JP7061636B2 - Operating equipment and programs - Google Patents

Description

The present invention relates to a technique for updating software of a radio base station.

In recent years, as the number of radio base stations has increased, failures such as power outages and wave outages of radio base stations have also increased, and the burden of maintaining and managing base stations has increased. For example, in a wireless communication network system such as an LTE (Long Term Evolution) system, a network administrator uses an operating device to maintain and operate each wireless base station constituting the system (see Patent Document 1). ).

Japanese Unexamined Patent Publication No. 2010-41260

Currently, when it becomes necessary to update the software of each radio base station, the network administrator must manually update the software of all the radio base stations installed in the system using the operation device. There was a big burden.

The present invention has been made in view of the circumstances described above, and one of the objects of the present invention is to provide a technique capable of updating software of a radio base station more efficiently than in the past.

The operation device according to one embodiment of the present disclosure is an operation device that executes the software update work stored in each radio base station by dividing it into a plurality of batches, and is a timer for each batch of the software update work. The gist is to have a reception unit that accepts settings and an execution unit that executes software update work for each batch according to the timer settings.

The program according to another embodiment of the present disclosure is a program executed by a computer that executes the software update work stored in each radio base station by dividing it into a plurality of batches, and updates the software on the computer. The gist of the work is to function as a reception unit that accepts timer settings for each batch and an execution unit that executes software update work for each batch according to the timer settings.

According to the present invention, it is possible to update the software of a radio base station more efficiently than in the past.

It is a figure which shows the schematic structure of the wireless communication system which concerns on this embodiment. It is a block diagram which shows the functional structure of an operation apparatus. It is a figure which showed typically the flow of each work executed by the operation apparatus. It is a figure which exemplifies the registration contents of the selection condition list. It is a flowchart which shows the software update procedure.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the following description, the same elements are designated by the same reference numerals, and duplicate description will be omitted.

A. This embodiment A-1. Configuration FIG. 1 is a diagram showing a schematic configuration of a wireless communication system 1000 according to the present embodiment.
The wireless communication system 1000 maintains and manages a large number of wireless base stations 100-1 to 100-N (N is a natural number of 2 or more) and software executed by each wireless base station 100-1 to 100-N. The operation device 200 for the purpose is provided. A large number of radio base stations 100-1 to 100-N and the operating device 200 are connected to each other so as to be able to communicate with each other via a communication network NW such as a mobile communication network or the Internet.

In the following description, each radio base station 100-1 to 100-N is simply referred to as a radio base station 100 when it is not necessary to distinguish them. Further, it is assumed that the operation device 200 is composed of, for example, a server computer having high computing power, but the computer does not necessarily have to be one, and is composed of a plurality of computers distributed on the communication network NW. You may.

[Wireless base station 100]
Each radio base station 100 has a management function for storing and managing software updated by the operating device 200, a function for executing the stored software, and the like, and provides various communication services to users in the area.

[Operation device 200]
The operation device 200 is a device that executes software update work and the like stored in each radio base station 100, and is a processor such as a CPU (Central Processing Unit), a ROM (Read Only Memory), and a RAM (Random Access Memory). It is equipped with a storage device such as, various communication IFs (Interface), an input device such as an operation button, and an output device such as a display.

FIG. 2 is a block diagram showing a functional configuration of the operation device 200.
The operation device 200 functions as a reception unit 210, an update work execution unit 220, a monitoring work execution unit 230, and a selection unit 240 by the processor executing various programs stored in the storage device.

The reception unit 210 accepts the timer setting for each batch for the software update work, and also receives the timer setting for the monitoring work of each radio base station 100. The network administrator uses an input device (for example, an operation button or a mouse) of the operation device 200 to set the start time of software update work and monitoring work of each wireless base station 100 (for example, from 1:00 AM). Set the representing timer. Instead of setting a specific time, for example, the next batch processing may be started after a predetermined time has elapsed (for example, one hour has passed) after the previous batch processing was completed. good.

FIG. 3 is a diagram schematically showing the flow of each work executed by the operation device 200.
In the example shown in FIG. 3, prior status confirmation work C1 for confirming the status (communication status, etc.) of each radio base station 100 is performed before software update work U1 for M (M is a natural number of 2 or more) batch. After the software update work U1 for M batches, the post-status confirmation work C2 for confirming the status (communication status, etc.) of each radio base station 100 is performed. Although not shown, the status of each wireless base station 100 is monitored after the software is updated for each batch, and when a failure is detected, the failure is automatically recovered. It also has a troubleshooting function.

Further, in parallel with the software update work U1, the monitoring work of each radio base station 100 is performed. The monitoring work includes a constant alarm monitoring work M1 and a KPI monitoring work M2. The constant alarm monitoring work M1 is a work of monitoring whether or not the number of alarm occurrences in each radio base station 100 exceeds a set threshold value. The KPI monitoring work M2 compares the updated KPI (Key Performance Indicator) value with the set reference data for the radio base station 100 for which the software has been updated, and determines whether or not deterioration of the KPI is observed. It is a work to monitor such things.

The update work execution unit (execution unit) 220 performs software update work U1 for each batch according to the timer setting T1, and also performs pre-status confirmation work C1 and post-status confirmation work C2. In the example shown in FIG. 3, a case where software update work is performed in the order of 1st batch → 2nd batch → ... → Mth batch (final batchth) according to the timer setting T1 is illustrated. However, this is not the only purpose. By changing the timer setting, the order of batches to be processed may be changed.

As described above, in the present embodiment, the software update work is automatically executed in batch units according to the timer setting. Therefore, it is possible to efficiently proceed with the software update work as compared with the conventional method in which the software is manually updated.

The monitoring work execution unit (monitoring unit) 230 performs monitoring work for each radio base station 100 according to the timer setting T1. Taking FIG. 3 as an example, the monitoring work execution unit 230 executes the alarm constant monitoring work M1 and the KPI monitoring work M2 according to the timer setting T1.

For example, in the KPI monitoring work M2, the monitoring work execution unit 230 displays an alarm on the display panel (not shown) when deterioration of the KPI value is recognized. Then, when the number of alarm occurrences exceeds the set threshold value, automatic troubleshooting is executed for the radio base station 100 that exceeds the threshold value.

Further, the monitoring work execution unit 230 forcibly stops the software update work when the set emergency stop condition is met. As an example of the emergency stop condition to be set, for example, when the number of alarms generated in each radio base station 100 exceeds the set threshold value, or when the cumulative number of station interruptions exceeds the set threshold value, a large scale is used. The case where a communication failure is found can be mentioned, but the purpose is not limited to this.

The selection unit 240 refers to the selection condition list L1 and automatically selects a plurality of radio base stations (hereinafter, also referred to as “work target stations”) 100 to be processed in each batch.

FIG. 4 is a diagram illustrating the registered contents of the selection condition list L1.
Various information (communication service impact information) necessary for selecting the work target station 100 of each batch is registered in the selection condition list L1. The communication service influence information is information for determining the magnitude of the influence on the communication service by each radio base station 100 due to the software update work.

Communication service impact information includes the number of users in the area for each wireless base station 100, installation location (for example, the relationship with the address and adjacent wireless base station 100), traffic volume (for example, traffic trend, etc.), and base station. Includes characteristics (eg, whether it is a wireless base station (important station) that plays a major role in a big city), whether or not a failure has occurred, software version, progress of other work other than software update work, etc. ing. The selection unit 240 acquires the latest communication service impact information from an external server (not shown) at a predetermined timing, and updates the selection condition list L1.

The selection unit 240 sequentially selects 100 work target stations (for example, 50 stations) from the first batch to the M batch by using the latest communication service impact information registered in the selection condition list L1. To go. To explain by giving an example, the selection unit 240 selects the work target station 100 of each batch so as to minimize the influence on the communication service due to the software update work while referring to the selection condition list L1. go. Regarding the characteristics of base stations, for example, a method of selecting work target stations 100 so that important stations in urban areas do not concentrate on a specific batch can be considered, but of course, the purpose is not limited to this.

As described above, in the present embodiment, the work target station 100 for each batch is automatically selected while considering the magnitude of the influence on the communication service due to the software update work. Therefore, even if some trouble occurs during the software update work and the work must be interrupted, it is possible to avoid the influence on the communication service (communication failure or the like).

Hereinafter, the procedure for updating the software of each radio base station 100 by the operating device 200 will be described with reference to the drawings.

A-2. motion
[Software update work]
FIG. 5 is a flowchart showing a software update procedure.
First, the reception unit 210 accepts timer settings for each operation (step S1). After that, when the reception unit 210 receives the execution instruction of the software update work by the network administrator (step S2), the selection unit 240 receives the communication service impact information registered in the selection condition list L1 for each batch. The work target station 100 is automatically selected (step S3). The update work execution unit 220 performs software update work U1 according to the timer setting, performs pre-status confirmation work C1 and post-status confirmation work C2 (step S4), and then ends the process. The monitoring work of each radio base station 100 is performed in parallel with the software update work, but this point is omitted because it has already been described.

B. Others The present invention is not limited to the above-described embodiment, and can be carried out in various other forms without departing from the gist of the present invention. For this reason, the above embodiments are merely examples in all respects and are not to be construed in a limited manner. For example, the above-mentioned processing steps can be arbitrarily changed in order or executed in parallel within a range that does not cause a contradiction in the processing contents.

Further, in the present specification, the "part" does not simply mean a physical configuration, but also includes a case where the processing executed by the "part" is realized by software. Further, even if the processing executed by one "part" is realized by two or more physical configurations or devices, the processing executed by two or more "parts" is realized by one physical means or device. May be good.

The program that carries out each process described in the present specification may be stored in a recording medium. By using this recording medium, the above program can be installed on the computer constituting the operation device 200. Here, the recording medium in which the above program is stored may be a non-transient recording medium. The non-transient recording medium is not particularly limited, but may be, for example, a recording medium such as a CD-ROM.

1000 ... wireless communication system, 100 ... wireless base station, 200 ... operation device, 210 ... reception unit, 220 ... update work execution unit, 230 ... monitoring work execution unit, 240 ... selection unit, L1 ... selection condition list

Claims (5)

It is an operation device that executes the software update work stored in each wireless base station by dividing it into multiple batches.
For the software update work, a reception unit that accepts the first timer setting for each batch and also receives the second timer setting for the monitoring work of each radio base station.
An execution unit that executes the software update work for each batch according to the first timer setting.
A monitoring unit that executes monitoring work for each radio base station in parallel with software update work according to the second timer setting.
Based on the communication service impact information for determining the magnitude of the impact of each wireless base station on the communication service due to the software update work, a plurality of wireless base stations to be processed in each batch are automatically selected. It is equipped with a selection unit and
The monitoring unit
For the wireless base station where the software update work has been performed, the KPI value after the update work and the number of alarm occurrences in each wireless base station are monitored, and when deterioration of the KPI value is observed, a display panel is used. When the number of alarms displayed in is exceeded the set threshold value, an operation device that automatically performs troubleshooting for the radio base station that exceeds the threshold value . The selection unit
The operation device according to claim 1, wherein a plurality of radio base stations to be processed in each batch are automatically selected so that important stations in an urban area do not concentrate on a specific batch. The communication service impact information includes at least one or more of the number of users in the area of each radio base station, the installation location of each radio base station, and the traffic volume of each radio base station. 2. The operation device according to 2. The monitoring unit
The operation device according to claim 1 , which monitors whether or not the set emergency stop condition is met, and if it is determined that the emergency stop condition is met, the software update work is forcibly stopped. A program executed by a computer that executes software update work stored in each wireless base station in multiple batches.
The computer
For the software update work, a reception unit that accepts the first timer setting for each batch and also receives the second timer setting for the monitoring work of each radio base station.
An execution unit that executes the software update work for each batch according to the first timer setting.
A monitoring unit that executes monitoring work for each radio base station in parallel with software update work according to the second timer setting.
Based on the communication service impact information for determining the magnitude of the impact of each wireless base station on the communication service due to the software update work, a plurality of wireless base stations to be processed in each batch are automatically selected. To function as a selection unit
The monitoring unit
For the wireless base station where the software update work has been performed, the KPI value after the update work and the number of alarm occurrences in each wireless base station are monitored, and when deterioration of the KPI value is observed, a display panel is used. When the number of alarms displayed in is exceeded the set threshold, a program that automatically troubleshoots the wireless base station that exceeds the threshold .

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