JP2014067232A - Management device including collective management function of performance information - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable the re-collection processing of accurate performance information even in a situation where an event in which a monitoring state of a network configuration device becomes non-monitoring resulting from a disconnection state of a network line frequently occurs.SOLUTION: A management device for collecting and managing performance information of a plurality of network configuration devices in a predetermined period includes a processor which calculates a priority on the basis of at least one parameter among a packet loss rate of response about performance information of the network configuration devices, a ratio of the number of items of collected performance information to the number of the entire collection items, and a re-collectable residual time, and executes a performance information collection process for setting a priority sequence for re-collecting performance information in accordance with the calculated priority.

Description

  The present invention relates to a management apparatus including a performance information collection management function.

An EMS (Element Management System) server, which is a network management device, uses a protocol SNMP (Simple Network Management Protocol) and performs performance from a plurality of network configuration devices of a management target device via a DCN (Data Communication Network) line. Collect various information such as information. Since SNMP is a connectionless protocol, it is generally handled by retransmission processing on the assumption that packet loss occurs on the DCN route.

  The EMS server needs to collect performance information from a plurality of network constituent devices of the management target device at a predetermined cycle, and a cycle determined by the DCN bandwidth, the retransmission timer time, and the packet lost rate (for example, 15 Within a minute), so that collection processing from all managed devices is completed.

  When a network including a plurality of network configuration devices is a wireless network, since wireless communication is performed through a DCN line, it is difficult to always maintain good transmission quality, and the network configuration is caused by the disconnection state of the DCN line. Many events occur when the monitoring status of the device is not monitored.

  When the disconnection state of the DCN line occurs, all network constituent devices existing in the path after the occurrence location are not monitored. The EMS server cannot collect performance information within a predetermined period for network configuration devices whose monitoring status is unmonitored. Therefore, after the DCN line is restored, the EMS server re-collects the period during which performance information could not be collected. Will be carried out.

JP 2000-201156 A JP-A-6-276203

  However, in recent years when the number of network configuration devices monitored by the EMS server is increasing, there is a problem that performance information on all network configuration devices cannot be collected within a predetermined period (time) in the recollection processing.

  The problem is to provide a technique that enables accurate performance information re-collection processing even in a situation in which there are many events in which the monitoring state of the network component device is unmonitored due to the disconnection state of the network line. is there.

  In order to solve the above-mentioned problem, a management device that collects and manages performance information of a plurality of network configuration devices at a predetermined cycle includes a packet lost rate of a response regarding the performance information of the network configuration device, and the collected performance information Priority is calculated based on the ratio of the number of items to the total number of items collected and at least one parameter of the remaining recollectable time, and priority for recollecting performance information according to the calculated priority A processor configured to execute a performance information collection process for setting the ranking.

  According to the disclosed management apparatus, re-collection of performance information that could not be collected when a network line disconnection state occurred can be performed according to priority.

  Other objects, features and advantages will become apparent upon reading the detailed description set forth below when taken in conjunction with the drawings and the appended claims.

1 shows a configuration of a monitoring system according to an embodiment. The block diagram which shows the structure of the EMS server in the monitoring system of one embodiment. The block diagram which shows the structure of the radio | wireless apparatus in the monitoring system of one embodiment. The sequence at the time of line disconnection alarm reception is shown. Indicates the contents of the table when a line disconnection alarm is received. The sequence of the current health check process is shown. Indicates the contents of the table during the health check process. The figure for demonstrating the recollection process of the present performance information. The sequence of performance information collection processing is shown below. The current performance information re-collection processing sequence is shown. The sequence of the health check process is shown. Indicates the contents of the table during the health check process. The figure for demonstrating the priority setting of a recollection process. The sequence of performance information recollection processing considering priority setting is shown.

  Hereinafter, further detailed description will be given with reference to the accompanying drawings. The drawings show preferred embodiments. However, it can be implemented in many different forms and is not limited to the embodiments described herein.

[System configuration]
Referring to FIG. 1 showing a system configuration in an embodiment, a wireless network monitoring system SYS includes an EMS (Element Management System) server 1 and an EMS client 2.

  The EMS server 1 is wired to a monitoring network 3 that is a layer 2 (L2) network, and through this monitoring network 3, a DCN (data communication network: including a plurality of wireless devices 4 (A to I) as network configuration devices). It is a management device that manages the Data Communication Network. Further, the EMS client 2 wired to the monitoring network 3 is an operator terminal, and cooperates with the EMS server 1 as necessary, such as reading alarm information and performance information from the EMS server 1.

  The plurality of wireless devices 4 (A to I) are transmission devices arranged in each communication station. Here, the wireless devices 4 (A to I) constitute a DCN of a wireless network, and are wirelessly connected or wiredly connected to a predetermined wireless device 4. Here, the wired connection is a connection form using a wired line indicated by a solid line in FIG. 1, and the wireless connection is a connection form using a wireless line indicated by a dotted line in FIG.

  As shown in FIG. 1, not all the wireless devices 4 (A to I) are directly connected to the monitoring network 3 by a wired connection, but some wireless devices 4 are directly connected to the monitoring network 3 by a wired connection. The connection is established by relaying (A, H).

  For this reason, when a DCN line disconnection (hereinafter, simply referred to as a line disconnection) occurs in the relay section, the EMS server 1 monitors the wireless device 4 (for example, D, E) after the occurrence location. It becomes unsupervised. As a result, as will be described in detail later, the EMS server 1 fails to collect the performance information (PM) for the wireless device 4 (D, E) of the non-monitoring device. Recollection will be performed after the line is restored to normal.

  The disconnection of the DCN line is determined to be a disconnection of the line because communication between the wireless device 4 (C) and the wireless device 4 (D) cannot be normally performed due to the influence of the external environment or the like. Includes state.

[EMS server configuration]
Referring to FIG. 2, an EMS server 1 as a management device is a server computer, and includes the following elements as a hardware configuration. In other words, a CPU (Central Processing Unit) as a processor and a RAM (Random Access Memory) as a working memory
And a ROM (Read Only Memory) storing a boot program for startup.

  The EMS server 1 includes a non-volatile flash memory that stores an OS (Operating System), various application programs, and various types of information (including data) in a rewritable manner, and a communication interface. Since these hardware configurations can be easily understood and implemented by those skilled in the art, they are not shown here.

  In order to logically realize the performance information collection management function described in detail later, in the EMS server 1, a control program is installed as an application program in the flash memory. Then, triggered by autonomous activation in the EMS server 1 or notification from the wireless device 4, the CPU expands and executes this control program in the RAM.

  More specifically, the EMS server 1 includes a performance information collection process 11, a health check process 12, and an SNMP transmission / reception process 13 as processing division units. The EMS server 1 includes an alarm management table 14, a performance information collection management table 15, a collection failure (NG) management table 16, a device management table 17, and a communication management table 18 as storage units. Data is stored.

  The SNMP transmission / reception process 13 transmits an SNMP GET REQUEST as an SNMP request message in the form of a packet to the wireless device 4 from the health check process 12 or the performance information collection process 11, and an SNMP as an SNMP response message in the form of a packet from the wireless device 4. This is a process of reporting GET RESPONSE to each process.

  The health check process 12 is a process of confirming the monitoring state (monitoring or non-monitoring) by transmitting SNMP GET REQUEST via the SNMP transmission / reception process 13 for all the wireless devices 4 registered in the device management table 17. It is. If there is no SNMP GET RESPONSE response to the SNMP GET REQUEST transmitted to confirm the monitoring state, the health check process 12 registers the recalculated packet lost rate in the communication management table 18. In addition, when the health check process 12 receives a DCN line disconnection alarm from the wireless device 4, the health check process 12 performs a process of updating the monitoring state of the corresponding wireless device 4 to non-monitoring in the device management table 17.

  The performance information collection process 11 acquires performance information to be collected from the device management table 17, the performance information collection management table 15, and the collection NG management table 16, and acquires performance information stored in the wireless device 4. Regarding the performance information re-collection processing performed by the performance information collection processing, the re-collectable remaining time calculated by the re-collection priority setting processing 110 based on the data stored in the collection NG management table 16 and the device management table 17 The number of items of collected performance information and the number of all collected items calculated based on the lost rate (packet lost rate) of the SNMP response from the communication management table 18 and the data stored in the device management table 17 and the performance information collection management table 15 The re-collection process is performed in consideration of the ratio.

[Wireless device configuration]
Referring to FIG. 3, a plurality of wireless devices 4 (A to I) as network configuration devices include the following elements as hardware configurations. That is, it includes a CPU as a processor, a RAM as a working memory, and a ROM storing a boot program for startup.

  The wireless device 4 includes an OS, various application programs, and nonvolatile flash memory that stores various information (including data) in a rewritable manner, and a communication interface. Since these hardware configurations can be easily understood and implemented by those skilled in the art, they are not shown here.

  In order to logically realize the performance information collection management function in cooperation with the EMS server 1, the wireless device 4 installs a control program in the flash memory as an application program. Then, in response to a request from the EMS server 1 or a request or notification from another wireless device 4, the CPU develops this control program in the RAM and executes it.

More specifically, each wireless device 4 includes a DCN monitoring process 40, an SNMP transmission / reception process 41, and a performance information management process 42 as processing division units. Each wireless device 4 also includes a performance information storage table 43 that stores performance information, and a standard MIB database (M that stores standard MIB (Management Information Base) data of management information.
IB-DB) 44 as a storage unit. The performance information storage table 43 stores, as performance information, a monitor type (for example, a quality index such as a transmission power level and a reception power level) and a measurement value for each acquisition time.

  The DCN monitoring process 40 is a process for confirming the normality of a DCN line by autonomously performing a health check with a subordinate radio apparatus 4 at a predetermined cycle.

  The SNMP transmission / reception process 41 is a process for receiving SNMP GET REQUEST from the EMS server 1 and reporting standard MIB data and performance information as SNMP GET RESPONSE.

  The performance information management process 42 is a process for acquiring performance information from the performance information storage table 43 and transmitting it to the EMS server 1 through the SNMP transmission / reception process 41.

[Operation]
Next, an operation example in the monitoring system SYS according to the embodiment will be described with reference to related drawings. In order to clarify the difference between each process, the current process will also be described.

(Line disconnection alarm reception processing)
The DCN monitoring process 40 of the wireless device 4 (C) in the plurality of wireless devices 4 (A to I) in FIG. 1 periodically performs a health check with the DCN monitoring process 40 of the subordinate wireless device 4 (D). Thus, the normality of the DCN line is confirmed.

  When the DCN line between the wireless device 4 (C) and the wireless device 4 (D) is disconnected as shown in the sequence of the line disconnection alarm reception process in FIG. 4, the wireless device 4 (C) responds to the health check response. Is not from the wireless device 4 (D), the response timeout is detected by the DCN monitoring process 40.

  Thereby, the DCN monitoring process 40 of the wireless device 4 (C) outputs a DCN line disconnection alarm to the SNMP transmission / reception process 41. Then, the SNMP transmission / reception process 41 of the wireless device 4 (C) notifies the EMS server 1 of a DCN line disconnection alarm by an SNMP Trap as an SNMP notification message in a packet form.

  In the EMS server 1, when the SNMP Trap is received, the SNMP transmission / reception process 13 detects a DCN line disconnection alarm from the wireless device 4 (C) and activates the health check process 12. The health check process 12 registers alarm information in the alarm management table 14.

  Here, the alarm information registered in the alarm management table 14 is, as illustrated in FIG. 5, occurrence time: 2011/11/01 10:00: 00, detection device: device C (wireless device 4 (C)). Location of occurrence: Between devices C and D (between wireless device 4 (C) and wireless device 4 (D)) and alarm type: DCN line disconnection.

  Further, when the received alarm information is a disconnection of the DCN line, the health check process 12 obtains information on the subordinate devices (device list) connected to the wireless device 4 (C) that has detected the line disconnection from the device management table 17. In order to acquire, the device management table 17 is searched, and the monitoring state of the corresponding wireless device 4 (D, E) is changed (updated) to non-monitoring.

  Here, as illustrated in FIG. 5, the device information registered in the device management table 17 includes a device name, a DCN connection source, a device type (types 1 and 2 indicate differences in performance information held), and performance information. It includes a holding period (here, time), a monitoring state (monitoring or non-monitoring), and an IP address.

(Health check process (1))
As shown in the current health check processing sequence in FIG. 6, the health check process 12 of the EMS server 1 obtains a device list registered in the device management table 17 and performs all registration via the SNMP transmission / reception process 13. In order to request standard MIB data of management information as a health check, the wireless device 4 that is a device is caused to transmit SNMP GET REQUEST (sometimes simply referred to as SNMP GET).

  In the normal sequence, the wireless device 4 that has received the SNMP GET REQUEST acquires standard MIB data from the MIB-DB 44 and responds to the EMS server 1 by SNMP GET RESPONSE.

  When the SNMP transmission / reception process 13 in the EMS server 1 receives the MIB data, the SNMP transmission / reception process 13 outputs a response indicating that the communication with the corresponding wireless device 4 is possible to the health check process 12.

  Thereby, the health check process 12 updates the monitoring state to monitoring when the monitoring state of the wireless device 4 in the device management table 17 is non-monitoring (see FIG. 7).

  On the other hand, in the abnormal sequence, the health check process 12 of the EMS server 1 uses the SNMP GET REQUEST to request the standard MIB data as a health check from the wireless devices 4 that are all registered devices via the SNMP transmission / reception process 13. Send it.

  However, because this SNMP GET REQUEST is not received by the wireless device 4 due to packet loss and there is no response from the wireless device 4, a timeout occurs in the SNMP transmission / reception process 13 in the EMS server 1.

  When the SNMP transmission / reception process 13 notifies the health check process 12 of a timeout, the health check process 12 causes the SNMP transmission / reception process 13 to again transmit an SNMP GET REQUEST as a health check.

  When the SNMP transmission / reception process 13 detects a timeout due to no response from the wireless device 4, the SNMP transmission / reception process 13 notifies the health check process 12 of the timeout again.

  Thereby, the health check process 12 updates the monitoring state of the corresponding wireless device 4 in the device management table 17 to non-monitoring (see FIG. 7).

(Performance information re-collection process (1))
The EMS server 1 manages the monitoring state of all the wireless devices 4 registered in the device management table 17. In the performance information collection processing, by checking this monitoring state, the wireless device 4 that is not monitored for which performance information cannot be collected is not collected, and is determined as a collection failure (NG). .

  In addition, although the monitoring state of the wireless device 4 is monitored, it is also determined as a collection NG when there is no performance information response from the wireless device 4 and a time-out occurs. Any performance information determined to be collected NG will be re-collected after the next cycle.

  Referring to the current performance information re-collection processing shown in FIG. 8, performance information collection is performed on all wireless devices 4 whose monitoring status is monitored, for example, in a cycle of 15 minutes. In the example of FIG. 8, since a line disconnection occurs between the wireless device 4 (C) and the wireless device 4 (D) immediately after the start time 0:00 of the cycle # 1 (circle numeral 1 in FIG. 8), the wireless device 4 (D) and the monitoring state of the wireless device 4 (E) are not monitored.

  Therefore, for the wireless device 4 (D) and the wireless device 4 (E), the performance information that should be collected in the cycle # 1 is not collected, and the result is “collected NG” (circle numeral 2 in FIG. 8). 8 is registered for each performance information identifier (PM-ID) in the collection NG management table 16 in order to perform re-collection when recovery from non-monitoring to monitoring (circle numbers in FIG. 8) 3).

  Prior to the start of cycle # 2, the disconnection between the wireless device 4 (C) and the wireless device 4 (D) is restored, and the monitoring state of the wireless device 4 (D) and the wireless device 4 (E) is updated to monitoring. (Circle number 4 in FIG. 8).

  For this reason, in the cycle # 2, after the collection of performance information to be collected in the cycle # 2 (collection in the current cycle) is completed, the wireless device 4 (D) and the wireless device stored in the collection NG management table 16 Re-collection of performance information for 4 (E) is performed (circled number 5 in FIG. 8).

If the re-collection is successful, it is deleted from the collection NG management table 16, and if the re-collection also fails, it is not deleted from the collection NG management table 16 in order to re-collect in the next cycle (see FIG. Round numbers 6 in 8).

  Here, the performance information identifier (PM-ID) corresponds to each of the divided threads on the resource axis and the time axis. In the EMS server 1, a plurality of threads (thread of execution) which are execution contexts are simultaneously executed in parallel.

  Further, in the performance information collection management table 15 and the collection NG management table 16 in FIG. 8, the collection type monitors 1, 2, 3 indicate the type of performance information to be collected, and the performance information storage table 43 in the wireless device 4. It corresponds to the monitor type (measurement type) of the performance information stored in.

  FIG. 9A shows a current performance information collection process sequence in the current cycle. Referring to FIG. 9A, the performance information collection process 11 in the EMS server 1 obtains the device information (device list) from the device management table 17 and then collects the performance information collected for the wireless device 4 whose monitoring state is unmonitored. In order to register in the collection NG management table 16, the corresponding information is acquired from the performance information collection management table 15.

  Thereafter, the performance information collection process 11 acquires the performance information to be collected from the performance information collection management table 15 for the wireless device 4 whose monitoring state is monitored, and requests the SNMP transmission / reception process 13 to acquire the performance information. To do.

  The SNMP transmission / reception process 13 that has been requested to acquire the performance information transmits an SNMP GET REQUEST to the wireless device 4.

  The SNMP transmission / reception process 41 in the wireless device 4 that has received the SNMP GET REQUEST acquires the performance information from the performance information storage table 43 via the performance information management process 42 and transmits it to the EMS server 1 by SNMP GET RESPONSE.

  When a response of performance information is normally notified from the wireless device 4 to the SNMP transmission / reception process 13 by SNMP GET RESPONSE (normal collection sequence), the performance information collection process 11 performs performance information collection management based on the performance information as response data. Performance information is stored in the table 15.

  On the other hand, when the response of the performance information is not notified from the wireless device 4 and the SNMP transmission / reception process 13 detects a timeout (abnormality collection sequence), the performance information collection process 11 again transmits to the wireless device 4 via the SNMP transmission / reception process 13. , SNMP GET REQUEST is transmitted.

  However, the SNMP transmission / reception process 13 registers the NG list that is a collection NG in the collection NG management table 16 when a timeout is detected without a response being notified from the wireless device 4.

  The performance information collection process described above is repeatedly performed for all the wireless devices 4 whose monitoring state is monitoring.

  FIG. 9B shows a sequence of the current re-collection process for performance information that has been failed before the current cycle in the process performed after the performance information collection process shown in FIG. 9A is completed.

Referring to FIG. 9B, after the performance information collection process (collection process in the current cycle) shown in FIG. 9A is completed, the performance information collection process 11 performs the monitoring in the wireless device 4 whose monitoring state is monitoring from the collection NG management table 16. Acquire performance information that failed before the current cycle.

  The performance information collection process 11 requests the SNMP transmission / reception process 13 to acquire performance information in order to collect performance information from the wireless device 4 based on the acquired performance information. Accordingly, the SNMP transmission / reception process 13 transmits an SNMP GET REQUEST to the wireless device 4.

  The SNMP transmission / reception process 41 in the wireless device 4 that has received the SNMP GET REQUEST acquires the performance information from the performance information storage table 43 via the performance information management process 42 and transmits it to the EMS server 1 by SNMP GET RESPONSE.

  When the response of performance information is normally notified from the wireless device 4 by SNMP GET RESPONSE and received by the SNMP transmission / reception process 13 (normal collection sequence), the performance information collection process 11 performs performance information collection management based on the performance information of the response data. The performance information is stored in the table 15, and the successful NG list is deleted from the collection NG management table 16.

  On the other hand, when the response of the performance information is not notified from the wireless device 4 by SNMP GET RESPONSE and the SNMP transmission / reception process 13 detects a timeout (abnormal collection sequence), the SNMP transmission / reception process 13 notifies the performance information collection process 11 of the timeout. .

  The performance information collection process 11 notified of the timeout requests the SNMP transmission / reception process 13 to acquire the performance information again.

  The SNMP transmission / reception process 13 transmits an SNMP GET REQUEST to the wireless device 4 again, and when the response is still not notified by the SNMP GET RESPONSE and a timeout is detected, the next wireless device is not processed. Collect performance information for 4.

  The performance information re-collection processing described above is repeatedly performed for the collection NG list acquired from the collection NG management table 16. However, if the period of 15 minutes is exceeded, the repetition process is interrupted and the process ends.

  Thereafter, the performance information collection process 11 deletes from the collection NG management table 16 the NG list for which re-collection of performance information has become impossible.

  Regarding whether or not performance information can be collected, if the difference between the collection failure time in the collection NG management table 16 and the current time exceeds the performance information retention period in the device management table 17, it is determined that collection is impossible. As described above, it is necessary to suppress the occurrence of an event in which performance information cannot be collected when the performance information holding period is exceeded.

(Health check process (2))
As described above, the health check process 12 in the EMS server 1 includes two processes, that is, a DCN line disconnection alarm reception process and a health check process. Here, the alarm reception processing for disconnecting the DCN line is the same as that described with reference to FIGS.

As shown in the health check processing sequence in FIG. 10, the health check process 12 of the EMS server 1 performs the device information ( (Device list) is acquired, and an SNMP GET REQUEST is transmitted to the wireless devices 4 that are all registered devices via the SNMP transmission / reception process 13 in order to request standard MIB data of management information as a health check.

In the normal sequence, the SNMP transmission / reception process 41 of the wireless device 4 that has received the SNMP GET REQUEST acquires standard MIB data from the MIB-DB 44, and SNMP
It responds to the EMS server 1 by GET RESPONSE.

  When the SNMP transmission / reception process 13 in the EMS server 1 receives the MIB data, the SNMP transmission / reception process 13 outputs a response indicating that the communication with the corresponding wireless device 4 is possible to the health check process 12.

  Thereby, the health check process 12 updates the monitoring state to monitoring when the monitoring state of the wireless device 4 in the device management table 17 is non-monitoring (see FIG. 7).

  On the other hand, in the abnormal sequence, the health check process 12 of the EMS server 1 uses the SNMP GET REQUEST to request the standard MIB data as a health check from the wireless devices 4 that are all registered devices via the SNMP transmission / reception process 13. Send it.

  However, because this SNMP GET REQUEST is not received by the wireless device 4 due to packet loss and there is no response from the wireless device 4, a timeout occurs in the SNMP transmission / reception process 13 in the EMS server 1.

  When the SNMP transmission / reception process 13 notifies the health check process 12 of a timeout, the health check process 12 counts up the error count and performs communication management on the recalculated lost rate (packet lost rate) of the SNMP response (SNMP GET RESPONSE). The value of the corresponding wireless device 4 in the table 18 is updated (see FIG. 11).

  After the update, the health check process 12 again causes the SNMP transmission / reception process 13 to transmit SNMP GET REQUEST as a health check.

  When the SNMP transmission / reception process 13 detects a timeout due to no response from the wireless device 4, the SNMP transmission / reception process 13 notifies the health check process 12 of the timeout again.

  The health check process 12 notified of the timeout again further increments the error count and updates the value of the corresponding wireless device 4 in the communication management table 18 to the recalculated lost rate of the SNMP response (see FIG. 11).

  Further, the health check process 12 updates the monitoring state of the corresponding wireless device 4 in the device management table 17 to non-monitoring (see FIG. 7).

(Priority setting)
By the re-collection priority setting processing 110 in the performance information collection process 11, three parameters held by the EMS server 1, that is, the remaining recollectable time T, the ratio N of the collected performance information items and the total number of collected items N And the lost rate (packet lost rate) L of the SNMP response (SNMP GET RESPONSE), the appropriate priority (priority order) of the performance information recollection processing is set.

  With reference to FIG. 12, the priority setting of the performance information recollection processing will be described in detail.

  (A) For the remaining recollectable time T, the remaining time (in this case, minutes) is calculated from the performance information retention period in the device management table 17 and the collection failure time in the collection NG management table 16.

  (B) Regarding the ratio N between the number of collected performance information items and the total number of collected items, the number of collected items per device is counted based on the collection type in the performance information collection management table 15. Further, based on the performance measurement number (maximum number) in the device management table 17, the maximum number of collection items of the corresponding wireless device 4 is acquired, and the ratio of the number of collection items is calculated.

  (C) Regarding the lost rate L of the SNMP response stored in the communication management table 18, the number of SNMP response timeouts per hour in SNMP communication is counted (error count), and the packet lost rate is calculated.

  (D) Based on the above three parameters, an appropriate priority is calculated by the calculation formula: (1 / T) × N × L. However, it may be calculated based on at least one of these three parameters. As can be understood from this calculation formula, the shorter the recollectable remaining time T, the higher the priority of recollection. However, those whose remaining time T that can be recollected becomes 0 are excluded from the collection NG management table 16 because they are deleted. It is recognized that the higher the priority value obtained by the above formula, the higher the priority of recollection. In the example of FIG. 12, the first priority of the recollection process is set based on the first priority value for the performance information identifier (PM-ID) 12 corresponding to the wireless device 4 (D). ing.

  Based on the priority setting of the performance information recollection processing by the recollection priority setting processing 110 described above, as illustrated in FIG. 12, the performance information identifiers corresponding to the wireless devices 4 (D) and 4 (E). (PM-ID) 12, 32, 199, etc. are set as targets of the recollection process.

  In the performance information collection management table 15 and the collection NG management table 16 in FIG. 12, the collection type monitors 1, 2, and 3 indicate the type of performance information to be collected and are stored in the performance information storage table 43 in the wireless device 4. It corresponds to the performance information monitor type (measurement type).

  In addition, the performance information identifier (PM-ID) corresponds to each of the resource axis and the time axis that are divided into threads. In the EMS server 1, a plurality of threads that are execution contexts are simultaneously executed in parallel.

(Performance information re-collection processing considering priority setting)
The monitoring status of the device management table 17 set by the health check process 12 is checked, and performance information is collected for the wireless device 4 whose status is monitored.

  The performance information recollection processing taking into account the priority setting described above will be described. FIG. 13 shows a re-collection processing sequence for performance information that has been collected after the completion of the performance information collection processing shown in FIG.

  Referring to FIG. 13, after the performance information collection process in the current cycle described with reference to FIG. 9A is completed, the performance information collection process 11 collects data before the current cycle in the wireless device 4 whose monitoring state is monitoring. The failed collection target information (NG list) is acquired from the collection NG management table 16.

  Further, the performance information collection process 11 performs the re-collection processing of the performance information in consideration of the priority setting, the re-collectable remaining time T, the ratio N of the collected performance information items and the total number of collection items, And the lost rate L of the SNMP response is calculated or acquired.

  That is, the performance information collection process 11 sends an SNMP transmission / reception process 13 to the SNMP transmission / reception process 13 in order to collect performance information from the corresponding wireless device 4 based on the NG list acquired from the collection NG management table 16 and the priority setting process result. GET REQUEST is transmitted.

  The SNMP transmission / reception process 41 in the wireless device 4 that has received the SNMP GET REQUEST acquires the performance information from the performance information storage table 43 via the performance information management process 42 and transmits it to the EMS server 1 by SNMP GET RESPONSE.

  When the response of performance information is normally notified from the wireless device 4 by SNMP GET RESPONSE and received by the SNMP transmission / reception process 13 (normal collection sequence), the performance information collection process 11 performs performance information collection management based on the performance information of the response data. The performance information is stored in the table 15, and the successful NG list is deleted from the collection NG management table 16.

  Similarly, when the response of the performance information is not notified by the SNMP GET RESPONSE from the corresponding wireless device 4 and the SNMP transmission / reception process 13 detects a timeout (abnormal collection sequence), the SNMP transmission / reception process 13 performs the performance information collection process 11. Notify the timeout.

  The performance information collection process 11 notified of the timeout requests the SNMP transmission / reception process 13 to acquire the performance information again.

  The SNMP transmission / reception process 13 transmits an SNMP GET REQUEST to the wireless device 4 again, and when the response is still not notified by the SNMP GET RESPONSE and a timeout is detected, the next wireless device is not processed. Collect performance information for 4.

  The performance information re-collection processing described above is repeatedly performed for the collection NG list acquired from the collection NG management table 16. However, if the period of 15 minutes is exceeded, the repetition process is interrupted and the process ends.

  Thereafter, the performance information collection process 11 deletes from the collection NG management table 16 a collection list in which performance information cannot be collected again.

[Effect of one embodiment]
According to the monitoring system of the above-described embodiment, re-collection of performance information that could not be collected at the time of occurrence can be performed according to an appropriate priority in a wireless network in which line disconnection occurs frequently.

[Modification]
The processing in the above-described embodiment is provided as a computer-executable program, and can be provided via a non-transitory computer-readable recording medium such as a CD-ROM or a flexible disk, and further via a communication line.

  In addition, each of the processes in the above-described embodiment can be performed by selecting and combining any or all of the processes.

SYS monitoring system 1 EMS server 2 EMS client 3 monitoring network 4 wireless device (A to I)
11 Performance information collection process 12 Health check process 13 SNMP transmission / reception process 14 Alarm management table 15 Performance information collection management table 16 Collection NG management table 17 Device management table 18 Communication management table 110 Recollection priority setting process

Claims (4)

A management device that collects and manages performance information of a plurality of network configuration devices at a predetermined cycle,
Priority based on at least one of the following parameters: packet lost rate L of response regarding performance information of the network configuration device, ratio N of the number of collected performance information items to the total number of collected items, and remaining recollectible time T Calculate the degree,
Set the priority for re-collecting performance information according to the calculated priority.
A processor configured to perform a performance information collection process;
A management device comprising: The calculation formula for calculating the priority based on all parameters of the packet lost rate L of the response, the ratio N, and the remaining recollectable time T is (1 / T) × N × L. Item 2. The management device according to Item 1. The packet lost rate L of the response is obtained by counting the number of response timeouts per predetermined time in a specific communication,
The ratio N is obtained from the ratio of the maximum number of collection items and the number of collection items based on the number of collection items and the number of performance measurements for each network configuration device,
The recollectable remaining time T is obtained from the performance information holding period and the collection failure time.
The management apparatus according to claim 1 or 2. A program executed by a management device that collects and manages performance information of a plurality of network configuration devices at a predetermined cycle,
In the processor of the management device,
Priority is calculated based on at least one of the following parameters: packet lost rate of response regarding performance information of the network configuration device, ratio of the number of collected performance information items to the total number of collected items, and the remaining recollectable time And
Set the priority for re-collecting performance information according to the calculated priority.
A program that executes the performance information collection process.

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