DE19531961A1 - Alarm monitoring method for communication network - Google Patents

Abstract

The method involves monitoring an alarm condition of a communication network (KN), that comprises a number of network elements (Ne,...,NEm), of whom some are configured as alarm masters (NEx). An alarm message is supplied with a group address, and transmitted to all alarm masters. The step is repeated in predetermined time intervals. The alarm message is pref. repeatedly transmitted, until the error condition which caused it is restored. An alarm message may be comprised of a number of alarm messages, and is pref. transmitted from a network element, that recorded the error condition, to an associated alarm master.

Description

An error monitoring system, for example Transmission interference in transmission technology facilities nik or a break in the route within a commun cation network recognized and for the evaluation of forwarded on units.

For an assessment of alarm information within a Surveillance system, it is necessary that in the communica all faults or alarm messages be recorded and evaluated. To evaluate the alarm information from those integrated in the communication system To reach network elements, these are processed by data processing tion units of the communication network detected. At a Communication system in which data is forwarded internally half a synchronous digital hierarchy (SDH), be there is the possibility in the entire network area through a Connection of a data processing unit, sections of a Monitor communication network. In the synchronous digita len hierarchy SDH data transmission can pending alarm Information about interfaces to a network management be sent for evaluation.

In the event of a break in the route or the failure of one The transmission element is an alarm forwarding in transmission direction usually no longer possible. With a transfer stretch whose transmission line is interrupted, it can occur that error or alarm messages are not can be registered by the surveillance system. After Commissioning of this network element or a transmission pending alarms can be repeated error message and falsification in an alarm display the total of the monitoring system.  

The object of the invention is a further method for Acquisition of alarm signals in a communication to specify network.

The task is solved by the features of the patent saying 1.

The invention has the advantage that a cyclical transmission of the alarm information in the form of a Broadcast message, this from a variety of evaluating Facilities can be received.

The invention has the further advantage that a Correction of an alarm total display for network elements and network areas in the evaluating facilities automa table is done.

The method has the further advantage that without user intervention, such as an alarm status query for the entire network area, a correct display of the current alarm status.

Another advantage of the method is that the Error monitoring of a route element, such as a subscriber line without one directly to it connected data processing unit is possible.

Another advantage of the method is that it Realization can be carried out with little effort and on an exact localization due to the type of alarm information and interpretation of the error is possible.

Further special features of the invention will become apparent from the following ing closer explanation of an embodiment based on a drawing.

The drawing shows a schematic representation of a part of a communication network. Starting from a network element NE1 is a connection via further network elements NE2, NE3 possible to the network element NE4. Connect to network element NE1 for example the network elements NE12, NE13 and NE14. The  Network element NE3 is also connected via network element NE31 connected to the network element NE32. The individual elements NE1, NE2,. . . , NEx are each via glass fiber or copper lines connected. The network elements NE1, NE4, NE14 and NE32 can Line terminals, the network elements NE2, NE3, NE12, NE13 and NE31 can have the functions of regenerators. Of the Data flow between the network elements can be bidirectional between the network elements in two separate lines or one line. In the drawing are the over for the sake of clarity, the essential ones in direct connection Functional as well as Ver binding units indicated. An error reporting channel ECC (Embedded Communication Channel) and a function module MCF (Message Communication Function) MCF are used for forwarding the alarm messages issued by a network element NEx. The alarms of each NE are through synchronous equipment Management function module SEMF collected. The forwarding The MCF function module then takes over in the data network. The Com Communication with other network elements takes place via the ECC of the SDH overheads. Within the communication network, a or several network elements NEx are defined as alarm masters. As Alarm masters can both end devices NE1, NE4 and Network elements that are arranged between the terminals can be configured. These configured as alarm masters Network elements can then next to a device-specific Address additionally controlled by a group address will.

Below is an example of error signaling and forwarding: Based on the assumption that network elements NE31 and NE1 have been configured as alarm masters and that there is a signal interruption between network elements NE3 and NE4, "LOSS of Signal" LOS is recognized by network elements NE3 and NE4. The synchronous equipment management function SEMF from the network element NE3 actively reports the "loss of signal" LOS to the function module MCF. The MCF function module initiates the forwarding of the alarm message in the data network. Periodically, the complete alarm status of NE3 such as the LOS, as well as any other pending alarms, is forwarded. After fiber repair has been completed, the alarm status is also reported from NE4 to the alarm masters via the MCF function, so that the alarm amount is automatically corrected. The error messages sent as broadcast messages can be received by any network element configured as an alarm master based on the group address. A loop formation and the interrogation of duplicate packets is prevented by lifetime or identification parameters of the layer 3 switching software of the Open System Interconnection (OSI) communication system used in the communication network. Each error message issued by a network element contains information as to whether there is an A or B alarm in the sending device.

High-priority error alarms, such as wise a traffic interruption, marked. As B- Alarms become low priority error alarms, such as Errors that do not lead to traffic interruptions, character rized.

Monitoring of alarm messages with a value denoted by H is not visualized by the alarm master with a display on a monitoring display ÜWA, since these alarm messages only have an informational character. Messages with an H value are, for example, an Alarm Indication Signal AIS-R or the Protection Scheme Mismatch PSM signal. If, in individual cases, a notification message from the network elements whose value was rated H by the network operator is temporarily considered to be more important and monitoring by the alarm master appears desirable, it is possible to upgrade it in the sending device as a B alarm. Error messages are forwarded within the transmission protocol of layer 3 of the OSI transmission procedure by evaluating the destination address with the aid of routing tables to the alarm masters.If there are no alarms, there is no separate alarm message via the ECC channel to the network elements configured as alarm masters. However, if one or both status variables (A, B alarm) are set, this information is also sent as a spontaneous message via the ECC channel. The alarm message is repeated every N seconds by the alarm-sending network element. This alarm message is displayed on a display operating module ABM, the monitoring display ÜWA, a light signal device LZE, a signal field SIGF or by relay contacts ZA of the sending network element and sent to the alarm master via the ECC channel.

By changing the report contained in the SEMF function control tables, individual ads can be deactivated. Collective alarms are assigned a value on the display operating module ABM displayed. Alarms are to be found under the collective alarms stand which the alarm master is monitoring from somewhere Network area and the alarm sum display of any one Network element in the network area is not equal to zero.

For an entire route in terms of error messages are only monitored for reasons of clarity Alarm messages (A alarm, B alarm) provided. Through this Restriction becomes the best possible clarity Preserves when many devices on the route issue error messages ben.

Each network element manages for display on a monitor ÜWA or a signal field SIGF two status indicators riable. These state variables become error-specific, each after whether there is an A or B alarm in a device, set.

The alarm master shows the network element address of the sender Device on the display operating module ABM. Because the alarm master but should be able to, after a successful one Acknowledgment of new alarms is a minimum at least one state variable for each of the monitored Network elements managed. This state variable is used in Alarm master notes that an A or B alarm is active or is not active. If after N + T seconds (T = time out document) no refresh message from the originally sending network  arrives at the alarm master, the status variable in the Alarm master reset.

The lack of a refresh message can have the following causes to have:

• a) the network element reporting a defect is actually back in order or has been repaired,
• b) the ECC communication is disturbed or the route is interrupted or
• c) the network element was switched off or a central Monitoring unit ZÜW is defective.

This repeated transmission from the sending network element Alarm information can also be referred to as "Repeated SOS" the. A collective alarm at the alarm master is only displayed for as long shows as long as an alarm message is actively transmitted.

The alarm is also canceled when a device defective as described in case b) or c) occurs. Fault cases b) and c) themselves lead to further alarms: If a network element is switched off or the route interrupted, this resolves other network elements an alarm message on the pages of the interruption. This An alarm message can, for example, be a laser security circuit in an optical transmission section or a Remote Defect Indication RDI signaling. A possible ECC communication failure usually occurs together connection with transmission interference and is not sound frequently reported.

The status variables are indicated by logical ORing to two messages reduces the one A alarm and Correspond to B alarm (collective alarms). The error ver Management of the alarms generated by general alarms can be done like local messages at the SIGF signal field are acknowledged. A Reminder lamp set according to the error message goes out if neither of the two collective alarms and no loca There are more error alarms. Sign up after you are done Acknowledgment of other monitored network elements with alarm messages,  so lights up in addition to the reminder lamp of the signal field again an A or B alarm display.

Because due to the communication procedures the number of out error reporting procedures can be high among a variety of alarm reporting network elements in a communication network only a limited number of monitored network elements are permitted. An introduction a "Report to Alarmmaster yes / no" variable an optional connection of network elements to the alarm level ster. This only reports if this variable is activated Network element with a "Repeated SOS" over the ECC channel. This option is also for an entire transmission section adjustable.

The solution described above leads to an automatic one Correction of the alarm total display. As described above, each network element can provide information about report his complete alarm status. These messages are only sent as a broadcast message in the event of an error. This will normally no load is generated. In the event of an error, the Message repeated cyclically every N seconds, with N at for example, can be between 15 and 60 seconds. Regarding the amount of information sent two variants possible:

In variant a, only the sum of the alarms of the network element per value (A, B or H alarm message) det. This means that a correct alarm total can be displayed for each network ment or summed up for an entire network area be shown. For information about the full alarm status, an alarm status query must be carried out The alarm status query can be carried out via the operator software goods.

In a variant b, the complete alarm information sent over all active alarms of the network element. This means that a complete can be carried out at any time without an alarm status query list of all active alarms in a network area displayed or logged.  

The cyclically sent alarm information is in each evaluating device such as a staff computer, a telecommunication network management or an alarm master using tables per network element prevails. The table information can be, for example an alarm sum display can be evaluated. Because in error free fall no message is given, the alarm messages for a network element from the table or tables. A discharge takes place, for example, when the Netzele not alarm within N + T seconds has reported. The waiting time labeled T must be long be enough to avoid delays in data communication due to load situations.

The delivery of alarm messages from the tables means that no more alarms are given by the network element concerned be or that communication with the evaluating Setup, for example, due to a break in the route not possible. After a commu recovery Connection is automatic "Correcting" the alarm status after N seconds at the latest.

In addition to a selection of network elements as the alarm master be configured is a monitoring system in a com communication network conceivable, in which each network element NEx also acts as an alarm master. At Each network element can then have an overview of the alarm formation of the network or a network area is displayed or be retrieved.

Claims (10)

1. Procedure for alarm monitoring in communication networks (KN) with several network elements (NEn,..., NEm), of which meh more network elements (NEx) are configured as alarm masters, where an alarm message has a group address, then sent to all alarm masters and is repeated at specified time intervals. 2. The method according to claim 1, characterized, that the alarm message is repeated until the error condition is fixed. 3. The method according to claim 1 or 2, characterized, that an alarm message formed from several alarm messages as an alarm total display from a fault-registering network element (NEn) is sent to an alarm master. 4. The method according to claim 3, characterized, that the alarm sum displays below at least two values differentiation levels (A, B, H alarm). 5. The method according to claim 1, characterized, that complete alarm information by the network element (NEx) is sent to the alarm master (s) (NEn,..., NEm). 6. The method according to claim 5, characterized, that the complete alarm information to a data processor unit or a network management of the mediation systems can be forwarded, whereby the alarm information mation is evaluated.   7. The method according to claim 1, characterized, that the number of fault-registering network elements (NEx) according to a data transfer volume on the for the Transmission of alarm messages provided data channel (ECC) can be restricted and only prioritized networks elements (NEx) are entitled to submit error messages. 8. The method according to claim 4, characterized, that the severity levels of the alarm total display (A-, B-, H- Alarm) adaptable to the switching requirements is. 9. The method according to claim 3, characterized, that newly transmitted alarm signaling from the error registering network element can also be visualized. 10. The method according to claim 1, characterized, that the alarm sum information (A, B, H alarm) after a unit of time exceeding an error reporting cycle (N + T) is reset.