KR101588176B1 - Firmware upgrade system - Google Patents

Abstract

Disclosed is a firmware update system including a plurality of network devices. The network devices are operated by firmware of the same version. If power is supplied to the network devices and the network devices are activated, the network device accesses a server and checks whether firmware of a new version exists. If the firmware of a new version exists, the network device downloads the firmware of a new version and updates the firmware. The network device randomly determines a download initiation time point and starts to download the firmware of a new version from the determined time point.

Description

Firmware upgrade system [0002]

A technique for updating firmware of network devices such as an access point is disclosed.

In general, a network device such as an access point (AP) periodically or intermittently monitors the firmware status of the server to update the firmware of the device itself. Especially, in the case of a school or an office, the number of network devices managed by the server is very large, and most network devices operate with the same version of firmware. When a network administrator wants to update the firmware of a network device, many network devices simultaneously download the firmware from the server. Firmware sizes typically range from a few megabytes to a few tens of megabytes, and when hundreds or tens of thousands of devices try to download at the same time, the network can run into congestion and interfere with normal service.

Generally, in the case of university, the power supply of network equipment is cut off from the night to the next morning in order to prevent unnecessary network resource waste and power waste. At the same time, the operation is started by supplying power at the same time. At this time, if the update of the firmware of the server is monitored, it is downloaded simultaneously. That is, since a great number of network devices attempt to download simultaneously from the server, the network may reach a congested state and interfere with normal service as described above.

Korean Registered Utility Model No. 20-0297099 (issued on December 11, 2002)

A technical solution for preventing the congestion of network traffic when downloading firmware of network equipment is disclosed.

A firmware update system according to an aspect includes a server and a plurality of network devices. If the network device is operated with the same version of firmware and is activated and connected to the server to check whether a new version of the firmware exists, the new version of the firmware is downloaded and updated from the server. And starts downloading a new version of firmware from the determined point in time.

According to one aspect, a plurality of network devices are simultaneously powered and activated.

According to an aspect, a plurality of network devices randomly determine a download start time within a predetermined time from when a new version of firmware is confirmed.

According to an aspect, a plurality of network devices perform update of downloaded firmware when the wireless traffic is below a reference value.

Meanwhile, a network device that downloads the same version of firmware from the same server as other network devices according to an aspect of the present invention includes a firmware version checking unit for checking whether there is a new version of firmware by accessing a server, and a new version of firmware And a firmware update unit that updates the download start time at random and starts downloading a new version of the firmware from the determined point of time.

By distributing firmware updates of network devices within a certain time, network congestion and server overload can be prevented.

1 is a block diagram of a firmware update system in accordance with one embodiment.
2 is a block diagram of a network device according to one embodiment.
3 is a flowchart of a firmware update method according to an embodiment.

BRIEF DESCRIPTION OF THE DRAWINGS The foregoing and further aspects of the present invention will become more apparent from the following detailed description of preferred embodiments with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a firmware update system in accordance with one embodiment. As shown in FIG. 1, the firmware update system includes a server 100 and a plurality of network devices 200. The network device 200 may be an access point supporting the 802.11 ac standard. The network devices 200 are the same equipment installed in a large area such as a university or a research complex, and connect to the server 100 to download and operate the same version of firmware. In one embodiment, the network devices may be powered from and disconnected from the outside. Therefore, all the power is supplied at the same time, and it is activated.

The network devices 200 are connected to the server 100 to check whether a new version of the firmware exists when the network devices 200 are powered on and switched from the inactive state to the active state. As a result, when there is a new version of the firmware, the network devices 200 download the new version of the firmware from the server 100 and update the existing version of the firmware stored therein. According to an aspect, the network devices 200 randomly determine a start point of downloading, rather than immediately starting a download when there is a new version of the firmware. In one embodiment, the network devices 200 randomly determine a download start time within a predetermined time from when the new version of firmware is confirmed. When the download start time is determined, the network devices 200 download a new version of the firmware from the determined starting point. In addition, the network devices 200 perform firmware update at the latest when firmware download of a new version is completed, rather than immediately. In one embodiment, each of the network devices 200 can perform a firmware update when the radio traffic is below a reference value (e.g., 2000 Kbs). However, when there is an option to update the server 100 immediately, it can be updated immediately regardless of the traffic.

2 is a block diagram of a network device according to one embodiment. As shown in FIG. 2, the network device may include a communication unit 210, a storage unit 220, and a control unit 230. The communication unit 210 is a module for communication with the server 100. The communication unit 210 can support communication with a mobile terminal such as a smart phone as well as with the server 100, and the communication method with the server 100 and the mobile terminal is well known. The storage unit 220 is a memory in which firmware is recorded, and the memory may be a ROM, a PROM, or the like. The controller 230 reads and executes the firmware stored in the storage unit 220 to control the hardware of the apparatus. 2, the control unit 230 includes a firmware version checking unit 231 and a firmware updating unit 232. [ These configurations may be function modules constituting a part of the firmware. The firmware version checking unit 231 accesses the server 100 through the communication unit 210 to check whether there is a new version of firmware to be updated. In one embodiment, when the network device 200 is powered on and is in an inactive state, the firmware version checking unit 231 may immediately access the server 100 to check whether a new version of the firmware exists .

When it is determined that a new version of firmware exists, the firmware update unit 232 downloads the new version of the firmware from the server 100 through the communication unit 210 and updates the previous version of the firmware stored in the storage unit 220 do. According to an aspect, if the firmware update unit 232 determines that there is a new version of firmware, it does not start downloading immediately but randomly determines a download start time and starts downloading a new version of the firmware from the determined point. In one embodiment, the firmware update unit 232 randomly determines a download start time within a predetermined time from when it is confirmed that there is a new version of firmware. Here, within a predetermined time, it may be within one hour. In this case, even if there are new versions of firmware to be updated when a plurality of network devices 200 are powered and activated at the same time, the firmware updates are not concentrated at the same time, Overload is prevented.

On the other hand, the firmware update unit 232 updates the firmware at the latest when the download of the new version firmware is completed, rather than immediately. In one embodiment, the firmware update unit 232 may perform firmware update when the wireless traffic is 2000 Kbs or less. However, when there is an option to update the server 100 immediately, it can be updated immediately regardless of the traffic.

3 is a flowchart of a firmware update method according to an embodiment. The network device 200 is powered on and switches from the inactive state to the active state (S100). The network device 200 which has been switched to the active state accesses the server 100 to check whether there is a new version of the firmware (S200). If it is determined that there is a new version of the firmware, the network device 200 randomly determines the download start time within a predetermined time (e.g., one hour) (S300). The network device 200 requests downloading to the server 100 at a randomly determined time to download and update the new version of the firmware (S400). S400, the network device 200 does not immediately update the downloaded firmware but can update the wireless traffic when the wireless traffic is below the reference value.

The present invention has been described with reference to the preferred embodiments. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Therefore, the disclosed embodiments should be considered in an illustrative rather than a restrictive sense. The scope of the present invention is defined by the appended claims rather than by the foregoing description, and all differences within the scope of equivalents thereof should be construed as being included in the present invention.

100: server 200: network device
210: communication unit 220:
230: control unit 231: firmware version checking unit
232: Firmware update unit

Claims (7)

delete delete server; And is operated in the same version of firmware downloaded from the server and is operated to receive power from the outside at the same time to keep the operation for a predetermined time until power supply is simultaneously shut off A plurality of access points, each access point comprising:
A firmware version verifying unit for verifying whether a new version of firmware is present when the power is supplied to the server; And
And a firmware update unit for downloading the new version of firmware and updating the firmware if it is determined that the new version of firmware exists,
And the firmware update unit randomly determines the download start time within a predetermined time from when the firmware of the new version is confirmed.
The method of claim 3,
And the firmware update unit performs update of the downloaded firmware when the wireless traffic is below the reference value.
delete The mobile communication terminal is installed to secure wireless communication within a predetermined area, is operated by the same version of firmware downloaded from the server, starts operation by a power source supplied from the outside to the access points at the same time, An access point that maintains operation during a period of time,
A firmware version verifying unit for verifying whether a new version of firmware is present when the power is supplied to the server; And
And a firmware update unit for downloading the new version of firmware and updating the firmware if it is determined that the new version of firmware exists,
The firmware update unit randomly determines the download start time within a predetermined time from when the firmware of the new version is confirmed.
The method according to claim 6,
The firmware update unit updates the downloaded firmware when the wireless traffic is below the reference value.

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