KR20150019152A - Method and apparatus for managing firmware - Google Patents

Abstract

A firmware management terminal receives information on a device through short-range communications therewith, requests firmware to a firmware server while transmitting the device information thereto, and transmits, to the device, the firmware corresponding to the device information received from the firmware server through device to device (D2D) communications. Thus, a user can run firmware for a device, which the user wants to manage, by using a firmware management terminal owned by the user within a short time.

Description

[0001] METHOD AND APPARATUS FOR MANAGING FIRMWARE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a firmware management method and apparatus, and more particularly to a technology for managing firmware through direct communication (Device to Device, D2D).

Currently, devices using various types of embedded systems are spread, and the types of communication used in these devices are also diversified.

 In order to manage the firmware of the embedded device, it is necessary to install the firmware corresponding to the version after shipment of the device. There are two main ways to manage firmware of general electronic appliances and devices to which microcontroller is applied. The first method is to install the firmware through a program for controlling the firmware of the computer after connecting the device requiring the firmware management with the communication cable through the communication cable. The second is that the device receives and installs the firmware through the wireless LAN without the cable connection, or the wireless communication between the mobile communication terminal and the firmware management terminal and the device through the near field communication (NFC), Bluetooth and Wi-Fi Direct And the firmware is installed through information exchange of the information. Recently, I prefer the second method because I can not get information about the firmware when there is no internet connection or computer. However, even in the case of the second method, when the firmware is installed between a terminal and a device other than a wireless LAN environment, a plurality of device IDs are displayed in the environment where a plurality of devices exist, so it is difficult to find devices requiring firmware management. It is troublesome to set up the firmware environment after finding the ID of the device which needs firmware management, and since the form of communication used differs for each device, it takes a long time since the communication environment must be set for each device in the terminal. If the terminal does not have the type of communication owned by the device, the firmware can not be managed. Therefore, there is a need for a method that enables the user to manage the firmware easily and quickly by using information about the firmware for each device. In other words, it is possible to set the firmware management environment and install the firmware by checking the information of the devices necessary for firmware management in a short time without searching for the devices which require firmware management in the environment where there are many devices, A method is needed.

A problem to be solved by the present invention is to provide a firmware management method and apparatus capable of finding devices requiring firmware management in a short period of time and installing firmware in an appropriate communication method.

According to an embodiment of the present invention, a method for managing firmware of a device in a firmware management terminal is provided. The firmware management method includes receiving information on the device through short-range communication with the device, requesting firmware while transmitting the device information to the firmware server, receiving firmware corresponding to the device information from the firmware server , And transmitting the firmware to the device through D2D (Device to Device) communication.

According to the embodiment of the present invention, there is an effect that the firmware of the device to be managed by the user can be executed by the firmware management terminal (or the mobile communication terminal) owned by the user in a short time in an environment where the user has a plurality of devices . In addition, all electronic product service personnel can manage the firmware of a large number of devices through a firmware management terminal without having to carry a notebook, which is advantageous in saving management cost and time. In addition, since the devices can manage the firmware with the communication module installed in the device, there is an advantage that the firmware can be managed anytime and anywhere without installing the additional communication module.

FIG. 1 is a diagram schematically showing a firmware management service providing system according to an embodiment of the present invention. Referring to FIG.
FIG. 2 is a diagram illustrating the firmware management terminal and the device shown in FIG. 1. Referring to FIG.
3 is a flowchart illustrating a firmware management method according to an embodiment of the present invention.
4 is a diagram illustrating a firmware management method of the firmware management service providing system shown in FIG.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification and claims, when a section is referred to as "including " an element, it is understood that it does not exclude other elements, but may include other elements, unless specifically stated otherwise.

Now, a firmware management method and apparatus according to an embodiment of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a diagram schematically showing a firmware management service providing system according to an embodiment of the present invention. Referring to FIG.

Referring to FIG. 1, the firmware management service providing system includes a firmware management terminal 100, a firmware server 200, and at least one device 300 corresponding to a firmware management object. In FIG. 1, only one device 300 is shown for the sake of convenience.

The firmware management terminal 100 is a terminal owned by the firmware manager, and may be a mobile communication terminal. The firmware management terminal 100 collects the information of the device 300 through communication with the device 300 and transmits the collected information of the device 300 to the firmware server 200 through the communication network. The collected information of the device 300 may include the device ID and the firmware version information and the information about the communication method currently installed in the device 300. [ When the firmware management terminal 100 receives the firmware corresponding to the information of the device 300 from the firmware server 200, the firmware management terminal 100 transmits the firmware to the device 300.

The firmware server 200 includes a firmware DB 210 that stores device information and firmware information, and manages both device information and firmware information. When the firmware server 200 receives the information of the device 300, it analyzes the information of the device 300 and transmits the proper firmware to the firmware management terminal 100.

The device 300 transmits the information of the device 300 to the firmware management terminal 100 through communication with the firmware management terminal 100 and installs the firmware when the firmware is received from the firmware management terminal 100.

FIG. 2 is a diagram illustrating the firmware management terminal and the device shown in FIG. 1. Referring to FIG.

2, the firmware management terminal 100 includes a firmware control unit 110, an NFC unit 120, a communication unit 130, and a firmware application driver unit 140. The device 300 also includes a firmware control unit 310, an NFC unit 320, and a communication unit 330.

In the firmware management terminal 100, the firmware control unit 110 controls the memory for storing the firmware and all the related functions necessary for the other firmware.

The NFC unit 120 receives the information of the device 300 from the NFC unit 320 of the device 300. [

The communication unit 130 is used for communication with the firmware server 200 and the device 300. The communication unit 130 communicates with the firmware server 200 through a communication network and receives firmware from the firmware server 200. [ The network may include Wi-Fi or 3G / 4G networks. The communication unit 130 communicates with the device 300 through the communication unit 130 of the device 300 and transmits the firmware to the device 300 through the D2D communication. Since the D2D communication method differs from apparatus to apparatus, the communication unit 130 can support multiple D2D communication. The D2D communication method can include the currently commercialized D2D communication such as Wi-Fi direct, Bluetooth, and LTE D2D. When a new D2D communication is developed later, the communication unit 130 can update the new D2D communication.

The firmware application driver 140 drives the firmware app. Firmware apps help users to quickly set up the firmware management environment. In order to manage the firmware of the device 300, when the firmware application is executed first and then the NFC unit 120 is operated, the information of the device 300 is displayed on the screen. The firmware application then transmits the information of the device 300 to the firmware server 200 when the administrator selects the server information transmission button. In addition, when the administrator selects the firmware transmission start button, the firmware application transmits the firmware received from the firmware server 200 to the device 300, and when the administrator selects the firmware end button, the firmware application can be terminated.

In the device 300, the firmware control unit 310 controls a part related to the installation and storage of the firmware received from the firmware management terminal 100.

The communication unit 330 performs D2D communication with the firmware management terminal 100. [ Since the D2D communication method differs from device to device, it is important to install the firmware in the D2D communication method installed in the device 300. [ Accordingly, the NFC unit 320 transmits the information of the device 300 including the information of the D2D communication method installed in the device 300 to the firmware management terminal 100.

3 is a flowchart illustrating a firmware management method according to an embodiment of the present invention.

Referring to FIG. 3, the firmware management terminal 100 requests device information from the device 300 through the NFC unit 120 (S310).

When the device 300 receives the device information request, the device 300 transmits information of the device 300 including the ID of the device 300, the current firmware version of the device 300, and the D2D communication method of the device 300 to the NFC unit 320, To the firmware management terminal 100 (S320).

The firmware management terminal 100 requests the firmware version while transmitting the information of the received device 300 to the firmware server 200 through the communication unit 130 at step S330. The firmware management terminal 100 can request the latest version of the firmware while transmitting the information of the device 300 through the server information transmission button of the firmware application when the device 300 requests the latest version of the firmware. The firmware management terminal 100 may request the firmware of the previous version to the firmware server 200 through the previous version button of the firmware application when the device 300 requests the firmware of the previous version.

The firmware server 200 searches for the firmware of the firmware version requested by the device 300 using the firmware DB 210 in operation S340 and transmits the firmware of the searched firmware version to the firmware management terminal 100 ). At this time, if the device 300 requests firmware of the latest version, the firmware server 200 determines whether the firmware version information of the device 300 is up-to-date. If it is not the latest firmware, the firmware server 200 transmits the latest firmware to the firmware management terminal 100, If the firmware version information of the firmware update unit 300 is the latest, it indicates that update is not necessary. Also, the firmware server 200 transmits the previous version firmware of the device 300 to the firmware management terminal 100 when the device 300 requests the firmware of the previous version.

When the firmware management terminal 100 receives the firmware from the firmware server 200, the firmware management terminal 100 transmits the firmware to the device 300 through the communication unit 130 (S360). When the firmware management terminal 100 receives a notification from the firmware server 200 that update is not required, the firmware management terminal 100 may transmit the notification to the device 300 via the communication unit 130. [

When the device 300 receives the firmware, it installs the firmware and terminates the firmware. On the other hand, when the device 300 receives a notification that update is not required, the device 300 ends the firmware management operation.

4 is a diagram illustrating a firmware management method of the firmware management service providing system shown in FIG.

Referring to FIG. 4, first, an administrator has a plurality of devices, that is, device 1, device 2, ... , And executes the firmware application of the firmware management terminal 100 in an environment in which the device N is present.

The firmware application driver 140 of the firmware management terminal 100 drives the firmware application (S410).

The manager selects the device 1 by bringing the firmware management terminal 100 close to the device 1 to be managed and the NFC unit 120 of the firmware management terminal 100 receives the information of the device 1 from the device 1 , The information of the received device 1 is displayed on the screen of the firmware app (S430). For example, the firmware app can display ID (device 1), firmware version (Firmware 3.2.1), and D2D communication method (Wi-Fi direct) installed in the device with information of device 1. The firmware app can display the server information transmission button, the firmware transmission start and end button, and the previous version button.

Next, when the administrator selects the server information transmission button of the firmware application, the firmware management terminal 100 transmits the information of the device 1 to the firmware server 200 through the communication unit 130 (S440).

Upon receiving the information of the device 1, the firmware server 200 retrieves the information of the device 1 from the firmware DB 210 and transmits the firmware (S450). The firmware server 200 determines whether the firmware of the device 1 is latest or not if the device 1 requests the latest firmware of the device 1 and transmits the latest firmware to the firmware management terminal 100 . If the firmware of the device 1 is latest, the firmware management terminal 100 transmits a notification message to the firmware management terminal 100 indicating that it is not necessary to update the firmware. On the other hand, when the device 1 requests the firmware of the previous version, the firmware of the previous version is searched and the firmware of the previous version is transmitted to the firmware management terminal 100.

When the firmware management terminal 100 receives the firmware, the firmware management terminal 100 transmits the firmware through the D2D communication method of the device 1 (S460). The firmware management terminal 100 can select the Wi-Fi, which is the D2D communication method of the device 1, and transmit the firmware through Wi-Fi. When the firmware management terminal 100 receives the notification message indicating that the update is not necessary, the firmware management terminal 100 can transmit the notification message to the device 1 through the D2D communication method.

If only the NFC unit is installed in the device 1, the firmware management terminal 100 can transmit the firmware through the NFC unit 120. If an error occurs during the transmission, a transmission failure message is displayed. Until the firmware is transferred.

Upon receiving the firmware, the device 1 installs the received firmware and terminates firmware management (S470). On the other hand, when the device 1 requests the latest firmware, if the notification message indicating that the update is not necessary is completed, the firmware management is terminated.

Since the administrator can confirm the firmware version information installed in the device 1 through the firmware application, the administrator can confirm that the firmware is correctly installed in the device 1.

When the firmware installation is properly installed in the device 1, the firmware management terminal 100 confirms the firmware version information and terminates the firmware application (S480).

By doing so, the firmware management terminal 100 can quickly manage the firmware of the device to be managed in an environment where there are multiple devices, and in the case where all the firmware of the plurality of devices needs to be managed, the firmware management terminal 100 repeats the above- To save time and money.

The embodiments of the present invention are not limited to the above-described apparatuses and / or methods, but may be implemented through a program for realizing functions corresponding to the configuration of the embodiment of the present invention or a recording medium on which the program is recorded, Such an embodiment can be readily implemented by those skilled in the art from the description of the embodiments described above.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

Claims (1)

A method for managing firmware of a device in a firmware management terminal,
Receiving information of the device through short-range communication with the device,
Requesting the firmware while transmitting the information of the device to the firmware server,
Receiving firmware corresponding to the information of the device from the firmware server, and
Transmitting the firmware to the device through D2D (Device to Device) communication
Lt; / RTI >

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