for a registered ONU. In this case, it is possible to deal with flexible operation.

It is a block diagram which shows the PON system of Embodiment 1 of this invention. It is a block diagram of the ONU registration information database of Embodiment 1 of this invention. It is a figure which shows the new ONU connection sequence in Embodiment 1 of this invention. It is a figure which shows the existing ONU connection sequence in Embodiment 1 of this invention. It is a block diagram which shows the PON system of Embodiment 2 of this invention. It is a block diagram of the ONU connection history information table of Embodiment 2 of this invention. It is a figure which shows the ONU connection sequence in Embodiment 2 of this invention. It is a block diagram which shows the PON system of Embodiment 3 of this invention. It is a block diagram of ONU registration and connection history information database of Embodiment 3 of this invention. It is a figure which shows the ONU connection sequence in Embodiment 3 of this invention. It is a block diagram which shows the PON system of Embodiment 4 of this invention. It is a block diagram of the ONU information database of Embodiment 4 of this invention. It is a figure which shows the ONU connection sequence in Embodiment 4 of this invention.

Explanation of symbols

1 Station side communication equipment (OLT)
2 Supervisory control system (OPS)
3, 3a Terminal side communication device (ONU)
4 OLT side PON control unit 5 OLT side optical transceiver 6 ONU registration information database 7 ONU registration / unregistration determination unit 8 ONU automatic continuity test control unit 9 Monitoring control system (OPS) interface unit 10, 10a ONU side optical transceiver 11 , 11a ONU side PON control unit 12, 12a MAC bridge unit 13, 13a UNI unit 14 Optical splitter (optical branching device)
DESCRIPTION OF SYMBOLS 15 Trunk optical fiber 16, 16a Branch line optical fiber 17 ONU connection history information table 18 ONU connection history presence determination part 21 Station side communication apparatus (OLT)
31 Station side communication equipment (OLT)
36 ONU registration / connection history information database 37 ONU registration / connection history determination unit 41 Station side communication device (OLT)
46 ONU information database 47 ONU determination unit

Claims (7)

In the station side communication device of the PON system that can connect a plurality of terminal side communication devices using an optical fiber and an optical branching device,
A registration information database for registering terminal-side communication devices permitted to connect to the station-side communication device;
Whether or not the terminal-side communication device has been registered in the registration information database when the terminal-side communication device is connected to the station-side communication device and a link between the communication devices is established by starting the terminal-side communication device. A registration determination unit for determining,
When it is determined that the registration determination unit has already been registered, a continuity confirmation test between the station side communication device and the terminal side communication device is autonomously performed, and when the registration determination unit determines that it is not registered, A control unit that controls not to conduct a continuity confirmation test,
A station-side communication device comprising: A connection history information table for registering a connection history with the station side communication device for the terminal side communication device;
When the terminal-side communication device is connected to the station-side communication device and the link between the communication devices is established, the connection history information table is referred to and the terminal-side communication device is connected to the station-side communication device. It further includes a connection history determination unit for determining presence or absence,
The control unit performs control so that the continuity check test is not performed when the connection history determination unit determines that there is a connection record even when the registration determination unit determines that the registration has been completed. The station-side communication device according to claim 1. The registration information database includes a connection history flag indicating a connection history of the registered terminal side communication device with the station side communication device,
The registration determining unit refers to the connection history flag of the registration information database for the terminal-side communication device determined to be registered, and further determines whether or not the terminal-side communication device has a connection record with the station-side communication device. ,
The station-side communication apparatus according to claim 1, wherein the control unit performs control so that the continuity check test is not performed when it is determined that there is a connection record.   4. The station side communication apparatus according to claim 2, wherein, when the continuity check test is performed, the control unit updates a connection history of the terminal side communication apparatus with a connection record. 5. The registration information database includes a continuity confirmation test execution flag indicating that the registered terminal-side communication device is a continuity confirmation test implementation target,
The registration determining unit refers to the continuity check test execution flag of the registration information database for the terminal-side communication device determined to be registered, and further determines whether or not the terminal-side communication device is a subject of the continuity check test. ,
2. The station side communication apparatus according to claim 1, wherein, when it is determined that the continuity confirmation test is not performed, the control unit performs control so that the continuity confirmation test is not performed. The registration information database further includes a connection history flag of the registered terminal side communication device with the station side communication device,
The registration determination unit refers to a connection history flag in the registration information database for a terminal-side communication device that has been registered and has been determined to be subjected to a continuity check test, and connects the terminal-side communication device to the station-side communication device. Further determine whether there is a connection record,
The station-side communication device according to claim 5, wherein the control unit performs control so that the continuity check test is not performed when it is determined that there is a connection record.   The station-side communication apparatus according to claim 1, wherein when the continuity confirmation test is performed, the control unit notifies the monitoring control system that monitors and controls the PON system.

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