KR102365495B1 - Apparatus and method for managing automatic meter reading network - Google Patents

Abstract

The present invention relates to a network management apparatus and method for monitoring a remote meter reading network composed of a large number of communication devices and performing fault monitoring. To this end, the network management device for managing the remote meter reading network for the remote meter reading system according to the present invention receives a list of modems included in the remote meter reading system, communicates with data concentrators included in the remote meter reading system, and provides data an information collecting unit that collects modem information on a modem belonging to each of the concentrators and a modem higher than each modem; and a modem hierarchy diagram for modems connected to each data concentrator based on the modem information, and a modem omission is determined for each data concentrator based on the modem hierarchy diagram and the list of modems included in the remote meter reading system. It is characterized in that it includes a determination unit.

Description

Remote meter reading network management device and method {APPARATUS AND METHOD FOR MANAGING AUTOMATIC METER READING NETWORK}

The present invention relates to a network management apparatus and method, and more particularly, to a network management apparatus and method for monitoring a remote meter reading network composed of a large amount of communication equipment and performing fault monitoring.

Recently, research on a remote meter reading system that can remotely meter the usage of various meters installed in consumers who consume energy, such as electricity, gas, water, hot water, and heat, is being conducted. To this end, the remote meter reading system consists of a remote meter reading server, an upper electronic watt-hour meter, a meter reading data concentrator (DCU) for collecting customer-side meter reading data, a modem and a gateway between the instrument and the concentrator, and the like, and the configuration They transmit and receive data through communication through the network.

Here, a data concentrator (DCU) that collects meter reading data from meters installed in the consumer is particularly important. Accordingly, in the related art, it is periodically checked whether such a data concentrator operates normally. Here, the inspection of the data concentrator (DCU) mainly determines whether the data concentrator (DCU) is normal through a command such as ping and a remote meter reading command.

For example, conventionally, a test is performed using ping or the like, and if the ping is normal, it is determined that there is no abnormality in communication to the data concentrator. Also, in the related art, there is a method of determining a failure based on whether remote meter reading information collected every 15 minutes or 1 hour is received for connection information between the data concentrator and the communication modem on the meter side.

However, according to the conventional method, when a communication connection with the data concentrator (DCU) is not established, it is difficult to determine whether the rental network is a disability or the data concentrator (DCU) is disabled. Similarly, when remote meter reading information is not received, it is difficult to determine whether the data concentrator (DCU) and the communication modem are disabled or the meter is disabled.

Korea Patent Publication No. 2012-0068283 (Title: Remote meter reading system and management method)

It is an object of the present invention to provide a network management apparatus and method capable of effectively monitoring and processing a large number of network devices in a remote meter reading system.

In order to solve the above problems, a network management apparatus for managing a remote meter reading network for a remote meter reading system according to the present invention receives a list of modems included in the remote meter reading system, and includes data concentrators and data concentrators included in the remote meter reading system an information collecting unit that collects modem information on a modem belonging to each of the data concentrators and an upper modem of each modem through the communication of the data concentrator; and a modem hierarchy diagram for modems connected to each data concentrator based on the modem information, and a modem omission is determined for each data concentrator based on the modem hierarchy diagram and the list of modems included in the remote meter reading system. It is characterized in that it includes a determination unit.

Also, when it is determined that the missing modem exists, the network management apparatus according to an embodiment of the present invention may further include a processing unit for adding modem information of the missing modem to the missing equipment list.

Also, the information collection unit may further collect performance information about the data concentrators.

In addition, the determination unit further determines whether there is a data concentrator for which performance information is not collected, the processing unit processes the data concentrator for which performance information is not collected as a failure state, and resets the data concentrator for which performance information is not collected. command can be sent.

In addition, the determination unit further determines whether the performance value included in the performance information is within a predetermined threshold range, the processing unit processes the data concentrator having the performance value out of the threshold range as a failure state, and the performance value is within the threshold range A reset command can be sent to a data concentrator that is out of bounds.

In addition, the information collection unit may further collect performance information about modems connected to each of the data concentrators.

Also, the determination unit may further determine whether there is a modem for which performance information is not collected.

In addition, if there is a modem for which performance information is not collected, the determination unit checks whether the data concentrator connected to the modem for which performance information is not collected is registered as a failure state, and for the modem for which the performance information is not collected, the previous cycle It can be further determined whether or not performance information has been collected.

In addition, the processing unit may process a modem for which performance information is not collected even in the previous cycle as a failure state, and transmit a reset command to the modem for which performance information is not collected.

In addition, the determination unit may further determine whether the performance value included in the performance information exists in a preset threshold range.

Also, when there is a modem having a performance value out of the threshold range, the determination unit may further determine whether performance information is not collected in a previous period for a modem having a performance value out of the threshold range.

In addition, the processor may process a modem whose performance value is out of a critical range, for which performance information is not collected in a previous period, as a failure state, and transmit a reset command to the modem for which performance information is not collected.

According to an aspect of the present invention, there is provided a network management method for managing a remote meter reading network for a remote meter reading system, comprising: receiving, by an information collecting unit, a list of modems included in the remote meter reading system; collecting, by the information collecting unit, modem information on a modem belonging to each of the data concentrators and an upper modem of each modem through communication with the data concentrators included in the remote meter reading system; generating, by the determination unit, a modem hierarchy diagram for modems connected to each data concentrator based on the modem information; and determining, by the determination unit, whether or not a modem is omitted for each data concentrator based on a list of modems included in the remote meter reading system and a modem hierarchical diagram.

In addition, the network management method according to an embodiment of the present invention may further include adding, by the processing unit, modem information of the missing modem to the missing device list when it is determined that the missing modem exists. .

In addition, the network management method according to an embodiment of the present invention may further include, by the information collecting unit, collecting performance information on the data concentrators.

In addition, a network management method according to an embodiment of the present invention includes, by a determining unit, determining whether there is a data concentrator for which performance information is not collected; and processing, by the processing unit, the data concentrator for which the performance information is not collected as a failure state, and transmits a reset command to the data concentrator for which the performance information is not collected.

In addition, a network management method according to an embodiment of the present invention includes, by a determining unit, determining whether a performance value included in performance information exists in a preset threshold range; and processing, by the processing unit, the data concentrator having the performance value out of the threshold range as a failure state, and transmitting a reset command to the data concentrator having the performance value out of the threshold range.

In addition, the network management method according to an embodiment of the present invention may further include, by the information collecting unit, collecting performance information on modems connected to each of the data concentrators.

In addition, a network management method according to an embodiment of the present invention includes, by a determining unit, determining whether there is a modem for which performance information is not collected; if there is a modem for which performance information is not collected, checking whether a data concentrator connected to the modem for which performance information is not collected is registered as a failure state through a determination unit; and determining, by the determination unit, whether performance information is not collected even in a previous period with respect to the modem for which performance information is not collected.

In addition, a network management method according to an embodiment of the present invention includes, by a determining unit, determining whether a performance value included in performance information exists in a preset threshold range; and if there is a modem having a performance value out of the threshold range, determining whether performance information is not collected in a previous period for a modem having a performance value out of the threshold range through the determination unit.

According to the apparatus and method for managing a remote meter reading network of the present invention, it is possible to perform monitoring and failure monitoring for a large number of communication devices in a remote meter reading system.

In addition, the present invention can determine the failure of the upper device when a communication failure of the data concentrator or modem occurs in large quantities at one time, and can be replaced with a representative failure, thereby minimizing the notification delivered to the administrator in case of failure. can do.

In addition, the present invention can minimize the notification delivered to the administrator because it is not determined as a failure when the remote meter reading is normally performed for contents such as communication failure of the modem, which occurs frequently in an instant.

1 is a block diagram of a remote meter reading system according to an embodiment of the present invention.
2 is a block diagram of a network management apparatus according to an embodiment of the present invention.
3 and 4 are conceptual diagrams for explaining a method of generating a modem hierarchical diagram according to an embodiment of the present invention.
5 is a flowchart of a network management method according to an embodiment of the present invention.
6 is a flowchart of a method of determining whether missing equipment is present according to an embodiment of the present invention.
7 is a flowchart of a method of determining whether a gateway failure and a communication modem failure are present according to an embodiment of the present invention.
8 is a flowchart of a method of determining whether a data concentrator has a failure according to an embodiment of the present invention.
9 and 10 are flowcharts of a method of determining whether a modem has failed according to an embodiment of the present invention.

The present invention will be described in detail with reference to the accompanying drawings as follows. Here, repeated descriptions, well-known functions that may unnecessarily obscure the gist of the present invention, and detailed descriptions of configurations will be omitted. The embodiments of the present invention are provided in order to more completely explain the present invention to those of ordinary skill in the art. Accordingly, the shapes and sizes of elements in the drawings may be exaggerated for clearer description.

Hereinafter, a network management apparatus and method according to an embodiment of the present invention will be described.

1 is a block diagram of a remote meter reading system 1000 according to an embodiment of the present invention. As described above, the remote meter reading system 1000 includes a remote meter reading server 10, a plurality of gateways 21 and 22, a network 30, a plurality of cable modems 41 and 42, and a plurality of data concentrators ( 51 and 52), a plurality of modems 61 to 64, and a plurality of meters 71 to 75 may be configured. Here, the number of each component is shown as an arbitrary number to help the understanding of the present invention, it should be understood that there are actually a larger number of components.

The remote meter reading server 100 performs a function of reading the electricity consumption of each customer in a preset time unit and storing the meter. Here, the preset time unit may be set in various time units, such as, for example, 15 minutes, 30 minutes, and 1 hour.

In addition, the plurality of gateways 21 and 22, the network 30 and the plurality of cable modems 41 and 42 perform communication between the remote meter reading server 10 and the data concentrators 51 and 52, and in the following. It functions to perform communication between the network management apparatus 100 and the data concentrators 51 and 52 according to an embodiment of the present invention to be described. Here, these communication devices correspond to the above-mentioned rental network.

The data concentrators 51 and 52 function to manage the modems 61 to 64 and the meters 71 to 75 , and transmit the meter reading data for each customer measured from the meters 71 to 75 to the remote meter reading server 10 . It also performs the sending function. Here, the modems 61 to 64 function to support communication between the meters 71 to 75 and the data concentrators 51 and 52 .

That is, as shown in the figure, a plurality of modems may be connected to one data concentrator, and a plurality of meters may be connected to each modem. That is, when a failure occurs in one modem, the remote meter reading system 1000 cannot collect only data about the modem, but when a failure occurs in a higher-level device, for example, a data concentrator, the failure occurs in only one data concentrator. It is necessary to check whether or not a failure occurs in the data concentrator and the modems connected to it as well.

Accordingly, the purpose of the network management apparatus 100 according to an embodiment of the present invention is to perform the above-described performance monitoring, failure monitoring, and processing functions for the remote meter reading network.

2 is a block diagram of a network management apparatus 100 according to an embodiment of the present invention. The network management apparatus 100 according to an embodiment of the present invention may include an information collection unit 110 , a determination unit 120 , and a processing unit 130 . Hereinafter, a description of the network management apparatus 100 according to an embodiment of the present invention is made.

The information collection unit 110 is connected to the remote meter reading server 10 and a plurality of data concentrators 51 and 52 through communication to collect system information. For example, the information collection unit 110 may receive meter reading data from the remote meter reading server 10 every preset time period and receive a list of facilities installed for remote meter reading.

In addition, the information collection unit 110 is connected to the performance information for each of the data concentrators 51 and 52, and each of the data concentrators 51 and 52 through communication with the plurality of data concentrators 51 and 52. It is possible to receive modem information, modem information about an upper modem of each modem, and performance information for each modem. Here, the performance information may include ping and bit per symbol (BPS).

Also, the information collection unit 110 may receive various events occurring in the plurality of data concentrators 51 and 52 and the modem in the form of trap messages.

The determination unit 120 functions to generate a modem hierarchy diagram based on modem information about a modem belonging to each of the data concentrators and an upper modem of each modem among the system information collected through the information collection unit 110 . . A method of generating a modem hierarchical diagram will be described with reference to FIGS. 3 and 4 below.

As shown in FIG. 3 , the modem information may include MAC address information for each modem. In this example, it is assumed that the number of modems is 6, and that the highest modem is a modem whose last MAC addresses are 0A and 0E. In addition, it is assumed that the lower modems of the modem whose MAC address is 0A are 0B, 0C, and 0D modems, and that the lower modems of the modem whose address is 0E are 0F modems.

In this case, as shown in FIG. 4 , the determination unit 120 may generate a modem hierarchical structure diagram by using the address of the modems and upper modem information of each modem. Again, refer to FIG. 2 .

After generating the modem hierarchical diagram in this way, the determination unit 120 may determine whether or not a modem is omitted for each data concentrator based on the generated modem hierarchical diagram. That is, the determination unit 120 determines whether a missing modem exists by comparing the list of facilities received through communication with the remote meter reading server 10, that is, the list of modems, with the previously generated modem hierarchy diagram. can do. Here, when there is a missing modem, communication between the data concentrator and the network management apparatus 100 of the present invention is normally performed, but it may be determined that a failure occurs in a specific modem. Conversely, even when a modem exists in the modem hierarchical diagram, but information about the corresponding modem exists in the modem list, the present invention can perform the processing.

When it is determined that the missing modem exists through the determination unit 120 above, the processing unit 130 functions to add modem information of the missing modem, for example, MAC information, to the missing equipment list. Accordingly, in the future, for example, the manager may add missing equipment through a batch inquiry, or plan to check a faulty modem.

In addition, the information collection unit 110 may perform a ping test on all data concentrators 51 and 52 included in the remote meter reading system 1000 and collect performance information of uplink and downlink communication links. there is. In addition, the information collection unit 110 may also collect performance information on the modems connected to each of the data concentrators 51 and 52 .

When the ping test result for the data concentrator is normal, the determination unit 120 may transmit and store the ping performance to a storage unit (not shown). Conversely, when it is determined that an abnormal data concentrator exists as a result of the ping test, the determination unit 120 determines that the data concentrator is in a ping failure state and transmits the corresponding failure information to the processing unit 130 .

In addition, when all performance information is normally collected, the determination unit 120 may transmit and store performance information on the uplink and downlink of each data concentrator 51 and 52 to a storage unit (not shown). Conversely, as a result of the determination by the determination unit 120 , if there is a data concentrator for which performance information is not collected, the data concentrator is determined as a performance information non-collection failure state, and the corresponding failure information is sent to the processing unit 130 . can transmit

Also, the determination unit 120 may further determine whether a performance value included in the performance information is within a preset threshold range with respect to the data concentrator for which performance information is normally collected. Here, if there is a data concentrator whose performance value is out of the preset threshold range, the determination unit 120 determines the data concentrator as a performance threshold failure state, and transmits the failure information to the processing unit 130 . there is.

Also, the determination unit 120 may further perform a determination process using the performance information of the modem in addition to the determination using the performance information of the data concentrator described above. That is, the determination unit 120 may determine the failure state of the modem performance information non-collection based on whether the performance information of the modem is collected, and may determine the failure state of the performance threshold value of the modem based on the performance value of the modem. can

When there is a data concentrator for which performance information is not collected, that is, when there is a data concentrator determined to be a failure state in which performance information is not collected, the processing unit 130 notifies the manager of the failure and resets the data concentrator. command can be sent.

In addition, when there is a data concentrator whose performance value is out of the threshold range, that is, when there is a data concentrator determined to be a performance threshold failure state, the processing unit 130 notifies the manager of the failure state, and the corresponding data concentration A reset command can be sent to the device. Accordingly, when a failure occurs in the data concentrator, the processing unit 130 notifies the manager of this to remind him of this, and also attempts to recover from the failure through a reset command.

In addition, if there is a modem for which performance information is not collected, the processing unit 130 further determines whether the upper data concentrator is faulty registered through the determination unit 120 . As mentioned above, when a communication failure occurs in the modem, it is necessary to check whether the problem is in the modem or in the data concentrator above the modem. Accordingly, the processing unit 130 performs additional determination through the determination unit 120 , and when a failure is registered with respect to the upper data collection device, it does not notify the manager of whether a failure has occurred in the modem. Conversely, if a failure is not registered with the upper data collection device, it is further checked whether performance information or remote meter reading information has not been collected even in the previous cycle. Here, when it is further checked whether the performance information or the remote meter reading information has not been collected even in the previous period, the processing unit 130 notifies the manager of the performance non-collection failure state of the modem, and transmits a reset command to the modem. Conversely, when performance information or remote meter reading information is collected in the previous cycle, a reset command is sent to the modem without notifying the administrator of the fault condition.

Through the above-described process, the processing unit 130 according to an embodiment of the present invention can minimize the amount of notification messages notified to the manager. That is, according to the present invention, when a failure occurs, failure recovery is attempted through a basic reset command, and only problems for which failure recovery is not performed are notified to the administrator.

In addition, if there is a modem whose performance value exceeds a preset threshold range, the processing unit 130 further determines whether performance information or remote meter reading information of the corresponding modem has been collected in a previous period. Here, when the performance information or remote meter reading information of the corresponding modem is collected in the previous period, the processing unit 130 transmits a reset command to the corresponding modem without notifying a separate failure. If not, it notifies the administrator of the fault condition and sends a reset command to the modem.

5 is a flowchart of a network management method according to an embodiment of the present invention. Hereinafter, a network management method according to an embodiment of the present invention will be further described with reference to FIG. 5 . In the following description, the description is made by omitting the items overlapping with those described above.

First, the step (S110) of collecting system information by the information collecting unit is performed. Specifically, step S110 may include receiving meter reading data in association with each preset time period and receiving a list of facilities installed for remote meter reading. In addition, in step S110, through communication with a plurality of data concentrators, performance information for each data concentrator, and a modem connected to each data concentrator, modem information for an upper modem of each modem, and for each modem and receiving performance information.

Thereafter, a step (S120) of determining whether a failure has occurred based on the system information by the determination unit is performed. Specifically, step S120 determines whether the missing modem exists, whether the data concentrator has a ping failure, whether the data concentrator fails to collect performance information, whether or not the performance threshold of the data concentrator fails, and whether the modem's performance information fails to collect. , and it is possible to determine whether the performance threshold of the modem has failed.

After that, when a failure occurs, a step (S130) of performing a process for the failure is performed. Specifically, when a failure is detected in step S120, step S130 represents a process of performing failure processing according to the type of failure detected in step S120.

Hereinafter, an example of detecting a failure through a network management method according to an embodiment of the present invention and performing a process therefor will be further described with reference to FIGS. 6 to 10 .

6 is a flowchart of a method for determining whether missing equipment is present according to an embodiment of the present invention. Hereinafter, with reference to FIG. 6, a description will be made of a method of determining whether missing equipment according to an embodiment of the present invention.

First, a step (S210) of collecting modem information on a modem belonging to each data concentrator and an upper modem of each modem is performed by the information collecting unit. Also, in step S210, a list of facilities installed for remote meter reading may be received through communication with the remote meter reading server. Here, the facility may include, for example, various equipment such as a data concentrator and a modem.

Thereafter, a step (S220) of generating a modem hierarchy diagram for modems connected to each data concentrator based on the modem information is performed by the determination unit. The modem hierarchy diagram may be generated based on modem information about each modem and an upper modem of each modem, for example, a modem MAC address. Here, since the description of the method of generating the modem hierarchical diagram has been described in detail with reference to FIGS. 3 and 4 above, an additional description thereof will be omitted.

Thereafter, a step (S230) of determining whether a missing modem exists by comparing the list information of facilities received from the remote meter reading server and the modem hierarchy diagram is performed. Here, the missing modem may include a modem that is not recognized due to a communication failure, or a modem included in a list of equipment transmitted from a remote meter reading facility. If it is determined in step S230 that the missing modem exists, control is transferred to step S240. If not, the control is transferred to step S210 to re-perform the above-described process.

Step S240 is a step performed by the processing unit, and a process of adding modem information of the missing modem, for example, MAC information, to the missing equipment list is performed. Accordingly, in the future, for example, the manager may add missing equipment through a batch inquiry, or plan to check a faulty modem.

7 is a flowchart illustrating a method of determining whether a gateway failure and a communication modem failure are present according to an embodiment of the present invention. Hereinafter, with reference to FIG. 7, a description will be made of a method for determining whether a gateway failure and a communication modem failure according to an embodiment of the present invention.

First, a step (S310) of confirming the connection state with the data concentrator is performed. Here, the connection state check may be performed through, for example, a ping test and collection of uplink and downlink performance information.

Here, if it is determined that there is a failure as a result of checking through step S310, control is transferred to step S330. If not, control is transferred to step S310 and the above-described process is performed again.

Thereafter, steps S340 and S350 of checking whether the faulty location is a gateway of an external network or a leased network communication modem connected to the gateway are performed. Here, when a failure occurs in the gateway, control is transferred to step S350 to notify the manager that a failure has occurred in the gateway, and if it is determined that a failure has occurred in the leased network communication modem, control is transferred to step S360, indicating that a failure has occurred in the communication modem Notify the manager. In addition, as a result of the determination in steps S330 and S340, when no failure is detected in both the gateway and the leased network communication modem, control is transferred to step S370.

Step S370 is a step in which it is determined that a failure has occurred in the data concentrator and notifies the manager.

8 is a flowchart of a method of determining whether a data concentrator has a failure according to an embodiment of the present invention. Hereinafter, a method of determining whether a data concentrator has a failure according to an embodiment of the present invention will be further described with reference to FIG. 8 .

First, a step ( S410 ) of collecting performance information of the data concentrator through communication with the data concentrator is performed by the information collecting unit. Here, the performance information may include bits per symbol (BPS) of uplink and downlink.

Thereafter, a step (S420) of determining whether there is a data concentrator for which performance information is not collected is performed by the determination unit. As a result of the determination in step S420, if there is a data concentrator for which performance information is not collected, the data concentrator is determined to be in a faulty state, and control is transferred to step S440. Otherwise, control passes to step S430.

Step S430 is a step of determining whether there is a data concentrator whose performance value is out of a critical range. As a result of the determination in step S430, if there is a data concentrator whose performance value is out of the critical range, the data concentrator is determined to be in a faulty state, and control is transferred to step S440. Otherwise, control is passed to the return block to re-perform the above process.

Step S440 is a step of transmitting a reset command to the corresponding data concentrator. Accordingly, basic failover measures may be performed by resetting the data concentrator. In addition, the step S440 may further include the step of notifying the manager of the performance information non-collection failure state or the performance threshold failure state of the data concentrator.

9 and 10 are flowcharts of a method of determining whether a modem has failed according to an embodiment of the present invention.

First, a step ( S510 ) of collecting performance information of each modem connected to the data concentrator is performed.

After that, a step ( S520 ) of determining whether there is a modem for which performance information is not collected is performed. As a result of the determination in step S520, if there is a modem for which performance information is not collected, control is transferred to step S530. Otherwise, control passes to block A.

Step S530 is a step of checking whether the upper data concentrator is registered as a failure state. Accordingly, in the network management method according to an embodiment of the present invention, failures of the data concentrator and the modem connected to the data concentrator may be separately identified. As a result of checking in step S530, if the upper data concentrator is registered as being in a faulty state, control is transferred to step S540. If not, control is transferred to step S560, and the failure state is not separately notified to the manager.

Step S540 is a step of confirming whether performance information has not been collected even in the previous cycle. Here, the previous period refers to the immediately preceding period or all during a preset number of periods. As a result of the check in step S540, if it is confirmed that the performance information has not been collected before, it is determined that there is an abnormality in the corresponding modem. In this case, the control is transferred to step S550 to notify the manager of the corresponding failure, that is, the non-collection failure.

Thereafter, a step (S570) of sending a reset command to the modem is performed, whereby basic failover measures are taken. Reference is now made to FIG. 10 .

If there is no modem for which the performance information is not collected above, for the modems for which the performance information is collected, a step (S610) of checking whether a modem whose performance value is out of a critical range exists is performed. As a result of checking in step S610, if there is a modem whose performance value is out of the threshold range, control is transferred to step S620. Otherwise, it is assumed that all modems are currently in a normal state, and control is passed to the return block.

Step S620 is a step of determining whether performance information has not been collected in the previous cycle. If it is determined that the performance information has not been collected even in the previous period, the control is transferred to step S630 to notify the manager that the threshold value failure state is present. Otherwise, control is transferred to step S640, and control is transferred to step S650 without notifying the manager.

Step S650 is a step of transmitting a reset command to the modem. Accordingly, basic failover is taken.

As described above, the best embodiment has been disclosed in the drawings and the specification. Although specific terms have been used herein, they are only used for the purpose of describing the present invention and are not used to limit the meaning or the scope of the present invention described in the claims. Therefore, it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible therefrom. Accordingly, the true technical protection scope of the present invention should be defined by the technical spirit of the appended claims.

100: network management device 110: information collection unit
120: judgment unit 130: processing unit

Claims (20)

A network management device for managing a remote metering network for a remote metering system, comprising:
Receives a list of modems included in the remote metering system, and through communication with data concentrators included in the remote metering system, modem information on a modem belonging to each of the data concentrators and an upper modem of each modem information collection unit to collect; and
A modem hierarchy diagram is generated for modems connected to each data concentrator based on the modem information, and whether modems are omitted for each data concentrator based on the modem hierarchy diagram and a list of modems included in the remote meter reading system Network management apparatus comprising a determination unit for determining the. According to claim 1,
When it is determined that the missing modem exists, the network management apparatus further comprising a processing unit for adding modem information of the missing modem to a list of missing devices. 3. The method of claim 2,
The information collection unit,
The network management device, characterized in that it further collects performance information on the data concentrators. 4. The method of claim 3,
The determination unit further determines whether there is a data concentrator for which performance information is not collected,
The processing unit processes the data concentrator for which the performance information is not collected as a failure state, and transmits a reset command to the data concentrator for which the performance information is not collected. 4. The method of claim 3,
The determination unit further determines whether the performance value included in the performance information exists in a preset threshold range,
wherein the processing unit treats the data concentrator whose performance value is out of the threshold range as a failure state, and transmits a reset command to the data concentrator whose performance value is out of the threshold range. 6. The method of claim 5,
The information collection unit,
and further collecting performance information on modems connected to each of the data concentrators. 7. The method of claim 6,
The determination unit, the network management apparatus, characterized in that further determining whether there is a modem for which performance information is not collected. 8. The method of claim 7,
The judging unit,
If there is a modem for which performance information is not collected, it is checked whether the data concentrator connected to the modem for which the performance information is not collected is registered as a failure state, and for the modem for which the performance information is not collected, performance information even in the previous cycle The network management device, characterized in that it further determines whether or not has been collected. 9. The method of claim 8,
wherein the processing unit processes a modem for which performance information is not collected even in a previous cycle as a failure state, and transmits a reset command to the modem for which the performance information is not collected. 7. The method of claim 6,
The determination unit further determines whether the performance value included in the performance information is within a preset threshold range, the network management apparatus. 11. The method of claim 10,
The judging unit,
If there is a modem having the performance value out of the threshold range, it is further determined whether performance information is not collected in a previous period for the modem having the performance value out of the threshold range. 12. The method of claim 11,
The processing unit, the performance value out of a critical range, processing the modem for which performance information was not collected in the previous period as a failure state, and transmitting a reset command to the modem for which the performance information is not collected, network management Device. A network management method for managing a remote meter reading network for a remote meter reading system, comprising:
receiving, by the information collection unit, a list of modems included in the remote meter reading system;
collecting, by the information collecting unit, modem information on a modem belonging to each of the data concentrators and an upper modem of each modem through communication with data concentrators included in the remote meter reading system;
generating, by the determination unit, a modem hierarchy diagram for modems connected to each data concentrator based on the modem information; and
and determining, by the determination unit, whether or not a modem is omitted for each data concentrator based on a list of modems included in the remote meter reading system and the modem hierarchy diagram. 14. The method of claim 13,
The method further comprising the step of adding, by the processing unit, modem information of the missing modem to a list of missing devices when it is determined that the missing modem exists. 15. The method of claim 14,
The method further comprising the step of collecting, by the information collecting unit, performance information on the data concentrators. 16. The method of claim 15,
determining, by the determination unit, whether there is a data concentrator for which performance information is not collected; and
Network management, further comprising, by the processing unit, processing the data concentrator for which performance information is not collected as a failure state, and transmitting a reset command to the data concentrator for which the performance information is not collected method. 16. The method of claim 15,
determining, by the determination unit, whether a performance value included in the performance information is within a preset threshold range; and
processing, by the processing unit, the data concentrator whose performance value is out of the threshold range as a failure state, and further comprising the step of sending a reset command to the data concentrator whose performance value is out of the threshold range How to do, network management. 14. The method of claim 13,
The method further comprising the step of collecting, by the information collecting unit, performance information on the modems connected to each of the data concentrators, the network management method. 19. The method of claim 18,
determining, by the determination unit, whether there is a modem for which performance information is not collected;
if there is a modem for which performance information is not collected, checking, through the determination unit, whether a data concentrator connected to the modem for which performance information is not collected is registered as a failure state; and
The method further comprising the step of determining, by the determination unit, whether the performance information is not collected even in a previous period for the modem for which the performance information has not been collected. 19. The method of claim 18,
determining, by the determination unit, whether a performance value included in the performance information is within a preset threshold range; and
If there is a modem having the performance value out of the threshold range, determining whether performance information has not been collected in a previous period with respect to the modem having the performance value out of the threshold range through the determination unit A network management method.

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