JP2004015645A - Station side transmission device and communication system monitoring method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a station transmitting device which is used at a station for collecting signals from subscribers' transmitting devices of respective subscribers and can reduce the communication traffic in monitoring network equipment. <P>SOLUTION: The transmitting devices 10.1 to 10.n of the subscribers multiplex data and maintenance signals from subscribers' PCs 2.1 to 2.n and are connected to the station side transmitting device 100 through a transmission line, for example, an optical fiber 12. The maintenance signals transmitted to the station side transmitting device 100 from the subscribers' transmitting devices 10.1 to 10.n are selected by a system administrator on the basis of preset setting information and then transferred to a centralized monitoring device 300. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a station side transmission device used in subscriber data communication and a communication system monitoring method for monitoring failure information of a network constituting the subscriber data communication.
[0002]
[Prior art]
In a network composed of a large number of hosts, for example, a network in which a connection from each service subscriber's home to the Internet via an intra-office concentrator in a central office is provided for the purpose of troubleshooting, Generally, a monitoring system for managing network devices is provided.
[0003]
[Problems to be solved by the invention]
However, in a network composed of a large number of hosts and transmission devices, there is a problem that communication traffic between the centralized monitoring device and the transmission device for performing the above-described monitoring becomes very large.
[0004]
For example, when the above-described monitoring system is applied to a subscriber data communication system (thousands to hundreds of thousands or more subscribers), enormous communication traffic occurs, communication costs increase, and in some cases, failure information is missed. And system down can occur. This is because all fault information (maintenance information) from the transmission device in which a fault has occurred is transmitted to the centralized monitoring and control device. There is a cause in doing it.
[0005]
For example, Japanese Patent Application Laid-Open No. 4-17429 discloses that when monitoring network devices, when transmitting fault information between a centralized monitoring station that performs centralized monitoring and a plurality of monitored transmission apparatuses, A centralized supervisory control system is disclosed in which a centralized supervisory control system is connected to a multistage layer to form a monitoring system, and collects and monitors all fault information generated in the plurality of monitored transmission devices in a centralized monitoring and control device provided in a centralized monitoring station. .
[0006]
In the centralized supervisory control system disclosed in Japanese Patent Application Laid-Open No. 4-17429, a main processor is provided inside the centralized supervisory control device. The main processor registers the address of a certain transmission device for which the failure information is to be suppressed, performs mask processing of the failure information of the registered transmission device, and transmits the registered transmission information to the intermediate layer monitoring device. By instructing masking of the fault information of the device, transmission of the fault information to the centralized monitoring and control device is suppressed.
[0007]
With such a configuration, when a failure in the transmission path, a failure in the transmission device itself, or the like occurs, a monitoring device higher than the failure device displays the failure information as it is transmitted. Can be prevented. Therefore, the system administrator can smoothly perform on-site adjustment, customer attendance test, and the like on the monitored transmission device in which the failure has occurred.
[0008]
However, in the centralized monitoring and control system disclosed in Japanese Patent Application Laid-Open No. 4-17429, as described above, although traffic for transmitting fault information during adjustment / recovery work in the event of a fault can be eased, it is constantly reduced. There is a problem that communication traffic while monitoring the network cannot be suppressed.
[0009]
SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a station-side transmission device used at a station side for concentrating a signal from an in-home transmission device on each subscriber side, comprising: An object of the present invention is to provide a station side transmission device and a communication system monitoring method capable of reducing communication traffic when monitoring a device.
[0010]
[Means for Solving the Problems]
According to one aspect of the present invention, a subscriber communication interface for communicating with an in-home transmission device installed in a subscriber home, and selectively upstream transmission of data directed to the upstream transmission device among signals from the in-home transmission device. An uplink interface for communicating with the device, a fault communication interface for transmitting fault information of the home transmission device and fault information for communication with the home transmission device to the centralized monitoring device, and a signal received from the home transmission device by the subscriber communication interface A maintenance signal receiving unit that processes failure information indicating a state of the in-home transmission device, a communication state detection unit that detects failure information regarding a communication state between the subscriber communication interface and the in-home transmission device, and notifies the centralized monitoring device. A setting information holding unit for holding the type of failure information for each of the home transmission devices, and information set in the setting information holding unit. A failure notification determination unit that determines failure information to be notified to the centralized monitoring device, out of the failure information received by the maintenance signal reception unit and the failure information detected by the communication state detection unit, based on the A fault information transmitting unit that transmits fault information corresponding to the determination result to the centralized monitoring device.
[0011]
Preferably, in the setting information holding unit, a plurality of monitoring templates each having a plurality of fields corresponding to the type of the fault information are stored in association with each home transmission device, and the fault notification determining unit includes a monitoring template. When the item set to notify the corresponding item changes, the corresponding fault information is sent to the fault information sending unit.
[0012]
Preferably, the monitoring template specifies at least whether a home transmission device failure state, a home transmission device power state, a home transmission device link state, and a station side transmission device link state can be transmitted.
[0013]
Preferably, when one or more monitoring items of the in-home transmission device cannot be acquired due to the occurrence of a communication failure, the failure notification determination unit preferably retains the state before the acquisition became impossible, and when it becomes possible to acquire the monitoring item again. When the state returns to the same state as the original state, transmission of the failure information is masked so as not to notify the centralized monitoring device.
[0014]
Preferably, information for designating a monitoring mode is stored in the setting information holding unit, one monitoring mode is set for each in-home transmission device, and the failure notification determining unit changes the item set in the monitoring mode. Only at the time, the fault information is sent to the fault information sending unit.
[0015]
Preferably, the monitoring mode includes at least a non-monitoring mode, a home transmission device failure state monitoring mode, and a home transmission device failure / communication abnormality monitoring mode.
[0016]
Preferably, the failure content determination unit executes the processing as an automaton corresponding to the monitoring mode set for each home transmission device, and furthermore, the state of the automaton based on the failure information detected by the maintenance signal reception unit and the communication state detection unit. Is changed.
[0017]
Preferably, the automaton corresponding to the monitoring mode has at least a normal state and an automaton only in the home transmission device failure state, and shifts to the home transmission device failure state only when the maintenance signal receiving unit receives a failure of the home transmission device. Only when a signal indicating that the in-home transmission device has not failed is received, the state shifts to the normal state.
[0018]
Preferably, the automaton corresponding to the monitoring mode has at least a normal state, an in-home transmission device failure state, and an automaton only in the transmission path failure state, and the automaton is in the home only when a failure of the in-home transmission device is received in the normal state. Transition to the transmission device failure state, at least in the normal state, when the link disconnection of the station side transmission device is detected without receiving the power-off signal, transition to the transmission line failure state, and in-home transmission in the in-home transmission device failure state The normal state occurs when the station-side transmission device receives a signal indicating that the device has not failed, and when the communication between the station-side transmission device and the in-home transmission device returns to normal in the transmission line failure state.
[0019]
Preferably, after detecting a specific type of failure in the maintenance signal receiving unit and the communication state detection unit, if a failure of another type is detected within a predetermined time, the failure notification determination unit determines the detected failure. At least one type of fault is not notified to the fault information sending unit.
[0020]
Preferably, when the link disconnection of the station side transmission device occurs within a predetermined time after the power supply of the in-home transmission device is disconnected, the failure notification determination unit notifies only the power supply of the in-home transmission device.
[0021]
Preferably, the notification to the centralized monitoring device generated in the failure information transmitting unit includes at least a home transmission device power status notification, a home transmission device failure status notification, a home transmission device link status notification, and a station side transmission device link status. Has information about the notification.
[0022]
Preferably, the notification to the centralized monitoring device generated in the failure information sending unit includes at least a communicable state, a station side transmission device link disconnected state, a home transmission device failure state, a home transmission device power off state, It has information on the transmission device link disconnected state.
[0023]
Preferably, when the monitoring item of the in-home transmission device cannot be acquired due to the occurrence of the communication failure, the failure information sending unit adds the situation immediately before the monitoring item cannot be acquired to the failure information.
[0024]
Preferably, the notification from the station side transmission device to the centralized monitoring device uses an SNMP trap.
[0025]
According to another aspect of the present invention, an in-home transmission device installed at a subscriber's home and having a function of notifying at least one type of fault information relating to the state of its own device to a station-side transmission device, and communicating with a plurality of in-home transmission devices A station transmission device, an upstream transmission device that performs data communication with at least one station transmission device, and a centralized monitoring device that collects fault information from a plurality of station transmission devices. A monitoring method in a subscriber data communication system in which communication data with an in-home transmission device is transferred to an upstream transmission device, wherein a centralized monitoring of fault information from the in-home transmission device and fault information on a communication fault with the in-home transmission device is performed. A step of setting information to be transmitted to the device for each in-home transmission device, and a step of selectively notifying a centralized monitoring device of failure information of a preset type corresponding to the in-home transmission device. Obtain.
[0026]
Preferably, the state of the in-home transmission device is stored in the centralized monitoring device, and when the fault information is notified from the station side transmission device, the status is compared with the immediately preceding status, and is the monitoring item of the in-station transmission device and The method further includes the step of displaying only the changed item.
[0027]
Preferably, when there is no failure in the in-home transmission device and when there is no failure in the monitoring item, the process of updating the state of the in-home transmission device stored in the centralized monitoring device is not performed.
[0028]
Preferably, the station-side transmission device holds an abnormal state that is currently occurring, and the centralized monitoring device periodically polls for the abnormal state held in the station-side transmission device.
[0029]
Preferably, the type of fault information displayed on the centralized monitoring device is the same as the type of fault information specified for each in-home transmission device preset in the station-side transmission device.
[0030]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the following description, the same components are denoted by the same reference numerals, and have the same names and functions. Therefore, detailed description thereof will not be repeated.
[0031]
[Embodiment 1]
[Network Configuration]
FIG. 1 is a conceptual diagram for explaining the configuration of a network using the station-side transmission device 100 of the present invention.
[0032]
With reference to FIG. n (n: natural number) is a subscriber's personal computer (hereinafter, referred to as “PC”). n and the maintenance signal are multiplexed and connected to the station side transmission device 100 via a transmission line, for example, an optical fiber 12. Accordingly, FIG. 1 shows a so-called “FTTH (Fiber To The Home)” configuration as an example to explain the configuration of the present invention. Therefore, the home transmission apparatuses 10.1 to 10. The transmission line from n to the station side transmission device 100 is not limited to an optical fiber.
[0033]
Here, the physical layer of the network shown in FIG. 1 is not particularly limited, but is, for example, Ethernet (R), and PCs 2.1 to 2. n and home transmission devices 10.1 to 10. n is 10BASE-T or 100BASE-TX, and the in-home transmission devices 10.1 to 10. It is assumed that a network standard using an optical fiber between n and the optical line terminal 100 is 100BASE-FX.
[0034]
Home transmission devices 10.1 to 10. n to the optical line terminal 100, a maintenance signal for transmitting maintenance information is transmitted in addition to the Ethernet packet. In FIG. 1, a solid line indicates a flow of an Ethernet packet, and a dotted line indicates a flow of a maintenance signal.
[0035]
As will be described later, the station-side transmission device 100 functions as a “layer 2 switch” that performs relay control in the data link layer. Therefore, the station side transmission device 100 transmits the Ethernet packet to the upstream layer 3 switch 200 for performing the relay control in the network layer. The Ethernet packet is transmitted from the layer 3 switch 200 to a public network 30 such as the Internet. The Ethernet packet is transmitted from the public line network 30 to the layer 3 switch 200, the station side transmission device 100, and the in-home transmission devices 10.1 to 10. n, PC 2.1 to 2.. There is also a signal flow in the direction towards n.
[0036]
On the other hand, the in-home transmission devices 10.1 to 10. n is transmitted to the centralized monitoring apparatus 300 after being selected based on the setting information set in advance by the system administrator. Here, the home transmission apparatuses 10.1 to 10. The communication protocol between n and the station-side transmission device 100 and between the station-side transmission device 100 and the centralized monitoring device 300 are based on the SNMP (Simple Network Management Protocol) of the network management protocol.
[0037]
The station-side transmission device 100, the layer 3 switch 200, and the centralized monitoring device 300 include the home transmission devices 10.1 to 10. n, for example, installed in the central office 20 for transmitting signals from the public network 30.
[0038]
[Contents of maintenance signal]
FIG. 2 is a conceptual diagram for explaining an example of maintenance information (fault information) transmitted by the maintenance signal described in FIG. FIG. 2 shows a portion related to the in-home transmission device 10.1 extracted from the configuration shown in FIG.
[0039]
The maintenance signal includes, in one packet, the failure state of the home transmission apparatus 10.1, the power state of the home transmission apparatus 10.1 (whether the power is off or not), and the transmission signal between the office transmission apparatus 100 and the home transmission apparatus 10.1. , And maintenance information on the link state between the in-home transmission device 10.1 and the PC 2.1.
[0040]
The home transmission apparatus 10.1 sends a maintenance signal including the maintenance information to the station side transmission apparatus 100 when the state related to each of the above maintenance information changes. In addition, by transmitting a request from the station-side transmission device 100 to the home-side transmission device 10. 1, the current state of the home-side transmission devices 10 and 1 can be acquired by the station-side transmission device 100.
[0041]
[Configuration and Operation of Station-side Transmission Device 100]
FIG. 3 is a schematic block diagram for explaining the configuration of the configuration of the station-side transmission device 100. In FIG. 3, the in-home transmission devices 10.1 to 10.. 2 shows the configuration of the uplink from n.
[0042]
Referring to FIG. 2, station-side transmission apparatus 100 includes in-home transmission apparatuses 10.1 to 10. n and a physical link unit (hereinafter, referred to as a PHY) for performing a physical layer process on a signal from the optical link unit 11. ) 120. The PHY 120 is provided with a plurality of ports, and a plurality of home transmission apparatuses 10.1 to 10.. n.
[0043]
The station-side transmission device 100 further receives the signal from the PHY 120 and separates an Ethernet packet and a maintenance signal into an FPGA (Field Programmable Gate Array) 130 and, as described later, supports the separated maintenance signal. Between the failure information and the failure information detected by the intra-station transmission device 100 itself, a CPU (Central Processing Unit) 131 for performing a process of selecting information to be transmitted to the centralized monitoring device 300, and data exchange between the CPU 131. It includes a memory 150 for sending and receiving data and storing the data, and a layer 2 switch 140 for receiving a signal from the PHY 120, performing relay control on the Ethernet packet, and transmitting it to the layer 3 switch 200 of the upstream transmission device. Note that the function of the FPGA 130 can be realized by hardware capable of performing the same logical processing, or by a combination of hardware and software. The processing performed by the CPU 131 is executed by a real-time OS (Operating System) based on a program stored in the memory 150.
[0044]
FIG. 4 is a functional block diagram for explaining the operation of the central station transmission device 100, particularly the FPGA 130 and the CPU 131, and the operation of the centralized monitoring device 300 described in FIG.
[0045]
Referring to FIG. 4, in station-side transmission device 100, the signal is received from in-home transmission device 10.1 via a subscriber communication interface (hereinafter, referred to as subscriber communication I / F) including optical link unit 110 and PHY 120. Among the signals, subscriber data (Ether packet) is transmitted to the layer 3 switch 200 as an upstream transmission device via an uplink interface (hereinafter, referred to as an uplink I / F) 140, and a maintenance signal is transmitted to the FPGA 130. Are separated by a maintenance signal receiving unit that realizes a maintenance signal receiving task.
[0046]
Further, the communication state detection unit 132 that implements the communication state detection task in the CPU 131 monitors the link state in the physical layer between the in-home transmission device and the station-side transmission device. The device state detection unit 133 that implements the device state detection task in the CPU 131 monitors the power state of the station-side transmission device 100 itself, the state of a fan for air cooling, and the like.
[0047]
Further, the setting information holding unit 134, whose function is realized in the CPU 131, exchanges setting information with the memory 150 functioning as a setting information memory, and as described later, the home transmission apparatuses 10.1 to 10. . For each n, a monitoring template including a plurality of fields for designating the type of maintenance information to be transmitted to the centralized monitoring device 300 is held and output to the fault notification determination unit 135. That is, for example, this monitoring template is used as mask information for determining which bit of data is transmitted to the centralized monitoring device 300 among information consisting of a plurality of bits indicating each of the maintenance information from the in-home transmission device 10.1. Function. The failure notification determination unit 135 that implements the function of the failure notification determination task in the CPU 131 only detects that an item set to be notified of the corresponding item in the monitoring template has changed from a previously received state. Then, the maintenance information (fault information) is sent to the fault information sending unit 136. The failure information sending unit 136 that realizes the function in the CPU 131 converts the failure information into a packet to be transmitted to the centralized monitoring device 300.
[0048]
Further, in the above-described setting information memory 150, the “non-monitoring mode” and the “home transmission device failure” are set for each of the home transmission devices according to the monitoring mode specified according to the type of the fault information transmitted to the centralized monitoring device 300. The failure information is managed by dividing into a "monitoring mode", a "communication abnormality monitoring mode", a "home transmission device failure / communication abnormality monitoring mode", and an "all items monitoring mode".
[0049]
For example, in the “non-monitoring mode”, no maintenance information (failure information) is transmitted to the centralized monitoring device 300 for the in-home transmission device of the port corresponding to the monitoring plate by setting the monitoring template. In the “home transmission device failure monitoring mode”, only the failure information on the failure state of the home transmission device of the corresponding port is transmitted to the centralized monitoring device 300. In the “communication abnormality monitoring mode”, only failure information relating to a communication abnormality such as a broken link is transmitted to the centralized monitoring device 300. In the “in-home transmission device failure / communication abnormality monitoring mode”, only the failure information on the failure state and communication state of the in-home transmission device is transmitted to the centralized monitoring device 300. In the “all items monitoring mode”, fault information corresponding to all monitoring items is transmitted to the centralized monitoring device 300.
[0050]
That is, the in-home transmission devices 10.1 to 10. n according to the type of installation and the type of contract between the subscriber and the office. A monitoring mode is set to indicate which range of the n faults is monitored.
[0051]
The failure information transmission unit 136 that implements the failure information transmission task in the CPU 131 notifies the centralized monitoring device 300 of the occurrence / recovery of the failure notified from the failure notification determination task as an SNMP trap. Further, the fault information sending unit 136 records all faults notified from the fault notification determination task as having occurred in the memory 150, and performs polling from the centralized monitoring apparatus 300 (GetNextRequest by SNMP, Use), all faults are returned to the centralized monitoring device 300.
[0052]
The centralized monitoring device 300 is realized by mounting an SNMP manager on a personal computer. The centralized monitoring device 300 is connected to the station-side transmission device 100 and the in-home transmission devices 10.1 to 10. The failure information indicating the failure that has occurred in n is received and registered in the failure database 304. Further, the centralized monitoring apparatus 300 further polls, using a GetNextRequest, for fault information during occurrence of the all-station side transmission apparatus 100 monitored by the centralized monitoring apparatus 300 at predetermined time intervals, for example, once every 10 minutes. , And the contents of the failure database 304. Here, the contents of the failure database 304 are compared with the failure information that has occurred, and if there is a difference, the difference is registered in the failure database 304. Further, at the time of occurrence of a failure and every time polling is performed, a failure that is occurring is extracted from a failure database 304 by a query (Query) unit 306 and displayed on a graphical user interface (GUI) unit 308.
[0053]
Therefore, in the centralized monitoring apparatus 300, the types of faults recorded in the fault database 304 and displayed by the GUI unit 308 are, in the station side transmission apparatus 100, the respective in-home transmission apparatuses 10.1 to 10. n is limited to failures set as monitoring items corresponding to n. Accordingly, the visibility of the failure information display in the centralized monitoring device 300 is improved.
[0054]
Furthermore, according to the operation of the failure notification determination unit 135 described above, only the information corresponding to the monitoring item is transmitted from the central station monitoring apparatus 300 to the centralized monitoring apparatus 300 by the GetNextRequest from the centralized monitoring apparatus 300. Therefore, when there is no failure in the in-home transmission device 100 and when there is no failure in the monitoring item, the state of the in-home transmission device 100 stored in the failure database 304 of the centralized monitoring device 300 is not updated. Therefore, the display of the GUI unit 308 does not change even by such processing, and the visibility is improved.
[0055]
In such a configuration, if an SNMP trap is used for notification from the station-side transmission device 100 to the centralized monitoring device 300, an SNMP manager can be used for the centralized monitoring device 300. Equipment can be used. Further, since the SNMP manager can reduce the traffic of the received SNMP trap, the line capacity between the station-side transmission device and the centralized monitoring device can be reduced.
[0056]
In addition, the centralized monitoring apparatus 300 can acquire all the faults that have occurred by using GetNextRequest for polling.
[0057]
FIG. 5 is a conceptual diagram for explaining the operation of the failure notification determination unit 135 described in FIG. 4 in further detail.
[0058]
Referring to FIG. 5, in a certain area of the setting information memory corresponding to setting information holding unit 134, as described above, a plurality of pieces of information for designating the type of maintenance information to be transmitted to centralized monitoring apparatus 300 are provided. A monitoring template consisting of the following fields is stored.
[0059]
For example, as the items to be monitored, the items described with reference to FIG. 2, such as the failure state of the in-home transmission device 10.1, the power state of the in-home transmission device 10.1 (whether or not the power is off), the station side It is assumed that fault information for four items, the link status between the transmission device 100 and the home transmission device 10.1, and the link status between the home transmission device 10.1 and the PC 2.1 are transmitted as maintenance signals. Further, for example, it is assumed that three items such as a power supply state and a fan state are to be monitored as failure information of the station side transmission device 100 itself.
[0060]
The above-described monitoring template is stored in the setting information memory for each of a plurality of ports (for example, 320 ports) of the PHY 120 described with reference to FIG. For example, the monitoring template is composed of 7-bit information corresponding to the fact that there are seven items to be monitored. For example, if the bit corresponding to a certain item of the monitoring plate (mask data) corresponding to a certain port is “1”, it is specified that the fault information of the item is transmitted to the centralized monitoring apparatus 300 for the relevant port. It is assumed that Conversely, for an item whose corresponding bit is “0”, it is specified that the failure information of that item is not transmitted to the centralized monitoring device 300. That is, the monitoring template is mask data that determines which of the plurality of pieces of fault information is to be transmitted to the centralized monitoring apparatus 300.
[0061]
The failure notification determination unit 135 stores the previous failure information and the current (current) failure information for each of a plurality of ports (for example, 320 ports) of the PHY 120.
[0062]
Here, the “previous failure information” is failure information detected in the station-side transmission device 100 at the time of the most recent failure occurrence at the previous timing, and the “current failure information” is This is fault information detected in the station-side transmission device 100 when a fault occurs at the latest timing. The “failure information” is, for example, 7-bit data indicating each state of the seven monitoring items described above. Note that the number of monitoring items may be more than seven or less than seven.
[0063]
For example, according to the TTC standard (established by TS-1000: May 23, 2002), the fault information includes, in order from the least significant bit, “the power state of the in-home transmission place”, “the power transmission state between the office side transmission apparatus and the in-home transmission apparatus”. It is stipulated that the state is a "link state", a "home transmission apparatus-PC link state", and a "home transmission apparatus failure state".
[0064]
In the failure notification determination unit 135, an exclusive OR operation unit 1352 performs an exclusive OR operation for each bit of the previous failure information and the current failure information. As a result, the output of the exclusive OR operation unit 1352 becomes “1” only for the bits corresponding to the failure information whose state has changed from the previous time.
[0065]
In the failure notification determination unit 135, the AND circuit 1354 further performs an AND operation between each bit of the output of the exclusive OR operation unit 1352 and each bit of the master data of the monitoring template, and outputs the result to the failure information. Output to the sending unit 136.
[0066]
Therefore, the maintenance information (failure information) is transmitted to the failure information transmitting unit 136 only when it is detected that the item set to be notified by the monitoring template has changed from the previously received state. Will be done.
[0067]
That is, by using the monitoring template, it is only necessary to record the monitoring template and which monitoring template each in-home transmission device corresponds to in the setting information holding unit 134, and the capacity of the setting information holding unit 134 is reduced. Can be reduced. In-home transmission devices 10.1 to 10. The monitoring level for n can be easily set. Further, since the monitoring content is registered in a field (bit) in the monitoring template, the fault notification determining unit 135 can make a high-speed determination simply by comparing the type of the fault with the state of the corresponding field.
[0068]
In addition, home transmission devices 10.1 to 10. n can be masked by the monitoring template for the n failure, power supply status, link status (between the home transmission device and the user PC and between the home transmission device and the home transmission device) and the link status between the home transmission device and the home transmission device. In addition to the items, the centralized monitoring device 300 allows the home transmission devices 10.1 to 10.. n major obstacles can be grasped.
[0069]
Further, in the case of an item that does not change even if a communication failure between the station side transmission device and the home transmission device occurs, such as a failure status of the home transmission device and a link status between the home transmission device and the user PC, such communication is performed. When a failure occurs, the corresponding item is in an unknown state from the point of view of the optical line terminal 100. In other words, since there is no change in these items between the previous fault information and the current fault information, at this time, a communication fault between the station side transmission device and the home transmission device is provided to the centralized monitoring device 300. Items that do not change when they occur are not notified. Regarding these items, when the communication failure between the station side transmission device and the in-home transmission device is recovered, if the state is the same as before the occurrence of the failure, the centralized monitoring device 300 is not notified to reduce unnecessary notifications. . This also improves the visibility of the fault information in the centralized monitoring device 300 at the same time.
[0070]
For example, in a state where the home transmission apparatus and the user PC are linked up, when the power of the home transmission apparatus 10.1 is turned off, only the power-off is notified, and when the power is turned on again, the link-up state is maintained. If so, only the power-on is notified to the centralized monitoring apparatus 300.
[0071]
[Embodiment 2]
In the description of the first embodiment, the configuration in which the communication traffic between the intra-station transmission device 100 and the centralized monitoring device 300 is reduced by using the monitoring template has been described.
[0072]
However, in order to reduce communication traffic between the intra-station transmission device 100 and the centralized monitoring device 300, the failure notification determination unit 135 of the monitoring agent functioning on the CPU 131 described in FIG. It is programmed to operate as an automaton corresponding to the specified monitoring mode according to the information held in the information holding unit 134, and only the specified fault information is transmitted from the intra-station transmission device 100 to the centralized monitoring device 300. It may be configured. The configuration of the station-side transmission device of the second embodiment is basically the same as the configuration of the station-side transmission device 100 of the first embodiment, except for the functions performed by the CPU 131.
[0073]
[Operation of each monitoring mode]
In the following, the contents of the monitoring mode and the in-home transmission devices 10.1 to 10. The operation of the automaton that operates according to the monitoring mode indicating the range to be monitored out of n faults will be described.
[0074]
As in the first embodiment, such a monitoring mode is provided in the home transmission apparatuses 10.1 to 10.. n is set according to the type of installation and the type of contract between the subscriber and the office.
[0075]
More specifically, for example, when the subscriber rents the home transmission device 10.1 from a communication carrier, the “home transmission device failure monitoring mode” is designated to monitor the rental product for failure.
[0076]
Further, when the subscriber rents the in-home transmission device 10.1 and has a contract as a premium user, the user sets the "in-home transmission device failure / communication abnormality monitoring mode", and further sets the QoS (Quality of Service). Is set to high priority and the failure is set to be recorded in the log.
[0077]
If the subscriber purchases the home transmission device 10.1 from a distributor, for example, there is no direct contractual relationship between the office and the subscriber regarding the failure of the home transmission device and so on. Use "mode" to reduce the total monitoring amount.
[0078]
When the subscriber has purchased the in-home transmission device 10.1 and has contracted as a premium user, set the "communication abnormality monitoring mode", set the QoS to high priority, and record the failure in the log Set to
[0079]
Further, when one home transmission apparatus 10.1 is installed in an apartment house and packets are distributed to PCs of subscribers in the apartment house by a layer 2 switch, the power supply of the home transmission apparatus 10.1 is turned off or the home transmission is performed. Since many subscribers are also affected by the link down between the device and the layer 2 switch, the corresponding in-home transmission device 10.1 is set to the all item monitoring mode, and the fault is set to be recorded in the log.
[0080]
Hereinafter, with reference to FIG. 4 again, in the second embodiment, in the FPGA 130 that operates according to the monitoring mode specified according to the information held in the setting information holding unit 134, the home transmission device 10.1 Has transmitted the maintenance signal, the maintenance signal receiving unit 131 passes the notification to the failure notification determination unit 135, and when the link of the physical layer between the home transmission device and the station-side transmission device is down, the communication status The detection unit 132 passes the notification to the failure notification determination unit 135.
[0081]
The failure notification determination unit 135 reads out the monitoring mode of each in-home transmission device from the setting information memory, and first holds the current state (other than the non-monitoring mode).
[0082]
Then, when the home transmission device 10.1 is set to the “non-monitoring mode”, the corresponding notification is ignored.
[0083]
Hereinafter, the operation of the failure notification determination unit 135 when the in-home transmission device 10.1 is designated to a monitoring mode other than the “non-monitoring mode” will be sequentially described.
[0084]
First, the operation in the “home transmission device failure monitoring mode” will be described.
FIG. 6 is a state transition diagram for explaining the operation of the failure notification determination unit 135 as a monitoring agent that executes the “home transmission device failure monitoring mode” in the intra-station transmission device 100.
[0085]
If the in-home transmission device 10.1 is specified in the “in-home transmission device failure monitoring mode”, the failure notification determination unit 135 ignores information such as a notification from the communication state detection unit 132 and power-off, and outputs a maintenance signal packet. The transition between “normal state” ← → “failure state” is made only by the failure state in the above.
[0086]
Next, the operation of the “communication abnormality monitoring mode” will be described.
FIG. 7 is a state transition diagram for explaining the operation of the failure notification determination unit 135 as a monitoring agent that executes the “communication abnormality monitoring mode” in the intra-station transmission device 100.
[0087]
If the in-home transmission device 10.1 is specified in the “communication abnormality monitoring mode”, the failure notification determination unit 135 determines whether a link down of the link between the office-side transmission device and the in-home transmission device is detected as a maintenance signal, Only when the communication state detecting unit 132 detects the link down of the link between the home transmission device and the station side transmission device and the maintenance signal receiving unit 131 does not receive the power-off, the communication state shifts to the communication abnormal state. It shifts to the normal state only when both are released.
[0088]
Next, the operation of the "home transmission device failure / communication abnormality monitoring mode" will be described. FIG. 8 is a state transition diagram for explaining the operation of the failure notification determination unit 135 as a monitoring agent that executes the “home transmission device failure / communication abnormality monitoring mode” in the intra-station transmission device 100.
[0089]
When the corresponding home transmission device 10.1 is designated as the “home transmission device failure / communication abnormality monitoring mode”, the failure notification determination unit 135 uses the maintenance signal receiving unit 131 to determine whether the home transmission device 10.1 has failed. The state shifts from the normal state to the failure state only when detected, and shifts to the normal state only when the failure is recovered. Similarly, the failure notification determination unit 135 receives the maintenance signal that causes the link between the station-side transmission device and the in-home transmission device to link down, or the in-home transmission without the maintenance signal receiving unit 131 receiving the power-off maintenance signal. It shifts to the communication abnormal state only when the link between the device and the station side transmission device goes down, and shifts to the normal state only when all of them are restored. In this case, there is no direct transition between "failure state" and "communication abnormal state" because the reliability of the received maintenance signal is low.
[0090]
Next, the operation in the “all monitoring mode” will be described.
FIG. 9 is a state transition diagram for explaining the operation of the failure notification determination unit 135 as a monitoring agent that executes the “all monitoring mode” in the intra-station transmission device 100.
[0091]
In the all-monitoring mode, basically, state transition is performed according to the received signal.
However, immediately after the power-off is received by the maintenance signal receiving unit 131, and immediately after that (within a certain threshold time), the communication state detecting unit 132 detects the link down between the home transmission device and the station-side transmission device. Shifts to the power-off state. That is, in this case, the notification from the communication state detection unit 132 is ignored.
[0092]
After the link between the in-home transmission device and the station-side transmission device has been linked up (time within a certain threshold), the in-home transmission device-PC link state does not use the information of the maintenance signal and immediately before the link down. Use information from
[0093]
The failure notification determination unit 135 notifies the failure information transmission unit 136 of the corresponding failure each time the state transition occurs. In addition, a log is recorded for each in-home transmission device set to leave a log each time a failure occurs / recovers. The recording of such a log is performed by the failure notification determination unit 135 on the CPU 131 accessing the memory 150.
[0094]
As described above, by using an automaton that operates according to the monitoring mode instead of the monitoring template as the monitoring agent, the capacity of the setting information holding unit 134 can be reduced, and each of the in-home transmission devices 10.1 to 10.. In addition to simplifying the setting of the monitoring level (monitoring priority) for n, it can be linked to a function other than masking the failure information, for example, a function such as QoS or log recording, for each monitoring mode.
[0095]
Further, the above-mentioned mode in which at least the home transmission apparatus is not monitored at all, the mode in which notification is made only when the home transmission apparatus has failed, the home transmission apparatuses 10.1 to 10. By providing a mode for notifying the failure of n or the communication error between the station side transmission device and the in-home transmission device, the operator operating the subscriber data communication system quickly fails while minimizing the notification of the failure information. Will be able to respond to In particular, home transmission devices 10.1 to 10. By providing a mode in which a failure can be appropriately determined without being affected by the operation of the n power supplies, the centralized monitoring apparatus 300 can operate without receiving an unnecessary failure notification.
[0096]
Further, by adopting the automaton, the state transition and the notification to the centralized monitoring device 300 can be clearly defined. In particular, since the state transition is not performed even if the monitoring item is in an unknown state due to a communication failure or the like, it is not necessary to record the unknown state and the previous state.
[0097]
In addition, home transmission devices 10.1 to 10. n is switched to the failure state only when the failure occurs and to the normal state only when the failure is repaired, so that the in-home transmission apparatuses 10.1 to 10.. n can be limited. Home transmission devices 10.1 to 10. n is not affected by the power interruption of n, the link interruption between the station side transmission device and the in-home transmission device due to the relocation, and the link interruption between the in-home transmission device and the PC due to the PC power interruption and the like. Home-side transmission devices 10.1 to 10. n failures can be grasped.
[0098]
Further, home transmission devices 10.1 to 10. n is set to the failure state only when n fails, and to the communication abnormal state when a communication error occurs. By limiting the conditions for transition to the normal state, even if power failure etc. Home transmission device 10.1 to 10. n can be limited.
[0099]
[Additional functions]
The following functions can be realized by setting the monitoring template according to the first embodiment or defining the automaton according to the second embodiment.
[0100]
For example, when a certain type of failure occurs and another type of failure always occurs, an unnecessary failure is not notified, thereby reducing unnecessary notifications and improving the visibility of the centralized monitoring apparatus 300. For example, home transmission devices 10.1 to 10. n, an IC (Integrated Circuit) for physical layer processing such that the link between the home transmission device and the PC links up after a while after the power is turned on is used. If the link is up even after the power is turned on again, the link up failure (recovery) is not notified.
[0101]
Alternatively, for example, the home transmission apparatuses 10.1 to 10. n has a function of sending out a dying gasp (DyingGasp) when the power is turned off, the in-home transmission devices 10.1 to 10. When the power of n is turned off, the corresponding communication port of the station-side transmission device 100 goes down after receiving DyingGasp. However, it is self-evident that the centralized monitoring apparatus 300 receives the power-off signal and the corresponding communication port goes down the link. Therefore, unnecessary notification is reduced by masking the link down notification so as not to be performed, and the visibility of the centralized monitoring device is improved. Home transmission devices 10.1 to 10. It is possible to individually notify the centralized monitoring device of the power status, failure status, link status of n, and the communication status between the in-home transmission device and the station side transmission device, thereby simplifying the processing in the centralized monitoring device.
[0102]
Further, the communication packet to the centralized monitoring device 300 created by the failure information sending unit 136 includes at least a communicable state, a station-side transmission device link disconnected state, a home transmission device failure state, and a home transmission device power cut-off. The state and information indicating the state of the in-home transmission device link disconnection can be included. By doing so, the home transmission devices 10.1 to 10.. By notifying the notification about the n from the station side transmission device 100 to the centralized monitoring device 300 into one packet, it is possible to reduce the traffic between the station side transmission device and the centralized monitoring device. In addition, on the centralized monitoring device 300 side, the home transmission devices 10.1 to 10.. n can be easily known. For example, home transmission devices 10.1 to 10. n is turned off, the centralized monitoring device 300 transmits the in-home transmission devices 10.1 to 10. By being able to determine that n is in the power-off state, it is possible to appropriately process that other monitoring items are in the unknown state.
[0103]
Furthermore, even if the monitoring item of the home-side transmission device cannot be acquired due to power interruption or communication failure, it can be used as a judgment material for failure analysis in the centralized monitoring device 300 by adding information immediately before the monitoring item cannot be acquired. Become like For example, when a power loss occurs, by adding the signal indicating that the power loss has been received to the station side link disconnection notification, it can be known that the home side transmission device has caused the link disconnection. In addition, when the link between the home-side transmission device and the office-side transmission device is disconnected, the cause of the communication failure can be easily estimated based on information on whether the link between the office-side transmission device and the home-side transmission device has been disconnected. .
[0104]
In addition, if an SNMP trap is used for notification from the station-side transmission device 100 to the centralized monitoring device 300, an SNMP manager can be used for the centralized monitoring device 300. Therefore, an inexpensive device is used as a computer equipped with the SNMP manager. be able to. Further, since the SNMP manager can reduce the traffic of the received SNMP trap, the line capacity between the station-side transmission device and the centralized monitoring device can be reduced.
[0105]
The embodiments disclosed this time are to be considered in all respects as illustrative and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.
[0106]
【The invention's effect】
As described above, according to the present invention, since the monitoring content is limited for each in-home transmission device, the centralized monitoring device can monitor only necessary monitoring items and improve visibility. Further, since no extra traffic is generated for items that are not monitored, the transmission capacity between the station side transmission device and the centralized monitoring device can be reduced, and the scale of the centralized monitoring device can be reduced.
[0107]
Also, since the monitoring content is set for each in-home transmission device, for example, the setting is such that no monitoring is performed for general subscribers. In a setting that monitors only communication failures for subscribers whose communication status is unstable, such as a long-distance in-home transmission device, an apartment house with one in-house transmission device per building or Monitoring settings such as monitoring the failure of the transmission device, communication failure, and the link state between the in-home transmission device and the collective housing / intra-company layer 2 switch can be made for the company.
[Brief description of the drawings]
FIG. 1 is a conceptual diagram illustrating a configuration of a network using a station transmission device 100 according to the present invention.
FIG. 2 is a conceptual diagram for explaining an example of maintenance information (fault information) transmitted by the maintenance signal described in FIG.
FIG. 3 is a schematic block diagram for describing a configuration of a configuration of a station side transmission device 100.
FIG. 4 is a functional block diagram for explaining the operation of the station-side transmission device 100, particularly the FPGA 130, and the operation of the centralized monitoring device 300 described in FIG.
FIG. 5 is a conceptual diagram for explaining the operation of a failure notification determination unit 135 described in FIG. 4 in further detail;
FIG. 6 is a state transition diagram for explaining the operation of a failure notification determination unit as a monitoring agent that executes a “home transmission device failure monitoring mode”.
FIG. 7 is a state transition diagram for explaining the operation of the failure notification determination unit 135 as a monitoring agent that executes the “communication abnormality monitoring mode”.
FIG. 8 is a state transition diagram for explaining the operation of the failure notification determination unit 135 as a monitoring agent that executes the “home transmission device failure / communication abnormality monitoring mode”.
FIG. 9 is a state transition diagram for explaining the operation of the failure notification determination unit 135 as a monitoring agent that executes the “all monitoring mode”.
[Explanation of symbols]
10.1 to 10. n Home transmission device, 2.1 to 2. n personal computer, 12 optical fiber, 20 telephone office, 30 public line network, 100 station side transmission device, 110 optical link unit, 120 physical link unit, 130 FPGA, 131 maintenance signal receiving unit, 132 communication state detecting unit, 133 device State detection unit, 134 setting information holding unit, 135 failure notification determination unit, 136 failure information transmission unit, 137 failure notification I / F, 140 layer 2 switch, 200 layer 3 switch, 300 centralized monitoring device, 302 SNMP transmission / reception unit, 304 Fault database, 306 Query section, 308 GUI.

Claims (20)

A subscriber communication interface for communicating with an in-home transmission device installed at the subscriber home;
An uplink interface for selectively communicating data directed to an upstream transmission device out of signals from the in-home transmission device toward the upstream transmission device,
A fault communication interface for transmitting fault information of the in-home transmission device and communication fault information with the in-home transmission device to a centralized monitoring device;
A maintenance signal receiving unit that processes failure information indicating a state of the home transmission device among signals received from the home transmission device by the subscriber communication interface,
A communication state detection unit that detects failure information on a communication state between the subscriber communication interface and the in-home transmission device,
A setting information holding unit that holds the type of the fault information to be notified to the centralized monitoring device for each in-home transmission device,
Of the fault information received by the maintenance signal receiving unit and the fault information detected by the communication state detecting unit, a fault to be notified to the centralized monitoring device, based on the information set in the setting information holding unit. A failure notification determination unit for determining information;
A station-side transmission device, comprising: a failure information transmission unit that transmits the failure information corresponding to a result of the determination by the failure notification determination unit to the centralized monitoring device. In the setting information holding unit, a plurality of monitoring templates, each having a plurality of fields corresponding to the type of the failure information, are stored in association with each of the home communication devices,
The station-side transmission device according to claim 1, wherein the failure notification determination unit sends corresponding failure information to a failure information transmission unit when an item set to be notified by the monitoring template changes. . 3. The station-side transmission according to claim 2, wherein the monitoring template specifies at least transmission of a home transmission apparatus failure state, a home transmission apparatus power state, a home transmission apparatus link state, and a station transmission apparatus link state. apparatus. When one or more monitoring items of the in-home transmission device cannot be acquired due to a communication failure, the failure notification determination unit retains the state before the acquisition became impossible, and when it becomes possible to acquire again, 4. The station-side transmission device according to claim 2, wherein when returning to the same state as the original state, transmission of the failure information is masked so as not to notify the centralized monitoring device. 5. In the setting information holding unit, information specifying a monitoring mode is stored, and one monitoring mode is set for each of the in-home transmission devices.
The station-side transmission device according to claim 1, wherein the failure notification determination unit sends the failure information to the failure information transmission unit only when an item set in the monitoring mode changes. The station-side transmission device according to claim 5, wherein the monitoring mode includes at least a non-monitoring mode, a home transmission device failure state monitoring mode, and a home transmission device failure / communication abnormality monitoring mode. The failure content determination unit performs a process as an automaton corresponding to a monitoring mode set for each of the home transmission devices, and, based on the failure information detected by the maintenance signal receiving unit and the communication state detection unit, The station-side transmission device according to any one of claims 1, 5, and 6, wherein a state of the automaton is changed. The automaton corresponding to the monitoring mode has at least a normal state and an automaton only in the home transmission device failure state, and enters the home transmission device failure state only when the maintenance signal receiving unit receives a failure of the home transmission device. The station-side transmission device according to claim 7, wherein the transmission device shifts to the normal state only when receiving a signal indicating that the in-home transmission device has not failed. The automaton corresponding to the monitoring mode has at least a normal state, an in-home transmission device failure state, and an automaton only in a transmission line failure state,
The automaton shifts to the in-home transmission device failure state only when a failure of the in-home transmission device is received in the normal state, and the link of the station side transmission device at least in the normal state without receiving a power-off signal. When the disconnection is detected, the state shifts to the transmission path failure state, and when the station side transmission apparatus receives a signal indicating that the home transmission apparatus is not out of order in the home transmission apparatus failure state, and the transmission path failure state 9. The station-side transmission device according to claim 7, wherein the normal state is established when communication between the station-side transmission device and the in-home transmission device returns to normal. After detecting a specific type of fault in the maintenance signal receiving unit and the communication state detecting unit, if a fault of another type is detected within a predetermined time, the fault notification determining unit determines whether the detected fault has occurred. The station-side transmission device according to any one of claims 1 to 9, wherein at least one type of fault is not notified to the fault information sending unit. The station according to claim 10, wherein the failure notification determination unit notifies only the power cut of the home transmission device when a link break of the office side transmission device occurs within a predetermined time after the power cut of the home transmission device. Side transmission device. The notification to the centralized monitoring device generated in the fault information sending unit is at least a home transmission device power status notification, a home transmission device failure status notification, a home transmission device link status notification, and a station side transmission device link status notification. The station-side transmission device according to any one of claims 1 to 11, wherein the station-side transmission device has information about The notification to the centralized monitoring device generated by the fault information transmitting unit includes at least a communicable state, a station side transmission device link disconnected state, a home transmission device failure state, a home transmission device power off state, and a home transmission. The station-side transmission device according to any one of claims 1 to 11, wherein the station-side transmission device has information on a device link disconnected state. 14. The fault information sending unit adds, to the fault information, a status immediately before a fault cannot be obtained in the fault information sending unit when a monitor item of the home transmission device cannot be obtained due to a communication fault. 2. The station-side transmission device according to item 1. The station-side transmission device according to any one of claims 1 to 14, wherein the notification from the station-side transmission device to the centralized monitoring device uses an SNMP trap. An in-home transmission device installed in a subscriber's home and having a function of notifying at least one type of fault information relating to the state of the own device to the in-home transmission device; An upstream transmission device that performs data communication with the two station-side transmission devices, and a centralized monitoring device that collects the failure information from a plurality of the station-side transmission devices, wherein the in-home transmission device other than the failure information A communication data monitoring method in a subscriber data communication system for transferring the communication data to the upstream transmission device,
Setting the information to be transmitted to the centralized monitoring device for each of the home transmission devices, among the fault information from the home transmission device and the fault information related to the communication fault with the home transmission device,
Selectively transmitting the fault information of a preset type corresponding to the in-home transmission device to the centralized monitoring device. The centralized monitoring device stores the status of the in-home transmission device, and when the fault information is notified from the station-side transmission device, the status is compared with the immediately preceding status, and the monitoring item of the in-station transmission device is used. 17. The communication system monitoring method according to claim 16, further comprising a step of displaying only an item that has changed. 18. The update process for the state of the home transmission device stored in the centralized monitoring device is not performed when the home transmission device has no fault and the monitoring item has no fault. A communication system monitoring method according to claim 1. The station-side transmission device holds a currently occurring abnormal state, and the centralized monitoring device periodically polls the abnormal state held in the station-side transmission device. The communication system monitoring method according to any one of claims 16 to 18. 20. The type of fault information displayed in the centralized monitoring device is the same as the type of fault information specified for each of the home transmission devices preset in the station-side transmission device. A communication system monitoring method according to claim 1.

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