KR100590868B1 - Apparatus and method for upgrade of customer premiss equipment in digital subscriber line network - Google Patents

Abstract

The present invention relates to a firmware management apparatus and method for remotely upgrading firmware installed in a subscriber station in a digital subscriber line network. The present invention relates to at least one subscriber located in a subscriber's home and connected to a digital subscriber line modem at a telephone station. An apparatus for remotely upgrading firmware mounted on a terminal by a system administrator located at a telephone station, the apparatus comprising: a firmware transmission unit for receiving new firmware data for upgrading firmware of a subscriber terminal located in a home from a main control unit; A new firmware data for storing the new firmware data and the upgrade information of the subscriber terminal received from the subscriber terminal, designating a subscriber terminal for performing the firmware upgrade, and new firmware data for upgrading the firmware of the subscriber terminal. Group, and the firmware management unit is configured to include a subscriber terminal connection part to be transmitted to the subscriber station specifying, a firmware upgrade for this subscriber station in an efficient and reliable digital subscriber line through it is possible.

Digital Subscriber Line, DSL, VDSL, Subscriber, CPE, Firmware, Remote Upgrade

Description

Apparatus and method for firmware upgrade of subscriber station in digital subscriber line network {APPARATUS AND METHOD FOR UPGRADE OF CUSTOMER PREMISS EQUIPMENT IN DIGITAL SUBSCRIBER LINE NETWORK}             

FIG. 1 is a diagram according to the related art, in which, when an upgrade request of a subscriber station occurs in a DSL, the system manager directly accesses the subscriber station and performs the upgrade.

2A to 2B are diagrams illustrating embodiments of the present invention in which a system administrator who accesses a telephone station remotely upgrades a subscriber station when an upgrade request of a subscriber station occurs in a DSL.

3 is a block diagram illustrating a functional configuration of a VTU-O, which is one of the components for implementing the present invention, according to an embodiment of the present invention.

4 is a signal flow diagram illustrating a signal flow generated when the present invention is performed according to an embodiment of the present invention.

5 is a view according to an embodiment of the present invention, a flow chart according to an embodiment of the present invention.

6 is a diagram according to another embodiment of the present invention, a flow chart according to an embodiment of the present invention.

The present invention relates to an apparatus and method for upgrading firmware (firmware, F / W, hereinafter referred to as "firmware") of a customer terminal (CPE) in a digital subscriber line (hereinafter referred to as "DSL") network. In particular, the present invention relates to a firmware upgrade apparatus and method for performing firmware upgrade of a subscriber station remotely.

DSL is a technology that provides high speed data communication service along with voice service by installing high speed modem at both ends of double helix. DSLs can be classified into high-speed DSL (HDSL), symmetric DSL (SDSL), asymmetric DSL (ADSL), and very high data rate DSL (VDSL) according to differences in symmetry / asymmetry and speed. These various DSLs are sometimes referred to as xDSLs. In order to use such a DSL, it is necessary to have a modem for DSL, and the DSL modem located in each subscriber's house is called "subscriber terminal" in particular. As such, since subscriber terminals are located in each subscriber's home, a large number of subscriber terminals exist over a wide area.

Meanwhile, an upgrade request for each DSL device may occur while operating the DSL, and an upgrade request for firmware installed in the subscriber terminal may also occur. Conventionally, when an upgrade request for firmware installed in a subscriber terminal occurs, the system administrator moves to a subscriber's house where each subscriber terminal is located and upgrades firmware installed in the subscriber terminal. Such a prior art is shown in FIG. 1 below.

1 is a diagram according to the related art, in which, when an upgrade request for firmware installed in a subscriber terminal is generated in a DSL, a system administrator directly accesses each subscriber terminal and performs an upgrade.

FIG. 1 shows in particular the VDSL of the DSL. MCU (Main Control Unit; referred to as "MCU") 110 is a VTU-O (VDSL Transceiver Unit at ONU; modem for VDSL located on the telephone station 100 side, hereinafter referred to as "VTU-O") General control and management for the control unit 120). The VTU-O 120 is connected to the MCU 110, converts a signal received from the MCU 110, and transmits the converted signal to the VTU-Rs 130-1 to 130-n, and the VTU-Rs 130-1 to. The signal received from the 130-n is converted and transmitted to the MCU 110. VTU-R ((VDSL Transceiver Unit at Remote site; modem for VDSL located in subscriber's house, corresponds to subscriber terminal, hereinafter referred to as " VTU-R ")) 130-1 to 130-n denotes VTU-O ( And a signal received from the VTU-O 120 is converted and transmitted to the subscriber (not shown), and the signal received from the subscriber is converted and transmitted to the VTU-O 120.

As shown in FIG. 1, the VDSL network includes at least one VTU-R 130-1 to 130-n located in each subscriber's home and connected to the VTU-O 120. Conventionally, when an upgrade request for firmware installed in the VTU-Rs 130-1 to 130-n occurs, the system manager 150 stores a subscriber's home where each VTU-R 130-1 to 130-n is located. Up to the upgrade of the firmware mounted on each VTU-R (130-1 to 130-n) was performed. However, as described above, since there are a large number of VTU-Rs 130-1 to 130-n over a large area, the upgrade of these VTU-Rs 130-1 to 130-n is performed separately. This is a waste of time and manpower. In addition, the reliability of the upgrade may be reduced by performing the upgrade individually for each VTU-R (130-1 to 130-n), which may result in missing VTU-R (130-1 to 130-n). do.

There is a need for an apparatus and method for upgrading a firmware of a subscriber station in a DSL capable of performing an efficient and reliable firmware upgrade of a subscriber station for solving the problems of the prior art.

Accordingly, an object of the present invention is to provide an apparatus and method for upgrading a firmware of a subscriber station capable of performing an efficient and reliable firmware upgrade of a subscriber station.

Another object of the present invention is to provide an apparatus and method for upgrading a firmware of a subscriber station in a digital subscriber line capable of performing remote firmware upgrade of the subscriber station.

Another object of the present invention is to provide an apparatus and method for upgrading a firmware of a subscriber station in a digital subscriber line capable of performing firmware upgrade for the subscriber station.

Embodiments of the present invention described below propose a firmware upgrade apparatus and method for a subscriber station performing a firmware upgrade of a subscriber station remotely in order to perform an efficient and reliable firmware upgrade. An apparatus for upgrading a remote firmware of a digital subscriber line of the present invention for performing a remote firmware upgrade; A main control unit for receiving new firmware data and an upgrade command from a system administrator for upgrading firmware of a subscriber station located in the home, and receiving new firmware data from the main control unit to perform a remote firmware upgrade for the subscriber terminal A digital subscriber line network comprising a telephone station side digital subscriber line modem, wherein the telephone station side digital subscriber line modem comprises: a firmware transfer unit for receiving new firmware data for upgrading the subscriber station from the main control unit; Firmware that stores upgrade information of subscriber station including new firmware data and existing firmware version information mounted on subscriber station received from subscriber station and designates subscriber station to perform firmware upgrade. Chapter remote firmware upgrade of the subscriber station, characterized in that the subscriber terminal comprises a connecting portion for transmitting the new firmware data to upgrade the rib and, firmware of the subscriber terminal to the subscriber terminal is assigned the firmware management chiyida.

In addition, the remote firmware upgrade method of the present invention for performing an efficient and reliable firmware upgrade; A system comprising at least one subscriber station located in a subscriber's home and connected to a digital subscriber line modem at a telephone station side via a digital subscriber line, wherein the telephone station side digital subscriber line modem is transmitted by a system administrator. And a second process of receiving new firmware data for upgrading the firmware of the firmware, and a second process of transmitting the received new firmware data to a subscriber station to perform the firmware upgrade.

Meanwhile, in the following description of the embodiments of the present invention, an example of applying to the VDSL system will be described for convenience of description. However, the present invention is not limited to only the VDSL system and thus is applicable to all DSL systems.

First, terms used to describe embodiments of the present invention will be described.

The main control unit (MCU) performs control of telephone station-side devices, including control of the connected VTU-O 120. ONU (Optical Network Unit) is one of the network devices for optical communication, ONU is used in the VDSL because the line to the VTU-O is made of optical fiber (Optical Fiber). The VDSL Transceiver Unit (VTU) is a modem for VDSL used in VDSL. VDSL modems, like other DSL modems, include a VDSL modem located at a telephone station and a VDSL modem located at a subscriber's home. VTU-O (VTU at Optical Network Unit) is a VDSL modem located at the telephone station. VTU-R (VTU at Remote site) is a VDSL modem located in the subscriber's home, and corresponds to the subscriber terminal. VTU-x (any one of VTU-O or VTU-R) is used to refer to both the VDSL modem located at the telephone company side and the VDSL modem located at the subscriber's home. Subscriber terminal (Customer Premiss Equipment, CPE) is a term for a DSL modem, that is, a subscriber terminal located in the subscriber's home, the VTU-R of VDSL, ATU-R of ADSL, etc. correspond to the subscriber terminal.

2A and 2B are diagrams illustrating embodiments of remotely upgrading a subscriber station's firmware when a firmware upgrade request of a subscriber station occurs in a DSL. 2A and 2B show VDSL as an example.

As shown in FIG. 2A, in one embodiment of the present invention, the system manager 150 may perform each VTU-R 130-1 to perform a firmware upgrade for the VTU-Rs 130-1 through 130-n. 130-n), but not connected to the MCU (110). The system manager 150 connected to the MCU 110 transmits the new firmware data to each VTU-R 130-1 through 130-n through the VTU-O 120, and then through the VTU-O 120. It is possible to remotely upgrade the firmware mounted on all VTU-Rs 130-1 to 130-n connected to the MCU 110. In addition, the system manager 150 transmits the new firmware to each VTU-R 130-1 through 130-n connected to the MCU 110 through the VTU-O 120. To 130-n) may be performed in a batch. As such, the system manager 150 remotely performs a firmware upgrade for the VTU-Rs 130-1 to 130-n, thereby allowing the system manager 150 to upgrade the firmware of the VTU-Rs 130-1 to 130-n. There is no need to move to the subscriber's home where each VTU-R (130-1 to 130-n) exists for. In addition, the system manager 150 collectively upgrades firmware installed in all VTU-Rs 130-1 to 130-n connected to the MCU 110 through the VTU-O 120 through one upgrade request. This improves the reliability of firmware upgrades. Meanwhile, a remote firmware upgrade apparatus is required for the system manager 150 to access the MCU 110 to perform a remote firmware upgrade for firmware installed in each of the VTU-Rs 130-1 to 130-n.

On the other hand, Figure 2a can be seen that only one shelf consisting of MCU 110 and VTU-O (120) is mounted in the telephone station 100. However, in actual system operation, rather than having only one shelf in the telephone station 100 as shown in FIG. 2A, it is common to have several shelves 102 as shown in FIG. 2B. Each shelf 102 has its own MCU 110 and VTU-O 120. The MCUs 110 provided in the respective shelves 102 are connected to each other using a predetermined connection means. Since the MCU 110 of each shelf 102 is connected as described above, the system manager 150 connects only to the MCU 110-1 of the specific shelf 102-1 that becomes the master, thereby making upgrade instructions. Firmware upgrades for all VTU-Rs 130 connected to the VTU-O 120 of 102 may be performed. The invention is equally performed for all shelves 102.

3 is a block diagram illustrating a functional configuration of an apparatus for upgrading a remote firmware for implementing the present invention, according to an embodiment of the present invention.

Typically, the remote firmware upgrade apparatus shown in FIG. 3 is added to VTU-O 120, which is one of the VDSL components. As shown in FIG. 3, the remote firmware upgrade apparatus includes a firmware delivery unit 300, a firmware management unit 310, and a subscriber station connection unit 320. The firmware transfer unit 300 transmits firmware data of the VTU-Rs 130-1 to 130-n to be upgraded to the VTU-O 120. The firmware data is transmitted through a transmission means such as FTP and a delivery device. On the other hand, the firmware delivery unit 300 is described in the domestic application "memory structure and remote download method of the unit for remote download" (application number 10-2002-0007913). However, in the present invention, since the firmware manager 310 performs memory (storage, such as a buffer) allocation for storing firmware data transmitted to the VTU-O 120 through the firmware transfer unit 300, the "remote control" is performed. Memory structure of the unit for download and the download method ".

The firmware manager 310 allocates and manages a memory (not shown) for storing the firmware, protects the firmware stored in the memory, processes an interface with the subscriber terminal connector 320, and processes a command with the MCU 110. Perform. The subscriber station connection unit 320 performs a function of transferring firmware data to the subscriber station, that is, the VTU-Rs 130-1 to 130-n illustrated in FIGS. 2A and 2B. The subscriber station connection unit 320 processes operations after being called by the firmware management unit 310 to start firmware data download for firmware upgrade installed in the VTU-Rs 130-1 to 130-n. do. The process of the firmware manager 310 delivering the firmware data received from the MCU 110 through the firmware transmitter 300 to the VTU-Rs 130-1 to 130-n and the operations according to the results are shown in FIG. 4. The signal flow diagram shown and the flow chart shown in FIGS. 5 and 6 will be described in detail. In the following description of FIGS. 4 to 6, unless otherwise noted, odd numbers are added to signals and even numbers are added to operations to facilitate differentiation from each other.

4 is a signal flow diagram illustrating a signal flow between devices according to an embodiment of the present invention.

4 illustrates a signal flow between the MCU 110, the VTU-O 120, and the VTU-Rs 130-1 to 130-n when the present invention is performed. The block shown by [1] in FIG. 1 is a part made by the firmware transfer unit 300 and shows until new firmware data 401 received from the MCU 110 is stored in the memory. The MCU 110 receives a new version of the firmware data 401 from the system manager 150 to generate a firmware upgrade request installed in the VTU-Rs 130-1 to 130-n. In this embodiment, the firmware data transfer from the system manager 150 to the MCU 110 is performed via FTP (File Transfer Protocol, hereinafter referred to as "FTP"). However, the firmware data transfer may be carried out through a transfer means other than FTP, and the present invention is not limited to the FTP selected as the transfer means of the firmware data.

The MCU 110 receiving the firmware data 401 mounts the received firmware data 401 in its memory (step 402). After the mounting operation, the MCU 110 transmits firmware data 403 to the VTU-O 120. In the present embodiment, the firmware data 403 is transmitted from the MCU 110 to the VTU-O 120 through a delivery device. The receiver is selected as an example of the firmware data 403 transmission means, and the present invention is not limited by the transmission means. In FIG. 4, reference numbers of firmware data 401 received by the MCU 110 from the system manager 150 and firmware data 403 transmitted by the MCU 110 to the VTU-O 120 are different from each other. . This is for distinguishing the devices that transmit and receive the respective firmware data 401 and 403, and the contents of the respective firmware data 401 and 403 are the same. The contents of the firmware data 407 and 409 described later are also the same.

Although new firmware data is received from the system manager 150 by the MCU 110, the new firmware data 403 is stored in the VTU-O (VTU-O) even though a firmware upgrade request for the VTU-Rs 130-1 to 130-n occurs. If not transmitted to 120, the VTU-O 120 transmits the response signal -1 (rsp-1) 405 as "FAIL" to the MCU 110. After transmitting the response signal -1 (rsp-1) 405 that is "FAIL", no further processing is performed. In addition, the firmware currently installed in the VTU-Rs 130-1 to 130-n, that is, the firmware to be transmitted to the VTU-R 130 to upgrade the version of the existing firmware and the VTU-R 130, Even when the new firmware version is the same, the VTU-O 120 transmits the response signal-1 (rsp-1) 405 as "FAIL" to the MCU 110 and does not proceed any further. This is because the version is beyond the original purpose of versioning through firmware upgrade. When the selective upgrade according to the firmware version of the VTU-R 130 is to be performed, the VTU-O 120 should have firmware version information mounted in each VTU-R 130. That is, when the VTU-O 120 receives new firmware data for upgrading the firmware of the VTU-R 130 from the MCU 110, the VTU-O 120 is mounted on the VTU-R 130 and the version of the received firmware. After comparing the firmware versions, the firmware upgrade is performed only for the VTU-R 130 equipped with a firmware version lower than the version of the received firmware. Alternatively, the VTU-R 130 may compare the version of the firmware mounted on the VTU-R 130 with the version of the new firmware to be upgraded. That is, after transmission of new firmware data to be upgraded to the VTU-R 130, the VTU-R 130 compares the received version of the new firmware with the version of the existing firmware, and the higher version of the existing firmware. The firmware upgrade is performed only when firmware data is received. As such, the VTU-O 120 may determine the version of firmware mounted on the VTU-R 130 or the VTU-R 130 may determine its firmware version. How to perform the firmware version determination may be selected according to the characteristics of the system to which the present invention is applied.

Meanwhile, the firmware data shown in [1] of FIG. 1 is successfully delivered, and a physical connection is established between the VTU-Rs 130-1 to 130-n and the VTU-O 120 ports to which the firmware is to be transmitted. When the normal data transmission path is set (this is called a link up state in a real service field), the VTU-O 120 sends a response signal-1 (rsp-1) to the MCU 110. 405 is set to "SUCCESS".

The firmware manager 310 informs the VTU-Rs 130-1 to 130-n of new firmware information through the subscriber station connection unit 320. The subscriber station connection unit 320 uses the data transmission path established between the VTU-O 120 and the VTU-Rs 130-1 to 130-n to establish a VTU to the VTU-Rs 130-1 to 130-n. -Send new firmware data 407 read from memory of O120. The firmware data 407 transmission between the VTU-O 120 and the VTU-Rs 130-1 to 130-n is performed through a transceiver.

On the other hand, when upgrading the firmware of the VTU-R (130-1 to 130-n) by using the firmware data transmitted from the VTU-O 120 to the VTU-R (130-1 to 130-n). After upgrade of the firmware data is successfully completed, whether the upgraded new firmware is applied immediately to the VTU-Rs 130-1 to 130-n, or is later applied to the VTU-Rs 130-1 to 130-n. ) Can be set as to whether or not to work. In order for the VTU-R (130-1 to 130-n) to work with the new firmware, the VTU-R (130-1 to 130-n) must be paused and then restarted (this is called a ReLink process in actual service field). This results in a critical result of discontinuing service for subscribers connected to the VTU-Rs 130-1 through 130-n. Therefore, in setting the time to apply the upgrade to the VTU-R (130-1 to 130-n), it is preferable to set so as not to interrupt the service to the subscriber as much as possible.

On the other hand, it is preferable to perform a firmware upgrade on all connected VTU-Rs 130-1 to 130-n in terms of collective management of the VTU-Rs 130-1 to 130-n. If necessary, firmware upgrade may be performed by selecting only some VTU-Rs 130-1 to 130-n.

The VTU-Rs 130-1 to 130-n transmit a response signal-2 (rsp-2) 409 to the VTU-O 120 to notify the result of the firmware upgrade. The VTU-O 120 transmits a result report signal 411 set to “SUCCESS” or “FAIL” to the MCU 110. The MCU 110 transmits the result information notified through the result notification signal 411 to the system manager 150 so that the subscriber station connection unit 320 sends the VTU-Rs 130-1 to 130-n. The system manager 150 may know the result of transmitting the firmware. In the case where there are multiple VTU-Rs 130-1 to 130-n connected to the VTU-O 120, each VTU-R 130-n depends on the operating state of each VTU-R 130-1 to 130-n. Since the firmware upgrade result of 1 to 130-n may be different, individual "SUCCESS or FAIL" responses are performed by the number of VTU-Rs 130-1 to 130-n connected to the VTU-O 120.

The rtrv-ver-f / w signal 413 shown in FIG. 4 makes it easy for the system manager 150 to grasp the version information of the firmware mounted in the VTU-Rs 130-1 to 130-n currently operating, and thus the VTU. An object of the present invention is to provide information for quickly determining whether new firmware is applied to R-130-1 to 130-n. The VTU-O 120 receiving the rtrv-ver-f / w signal 413 from the MCU 110 transmits a response signal-3 (rsp-3) 415 to the MCU 110 to transmit the VTU-R ( 130-1 to 130-n). When providing version information to the MCU 120, if normal data transmission between the VTU-O 120 and the VTU-R (130-1 to 130-n) is impossible due to physical or ambient environment (in the real service field This is referred to as a LinkDown state), and the VTU-O 120 sends the VTU-R (130-1 to 130-n) version information to the response signal-3 (rsp-3) 415, "------". Answer by filling with When the actual firmware data is transmitted successfully and the firmware upgrade of the VTU-Rs 130-1 to 130-n is performed, and the VTU-Rs 130-1 to 130-n operate normally, the VTU-O 120 ) Informs the MCU 110 of the correct version information of the firmware mounted on the VTU-Rs 130-1 through 130-n through the response signal-3 (rsp-3) 415.

5 is a diagram according to an embodiment of the present invention, a flow chart according to an embodiment of the present invention.

In step 500, the MCU 110 receives a new version of firmware data from the system manager 150 to upgrade existing firmware installed in the VTU-Rs 130-1 to 130-n. In this embodiment, FTP is used as a means of transferring firmware data between the system manager 150 and the MCU 110. In the present embodiment, when the MCU 110 receives new firmware data, it is determined that a firmware upgrade request for the VTU-Rs 130-1 to 130-n occurs.

In step 502, the MCU 110 mounts new firmware data received from the system manager 150 in a memory. In step 504, the MCU 110 transmits new firmware data to the VTU-O 120. In the present embodiment, new firmware data transmission between the MCU 110 and the VTU-O 120 is performed through a delivery device. In step 506, the VTU-O 120 transmits new firmware data to the VTU-Rs 130-1 to 130-n. In step 508, the VTU-O 120 determines whether new firmware data transmission to the VTU-Rs 130-1 to 130-n has been successfully performed. If the transmission is successful, step 510 is performed. If the transmission fails, step 512 is performed. In step 510, the VTU-Rs 130-1 through 130-n transmit the response signal-3 (rsp-3) 413 as " SUCCESS " to the VTU-O 120, thereby successfully transmitting new firmware data. Inform them. In step 512, the VTU-Rs 130-1 to 130-n transmit the response signal-3 (rsp-3) 413 as "FAIL" to the VTU-O 120, thereby failing to transmit new firmware data. Inform them.

Reasons for the failure of firmware data transmission between the VTU-O 120 and the VTU-Rs 130-1 to 130-n may include the following. First, the physical / logical transmission paths that must exist between the VTU-O 120 and the VTU-Rs 130-1 to 130-n are disconnected. When the transmission path is disconnected as described above, data transmission is impossible between the VTU-O 120 and the VTU-Rs 130-1 to 130-n. Second, the existing firmware version mounted on the VTU-Rs 130-1 to 130-n is equal to or higher than the new firmware version. If the versions of the two firmwares match, the VTU-Rs 130-1 to 130-n do not need to upgrade the mounted firmware and thus do not perform the firmware upgrade.

On the other hand, in the above-described embodiment, it is determined as "FAIL" for the case where the data transmission fails due to the disconnection of the transmission path and the two cases where the firmware upgrade is not required. However, unlike the latter, when the firmware is not upgraded due to the former, that is, data transmission failure, it may be desirable to retry the firmware upgrade. As described above, another embodiment of the present invention which retries the firmware upgrade when data transmission fails in this way will be described later with reference to FIG. 6.

In step 514, the VTU-O 120 transmits a response signal-3 (rsp-3) to the MCU 110 to indicate that the upgrade of the firmware installed in the VTU-Rs 130-1 to 130-n is completed. Notifies the MCU 110. At this time, the VTU-O 120 includes information such as whether the firmware upgrade is successful for each VTU-R 130-1 to 130-n in the response signal-3 (rsp-3). -1 to 130-n) can be efficiently managed. In step 516, the MCU 110 outputs the result of firmware upgrade performed in the VTU-Rs 130-1 to 130-n by using a predetermined output means.

6 is a view according to another embodiment of the present invention, a flow chart according to an embodiment of the present invention.

In step 600, the MCU 110 receives new firmware data from the system manager 150. In the present embodiment, in particular, FTP is used as a means of transferring firmware data between the system manager 150 and the MCU 110. In the present embodiment, when the MCU 110 receives new firmware data from the system manager 150, it is determined that an upgrade request for firmware installed in the VTU-Rs 130-1 to 130-n occurs. In step 602, the MCU 110 mounts new firmware data received from the system manager 150 in a memory and transmits the new firmware data to the VTU-O 120. In this embodiment, firmware data transmission between the MCU 110 and the VTU-O 120 is performed through a delivery device. In step 604, the VTU-O 120 compares the firmware version mounted on the VTU-R 130 with the new firmware version received from the MCU 110. As a result of the firmware version comparison, the VTU-O 120 transmits new firmware data to the VTU-R 130 that has a lower firmware version than the new firmware version in step 606, and is equal to or higher than the new firmware version. The VTU-R 130 equipped with the version of the firmware is performed with step 618 described later without transmitting firmware data.

In step 610, the VTU-O 120 determines whether firmware data transmission between the MCU 110 and the VTU-O 120 has been successfully performed. As a result of the determination of step 610, step 612 is performed if the firmware data transmission is successful, and step 608 is performed if the firmware transmission has failed. As described above, the reason why the firmware data transmission between the VTU-O 120 and the VTU-Rs 130-1 to 130-n fails is the VTU-O 120 and the VTU-Rs 130-1 to 130. physical and logical transmission paths that should exist between the n-n) and the new firmware received from the MCU 110 by the version of the existing firmware mounted in the VTU-Rs 130-1 to 130-n. If it matches the version of. If the version of the existing firmware and the new firmware match, the VTU-Rs 130-1 to 130-n do not need to upgrade the mounted firmware. If the transmission of the new firmware fails because the version of the existing firmware and the new firmware match, step 618 is described below.

On the other hand, if a new firmware data transmission fails due to a disconnection between the VTU-O 120 and the VTU-Rs 130-1 to 130-n, the VTU-Rs 130-1 to 130-n may be used. Retry the firmware upgrade. In step 608, the VTU-O 120 determines whether the number of firmware upgrade attempts for the VTU-Rs 130-1 to 130-n is less than a predetermined value A. FIG. This is to prevent an infinite number of repeated attempts to upgrade the firmware for the VTU-Rs 130-1 to 130-n. The predetermined value A may be determined in consideration of various factors such as a state of a transmission path and a load. If the number of retries is less than A, try to upgrade the firmware mounted in the VTU-Rs 130-1 to 130-n again by performing step 606. If the number of retries is A or more, perform step 618. do.

In operation 612, the VTU-O 120 transmits an upgrade command to the VTU-Rs 130-1 to 130-n to perform upgrade of firmware installed in the VTU-R 130. Meanwhile, the VTU-R 130 may determine that a firmware upgrade command is received at the same time as receiving new firmware data, and may operate to perform a mounted upgrade without a separate upgrade command. In step 614, the VTU-O 120 determines whether to immediately restart the VTU-Rs 130-1 to 130-n in which the firmware upgrade is performed. The VTU-Rs 130-1 through 130-n may restart immediately or later when a relink occurs. Whether to restart immediately or not is set in the upgrade information for the VTU-Rs 130-1 to 130-n, or may be implemented by adopting one of several methods, such as following an instruction from the system manager 150. It is desirable to adopt a method that does not affect the system immediately or not. The upgrade information refers to information required for performing firmware upgrade of the VTU-R 130, including version information of firmware mounted on the VTU-R 130. If it is set to restart the VTU-R (130-1 130-n) as soon as the firmware upgrade mounted on the VTU-R (130-1 to 130-n) is performed, the VTU-R (130-1) in step 616 130-n) to restart the VTU-R (130-1 to 130-n) to operate by applying the upgraded new firmware. On the other hand, in the case where it is set not to restart immediately, the VTU-Rs 130-1 to 130-n are restarted at relinking to apply the upgraded new firmware.

In step 618, the VTU-O 120 transmits a response signal-3 (rsp-3) to the MCU 110 to indicate that the upgrade of the firmware installed in the VTU-Rs 130-1 to 130-n is completed. Notifies the MCU 110. At this time, the VTU-O 120 includes information such as whether the firmware upgrade is successful for each VTU-R 130-1 to 130-n in the response signal-3 (rsp-3). -1 to 130-n) can be efficiently managed. In step 620, the MCU 110 outputs the firmware upgrade performing result mounted in the VTU-Rs 130-1 to 130-n by using a predetermined output means.

As described earlier in the description of the present invention, embodiments of the present invention have been described with respect to VDSL. However, the present invention is not limited to VDSL but can be applied to all DSLs. As an example, the present invention may be applied to ADSL. The ADSL may include an ATU-O corresponding to the VTU-O 120 of the VDSL, and an ATU-R corresponding to the VTU-Rs 130-1 to 130-n. By adding the firmware upgrade device proposed in the present invention to the ATU-O of the ADSL configured as described above, it is possible to remotely / batch upgrade the firmware of the at least one ATU-R connected to the ATU-O. Of course, the present invention can be applied to other DSLs such as SDSL and HDSL as in the above-described VDSL and ADSL. That is, by applying the present invention, it is possible to remotely / batch upgrade the firmware installed in the subscriber station in all DSLs.

DSL remotely handles firmware upgrades on subscriber terminals so that the firmware of subscriber terminals can be upgraded without moving to the subscriber's home where each subscriber terminal is located, so that the firmware upgrade for subscriber terminals can be efficiently performed. do. In addition, bulk firmware upgrades for subscriber stations are possible through remote firmware upgrades, thereby improving reliability of firmware upgrades and solving service difficulties that may occur due to firmware version mismatches between subscriber stations.

When upgrading the firmware installed in the subscriber terminal, it is possible to select whether to apply the upgraded new firmware immediately or later, thereby minimizing the service disruption of the subscriber.

Claims (8)

A main control unit for receiving new firmware data and an upgrade command from a system administrator for upgrading firmware of a subscriber station located in the home, and receiving new firmware data from the main control unit to perform a remote firmware upgrade for the subscriber terminal A digital subscriber line network comprising a digital subscriber line modem at the telephone station, The telephone station side digital subscriber line modem, A firmware delivery unit for receiving new firmware data for upgrading the subscriber station from the main control unit; Storing the upgrade information of the subscriber station including the received new firmware data and firmware version information currently mounted on the subscriber stations, and comparing the received new firmware version with the firmware version currently mounted on the subscriber station. A firmware management unit for selecting at least one subscriber station to be upgraded with a new version of firmware data according to: And a subscriber station connection unit for collectively transmitting the new version of firmware data to at least one subscriber station selected from the firmware manager. The method of claim 1, The firmware management unit remote firmware upgrade apparatus of a subscriber station in a digital subscriber line network to select all subscriber stations as a subscriber station to perform the firmware upgrade. The method of claim 2, In the digital subscriber line network, the firmware manager selects a subscriber station to perform a firmware upgrade only for a subscriber station whose version of the new firmware data is higher than the firmware data version currently installed on the subscriber station as a result of the comparison of the firmware data versions. Remote firmware upgrade device of the terminal. In the firmware upgrade method of a subscriber station in a digital subscriber line network, Receiving a new version of firmware data transmitted from a system manager; Comparing the received version information of the new firmware data with firmware data version information stored in preset stored current subscriber terminals, and selecting at least one subscriber terminal to be upgraded to the new version of firmware data according to the comparison result; And And remotely upgrading the firmware data of the new version to the selected at least one subscriber station. The method of claim 4, wherein And a subscriber station selected for performing the firmware upgrade is all subscriber stations connected to the digital subscriber line modem of the telephone company side. The method of claim 4, wherein And a subscriber station selected to perform the firmware upgrade is a subscriber station having a lower version of firmware than the new firmware data. The method of claim 4, wherein The subscriber station performing the firmware upgrade performs a restart immediately after the upgrade to apply new firmware. The method of claim 4, wherein The subscriber station performing the firmware upgrade is a remote firmware management method of a subscriber station in a digital subscriber line network applying new firmware during a restart operation according to a relink that occurs after the first upgrade.

Images