KR0175454B1 - Alarm processing reporting system to identify system alarm status - Google Patents

Abstract

The present invention directly transmits a hardware alarm signal (TTL signal) of a hardware block control device to an alarm collection device using an alarm source table in an asynchronous transfer mode (ATM) exchange system, and provides an alarm source in the alarm collection device. It is an alarm processing reporting system that collects and reads the status and transmits the alarm status information to the system maintenance unit so that a consistent and accurate system alarm status can be identified during system operation. When inter-processor communication is interrupted and a failure state cannot be grasped during system operation, a consistent and accurate system alarm status can be grasped during system operation, thereby providing convenience in system operation management.

Description

Alarm processing reporting system to identify system alarm status

1 is an exemplary configuration diagram of an ATM switching system to which the present invention is applied.

2 is a configuration diagram of an embodiment of an alarm processing reporting system according to the present invention.

3 is a configuration diagram of an exemplary embodiment of an alarm processing reporting system in case of inter-processor communication path failure according to the present invention.

* Explanation of symbols for main parts of the drawings

X: Subscriber Switching Subsystem Y: Central Switching Subsystem

20: subscriber / relay line matching control device 21: subscriber switch network control device

22, 26: cell multiple / reverse multiple control device 23: subscriber control device

24, 29, 31, 32: alarm collecting device 25: central switch network control device

27: system maintenance control device 28: network synchronizer control device

33: system maintenance control system

The present invention transmits the hardware information signal (TTL signal) of the hardware block control device directly to the alarm collection device using the alarm source table in an Asynchronous Transfer Mode (ATM) exchange system, and provides the alarm source in the alarm collection device. The present invention relates to an alarm processing reporting system that collects and reads a status and transmits alarm status information to a system maintenance device so that a consistent and accurate system alarm status can be identified during system operation.

In the conventional ATM switching system, a failure state collection method includes a method in which each hardware block controller directly handles the disassembly, function, and power failure of each hardware with respect to resources under its own control. The failure was handled by the software reporting to the upper level as an inter-processor communication message by the maintenance control system.

Therefore, when a failure occurs in the control device that reports a failure message to the maintenance control system or when the inter-processor communication path fails, the communication between the upper maintenance control system and the processor is interrupted and the failure state occurs during system operation. There was a problem that can not grasp.

Therefore, the present invention devised to solve the conventional problem as described above, the hardware alarm signal (TTL signal) of the hardware block control device in the ATM switching system is collected by using the alarm source table, By reading the status and transmitting alarm status information to the system maintenance control system in the event of a control device failure or inter-processor communication path failure, it provides an alarm processing reporting system to identify a consistent and accurate system alarm status during system operation. There is a purpose.

In order to achieve the above object, the present invention provides an alarm processing reporting system for grasping a system alarm state applied to an ATM switching system having a subscriber switching subsystem and a central switching subsystem. Subscriber / relay line matching control means comprising a multiplexing control device for detecting a hernia of a subscriber / relay line matching control device, a functional failure, and a power failure of the power supply device; A switch network of the subscriber switching subsystem, comprising: subscriber switch network control means comprising a redundant control device for managing a failure state for each link by its own control device having a self-diagnostic function; First cell multiplexing / demultiplexing control means comprising a redundancy control device configured to detect a failure of a block performing a cell multiplexing and demultiplexing function of a plurality of processor input / outputs present in the subscriber switching subsystem to a switch input port of a predetermined speed; Subscriber control means for the maintenance of the subscriber switching subsystem and configured with redundancy for collecting and transmitting failure information to a higher level; And first alert collecting means for collecting hardware information which is impossible to collect in an interprocessor communication message due to a failure of each control means composed of multiplexing and redundancy existing in the subscriber switching subsystem. A central switch comprising a single routing magnetic routing switch function and a redundancy control device that manages a failure state of a matching link between the subscriber switched subsystem and the central switched subsystem in the system; Network control means; Second cell multiplexing / demultiplexing control means comprising a redundancy control device configured to detect a failure of a block performing a cell multiplexing and decomposition function of a plurality of processor input / outputs present in the central switching subsystem to the switch input port of the predetermined speed; A synchronizer control means for detecting a failure of the synchronizer block, comprising a clock generator for performing a function of generating a synchronized clock and a clock divider for providing clock signals necessary for various matching blocks and a switch network block; Second alarm collecting means for collecting a hardware alarm that cannot be collected in an interprocessor communication message of the respective control means of the central switching subsystem and the interprocessor communication path failure alarm collected in the first alarm collecting means; And a redundancy system that periodically monitors hardware alarm sources of the subscriber switching subsystem and the central switching subsystem, and receives hardware information through the first and second alarm collection means to perform system maintenance functions. And maintenance control means.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exemplary configuration diagram of an ATM switching system to which the present invention is applied, and is comprised of two subsystems, a plurality of subscriber switching subsystems (X) and a central switching subsystem (Y).

As shown in FIG. 1, the ATM switching system to which the present invention is applied includes a plurality of broadband subscriber matching modules 11a to 11n and DS3 (45 Mbps) subscriber matching that perform an STM-1 (155 Mbps) subscriber matching function. Multiple medium speed subscriber matching modules 12a through 12n with functions, multiple low speed subscriber matching modules 13a through 13n with DSIE (2 Mpbs) subscriber matching, STM-1 (155 Mbps) and STM-4 (622 Mbps) A number of relay line matching modules 14a to 14n performing matching and matching with remote subscriber modules, and all signaling, routing and connection processing control functions within the subscriber switching subsystem (X). A plurality of subscriber control modules (15a to 15n) performing the operation, and as a magnetic routing switch for transmitting the cell in the basic unit, as well as one-to-one connection as well as multiple subscriber control modules (15a to 15n) under the control of multiple access, Also subscribers Multiple subscriber switch network modules 16a to 16n that provide a protocol for matching between subsystem X and central switched subsystem Y, and a single network as the switch network of central switched subsystem Y. It is a magnetic routing switch, which performs a multiple access function under the control of calling party subscriber control modules 15a to 15n for processing of multiple accesses in the system and for matching between the subscriber switching subsystem (X) and the central switching subsystem (Y). The central switch network module 17 provides a protocol, a plurality of subscriber switch network modules 16a to 16n, subscriber and trunk line matching modules 11a-11n to 14a-14n, and a central switch network module 17. Network synchronizer module 18, which performs the function of supplying timing signals, and maintenance functions and system-wide maintenance in the central exchange subsystem (Y). It includes a system maintenance control module 19 to perform a number of functions.

Looking at the specific operation of each component of the ATM switching system to which the present invention is applied as described above are as follows.

155 Mbps base rate subscriber received via multiple broadband subscriber matching modules 11a through 11n, 45 Mbps medium speed subscriber received via multiple dependent subscriber matching modules 12a through 12n, multiple low speed subscriber matching modules 13a through 13n When a call request occurs from a plurality of relay line matching modules 14a to 14n for matching with 2 Mbps low speed subscribers, 155 Mbps and 622 Mbps subscribers and remote subscriber modules received through the network, the ATM switching system determines a predetermined virtual number in the cell transmitting the signal. The channel number is assigned to distinguish the cell from which the information is sent.

Thus, the input signal cell is delivered to the plurality of subscriber control modules 15a-15n through the plurality of subscriber switch network modules 16a-16n. At this time, the plurality of subscriber control modules (15a to 15n) receives the receiver information, the service type, the cell speed, etc. of the connection destination to the transmitted signal cell to perform the connection acceptance control for the service requested by the subscriber, Allocates a virtual channel. After the number translation and the optimal path are set, the signal information is sent to the calling party and the called user to complete the call setup.

Thereafter, cell information exchange is performed. After call setup, the subscriber and relay line matching modules 11a-11n to 14a-14n perform usage parameter control for monitoring whether the service parameter is negotiated with each other.

The central switch network module 17 of the central switching subsystem (Y) is a subscriber control module that performs call and connection processing control functions as an interconnection without connection processing for exchanging information between the subscriber switching subsystems (X). It is a self-routing switch that does not have a C, and provides a protocol for matching between the subscriber switching subsystem (X) and the central switching subsystem (Y).

The network synchronizer module 18 connected to the system maintenance control module 19 is composed of a clock generator and a clock distributor, wherein the clock generator performs a function of generating a synchronized clock, and the clock distributor is a central switching subsystem ( Various timing signals are supplied to the central switch network module 17 in Y). The various timings necessary for the matching modules 11a-11n to 14a-14n and the subscriber switch network modules 16a to 16n in the subscriber switching subsystem X are also generated and supplied.

The system maintenance control module 19, which is connected to the central switch network module 17, manages the operation and maintenance related functions in the system, and manages various input / output statements with the operator as well as network management, test management, billing and statistics functions. Perform control functions.

2 is a configuration diagram of an embodiment of an alarm processing reporting system according to the present invention.

As shown in FIG. 2, an alarm processing reporting system for identifying a system alarm state according to the present invention includes a multiplexing control device for detecting a hernia, a functional failure, and a power failure of all subscriber / relay line matching controllers. Subscriber / relay line matching controller (20) configured as a switch network of a subscriber switching subsystem (X), and a subscriber configured as a redundant control device for managing a failure state for each link by its own control device having a self-diagnosis function. Switch network control unit 21, a cell consisting of a redundant control unit for detecting a failure of a block performing a cell multiplexing and demultiplexing function of a plurality of processor input and output present in the subscriber switching subsystem (X) to a switch input port of 155Mbps It is responsible for the maintenance of the multiple / demultiplex control means 22, the subscriber switching subsystem (X), and collects fault information Subscriber control unit 23 consisting of redundancy transmitting to the upper level, and each control unit 20 to 23 consisting of multiplexing and redundancy present in subscriber switching subsystem (X) have failed and collected as inter-processor communication messages. Subscriber exchange subsystem (X) having an alert collection device (24) for collecting impossible hardware alerts;

Switch network of the central switching subsystem (Y), which provides a single-path self-routing switch function and redundancy that manages the failure status of the mating link between the subscriber switching subsystem (X) and the central switching subsystem (Y) in the system. Central switch network controller 25 composed of controllers, redundant control that detects the failure of a block that performs cell multiplexing and distribution functions to switch input ports of 155Mbps through a plurality of processor I / Os present in central switched subsystem (Y) Cell multi / demultiplex control device 26 comprising a device, a clock generator for generating a synchronized clock, and a clock distributor for providing clock signals necessary for various matching blocks and switch network blocks. Of the synchronizer control unit 28 for detecting a failure of the block, each control unit 25 to 28 of the central switching subsystem Y. An alarm collecting device 29 and a subscriber switching subsystem that collects hardware alarms that cannot be collected in the communication messages between the processors and the inter-processor communication path failure alarms collected in the alarm collecting device 24 of the subscriber switching subsystem X. System maintenance control system consisting of redundancy to periodically monitor the hardware alarm source of X) and central switching subsystem (Y), and to receive hardware alarms through alarm collection devices (24, 29) to perform system maintenance functions It consists of a central exchange subsystem (Y) having (27).

Looking at the operation of the alarm processing reporting system for identifying the system alarm state according to the present invention as described above are as follows.

The alarm collecting devices 24 and 29 of the ATM switching system are mounted in the subscriber switching subsystem X and the central switching subsystem Y, respectively. The alarm collecting devices 24 and 29 collect up to 128 hardware alarm sources in 8-bit units using 16 8-bit buffers to determine the status.

Then, the alarm collection device 24, 29 collects a failure alarm which cannot be collected as an inter-processor communication message from the subscriber switching subsystem X and the central switching subsystem Y, and the system maintenance control device 27 Report as. The system maintenance control device 27 outputs an alarm message to allow an operator to manage a system failure and condition.

Subscriber / relay line matching controller 20 consists of a number of controls present in the subscriber switching subsystem (X) to ensure that all subscriber / relay line matching controllers hernia, all subscriber / relay line matching controller malfunctions, and power supply functions Three hardware alarm sources, such as a fault, are transmitted to the alarm collection device 24.

The subscriber switch network controller 21, the cell multiplexing / demultiplexing controller 22, and the subscriber controller 23 are composed of a redundant control device, such as dismounting and functional failure of the redundant device, redundant function failure of the power supply device, and the like. Hardware alarm sources to the alarm collection device 24.

The alarm collection device 24 has inter-processor communication between the subscriber / relay line matching controller 20, the subscriber switch network controller 21, the cell multiplex / demultiplex controller 22, and the subscriber controller 23. Collect impossible hardware alarm sources.

The central switch network control unit 25, the cell multiplexing / demultiplexing control unit 26, and the network synchronizer control unit 28 are composed of redundancy control units in the central switching subsystem (Y). Two hardware alarm sources, such as a failure and a redundant function failure of the power supply, are delivered to the alarm collection device 29.

The alarm collecting device 29 collects a hardware alarm source from the central switch network control device 25, the cell multiplexing / demultiplexing control device 26, and the network synchronizer control device 28 which is not capable of inter-processor communication.

The system maintenance control unit 27 periodically monitors hardware alarm sources from the subscriber switching subsystem X and the central switching subsystem Y to receive hardware alarms through the alarm collection devices 24 and 29 to maintain the system. Perform the maintenance function.

The subscriber / relay line matching controller 20 includes a hernia alarm and a malfunction alarm, and a power supply device for each control device such as a broadband subscriber block control device, a middle speed subscriber block control device, a low speed subscriber block control device, a relay line matching block control device, and the like. The functional alarm is detected and the hardware alarm source, which is not capable of higher level communication, is transmitted to the alarm collection device 24 using the alarm source cable.

The alarm collecting device 24 collects the alarm sources in 8 bit units and reads the status, and then alarms the subscriber control device 23 performing the maintenance function of the subscriber switching subsystem X through the serial communication bus. Send the source.

The alarm source collected by the subscriber control unit 23 is multiplexed by the cell multiplexing / demultiplexing control unit 22 in units of cells of the interprocessor intercommunication communication message, and is transferred to the central switch network block via the subscriber switch network block 21. 25). The failure alert is reported to the system maintenance control unit 27 which separates the multiplexed cells coming from the central switch network block 25 in the cell multiplex / demultiplex block 26 and performs a system maintenance function.

Referring to FIG. 2, the delivery of hardware alarm processing that is not possible for interprocessor communication with the controllers 20 to 23 in the subscriber switching subsystem X is performed by the alarm collecting device 24 → subscriber controller 23 → cell. Multi / Demultiplex Control (22) → Subscriber Switch Network Control (21) → Central Switch Network Control (25) → Cell Multi / Demultiplex Control (26) → System Maintenance Control (27) do.

However, in the redundant control devices 21 to 23, after the alarm collecting device 24 collects the hardware alarm source and delivers it to the subscriber control device 23 performing the maintenance function, through the serial communication bus, Since failure alarms are handled by intercommunication messages, if any failure occurs in the hardware block constituting the alarm delivery path, the failure alarm cannot be reported to the system maintenance control device 27 through the alarm processing delivery path.

Accordingly, the redundancy of the subscriber switch network controller 21, the cell multiplexing / demultiplexing controller 22, and the subscriber controller 23 in the information processing transmission path, which are configured as a redundant controller, In the event of a redundant function failure of the power supply unit, two hardware alarm sources of each control unit are collected at the TTL level by the alarm collection unit 24 to generate one hardware alarm source for each control unit. The alarm collection device 29 in Y) transmits the hardware alarm source through the alarm source cable.

The alarm collection device 290 then reports the inter-processor intercommunication path failure alarm to the system maintenance control device 27 via the serial communication bus, and the alarm collection device 24 of the subscriber exchange subsystem (X). In the event of a failure, hardware alarms that are incapable of inter-processor communication of the subscriber exchange subsystem (X) managed by the alarm collection device 24 are ignored, and finally the system maintenance control device 27 through the alarm processing delivery path. You are notified.

On the other hand, the redundant switchboard of the central switch network controller 25, the cell multiplexing / demultiplexing controller 26, and the network synchronizer controller 28, which are composed of the redundant control unit in the central switching subsystem Y. And a functional failure, a redundant power failure of the power supply unit, the hardware alarm sources (two) of each control unit are collected by the alarm collection unit 29 at the TTL level and transferred to the system maintenance control unit 27 by the serial communication bus. Forward fault alerts directly.

Subsequently, the system maintenance control device 27 detects a hardware failure alarm source that cannot communicate with each other, and outputs an alarm content, so that an operator can determine and maintain a hardware abnormality of the system. Then, in the event of a failure of the alarm collecting device 29 in the central switching subsystem Y, the hardware alarm and the subscriber exchange that are not mutually communication between the processors of the central switching subsystem Y managed by the alarm collecting device 29 are impossible. Inter-processor intercommunication path failure alerts coming from subsystem X are ignored, and the alert collection device 29 reports directly to the system maintenance control unit 27.

3 is a block diagram of an exemplary embodiment of an alarm processing reporting system in case of inter-processor communication path failure according to the present invention.

As shown in FIG. 3, the interprocessor inter-path path alarm source of the subscriber switching subsystem (X) includes switch network controller failure (3a), cell multiple / demultiplex controller failure (3b), subscriber control. Hardware alarm sources such as device failures (3c), input power (-48Vdc) malfunctions required by ATM exchangers, fan unit and temperature sensor malfunctions in racks, and mechanical failures (3d) with one hardware alarm source The alarm collecting device 31 collects at the TTL level to generate one hardware alarm source for each control device, and sends the alarm signal directly to the alarm collecting device 32 in the central switching subsystem Y using the alarm source cable. send.

In addition, the alarm collection device 32 of the central switching subsystem Y is a processor collected from the alarm collection device of the other subscriber switching subsystem Z and the hardware alarms that are not mutually interprocessor capable of processing within the central switching subsystem Y. It also collects intercommunication path failure alarm sources. In this way, the alarm collection device 32 of the central switching subsystem Y reports the collected hardware alarm source to the system maintenance control system 33 using the serial communication bus, thereby maintaining the system in the system maintenance control system 33. Manage it.

According to the present invention as described above, in the case where the communication between the upper maintenance control system and the processor in the ATM switching system is interrupted and the failure state cannot be grasped in operating the system, the system can be obtained by identifying a consistent and accurate system alarm status in the operating system. There is an effect that can facilitate the operation management.

Claims (3)

An alarm processing reporting system for identifying a system alert condition applied to an ATM switching system having a subscriber switching subsystem and a central switching subsystem, the system comprising: a subscriber switching subsystem; All subscribers; subscriber / relay line matching control means comprising a multiplexing control device for detecting a hernia of a relay line matching controller, a functional disorder, and a functional disorder of a power supply; A switch network of the subscriber switching subsystem, comprising: subscriber switch network control means comprising a redundant control device for managing a failure state for each link by its own control device having a self-diagnostic function; First cell multiplexing / demultiplexing control means comprising a redundancy control device configured to detect a failure of a block performing a cell multiplexing and demultiplexing function of a plurality of processor input / outputs present in the subscriber switching subsystem to a switch input port having a predetermined speed; Subscriber control means for the maintenance of the subscriber switching subsystem and configured with redundancy for collecting fault information and transmitting it to a higher level; And first alert collection means for collecting hardware alerts that are impaired in each of the control means consisting of multiplexing and redundancy present in the subscriber switching subsystem and cannot be collected in an interprocessor communication message, wherein the central switching subsystem comprises: A centralized redundancy control device for managing a failure state for a mating link between the subscriber switched subsystem and the central switched subsystem in the system, as a switch network of the central switched subsystem; Switch network control means; Second cell multiplexing / demultiplexing control means comprising a redundancy control device configured to detect a failure of a block performing a cell multiplexing and distribution function of a plurality of processor input / outputs present in the central switching subsystem to the switch input port of the predetermined speed; A synchronizer control means for detecting a failure of the synchronizer block, comprising a clock generator for performing a function of generating a synchronized clock and a clock divider for providing clock signals necessary for various matching blocks and a switch network block; Second alarm collecting means for collecting a hardware alarm that cannot be collected in an interprocessor communication message of the respective control means of the central switching subsystem and the interprocessor communication path failure alarm collected in the first alarm collecting means; And a redundancy system that periodically monitors hardware alarm sources of the subscriber switching subsystem and the central switching subsystem and receives hardware alarms through the first and second alarm collection means to perform system maintenance functions. Alarm processing reporting system for grasping the system alarm status, including the maintenance control means. 2. The hardware alert processing forwarding process in which the interprocessor communication with each of the control devices in the subscriber switching subsystem in the subscriber exchange subsystem is not possible, comprises: the first alert collection means → the subscriber control means → the first cell multiple / reverse; Multiplexing control means → the subscriber switch network control means → the central switch network control means → the second cell multiplexing / demultiplexing control means → the alarm for grasping the system alarm status, characterized in that reported by the system maintenance control means Treatment reporting system. 3. The method according to claim 1 or 2, wherein the first alert collecting means comprises: a failure of the subscriber switch network control means, a failure of the first cell multiplexing / demultiplexing control means, in the event of inter-processor communication path failure. The hardware alarm source, such as the failure of the subscriber control means, the input power failure required for the ATM switch, the fan unit and the temperature sensor malfunction of the rack, and the mechanical failure having one hardware alarm source, are collected at the TTL level. One hardware alarm source is generated for each control means, and an alarm signal is directly transmitted to the second alarm collecting means by using an alarm source cable, and the second alarm collecting means communicates between the processors in the central switching subsystem. The mutual interaction between these impossible hardware alarms and the processors collected by other alarm collection means of other subscriber exchange subsystems. Collecting a communication path failure alarm source and reporting the collected hardware alarm source to the system maintenance control means using a serial communication bus.