KR102262942B1 - Gateway self recovery method by the wireless bridge of wireless network system system - Google Patents

Abstract

The present invention relates to a gateway self-recovery method by means of a wireless bridge of a wireless network system which reduces a wrong operation due to a target setup error. To this end, the gateway self-recovery method, performed by a wireless bridge in a wireless network system, comprises: a system starting step of bootstrapping and initializing the system, then loading setup values of multiple target systems defined by a user, performing a connection operation and performing an initial setup operation; an initial connection checking step of checking the multiple target systems to confirm whether each of the target systems makes a normal response; a self-recovery starting step of waiting for a time of a second user definition time counter defined by the user and then checking each of the target systems to receive a response signal; and a self-recovery processing step of determining whether there occurs a failure of each of the target systems checked and received in the self-recovery starting step and checking whether the failure is recovered in accordance with the determination result or whether there occurs a failure at an Ethernet module of another wireless bridge and the failure is recovered to process a return to any one step among the system starting step, the initial connection checking step and the self-recovery starting step, thereby reducing wrong operations due to the target setup error and reducing the number of operations of an equipment restart process to maximally reduce the use of equipment resources.

Description

Gateway self recovery method by the wireless bridge of wireless network system system

The present invention relates to a method of self-recovery of a gateway by a wireless bridge in a wireless network system, and more particularly, by checking both the wireless link direction and the Ethernet link direction in each wireless bridge connecting the wired/wireless network, the wireless module and the Ethernet By checking the normal operation of each module, operating the fault recovery process for the part where the problem occurs, and restarting the device if the problem is not resolved, the faulty device can be accurately identified and the failover time is maximized. It relates to a method of self-recovery of a gateway by a wireless bridge of a wireless network system that can shorten and reduce the number of operation of the equipment restart process due to a target setting error and reduce the use of equipment resources as much as possible to enable efficient equipment operation and management will be.

The failure recovery method currently used in the wireless network system is to periodically drive the equipment restart (reboot) process in units of time or at a specific time, or to respond to a specific target system preset as a target by using a monitoring device such as a watchdog. A method of checking the situation and starting the equipment restart process according to the response situation of the target system or restarting the equipment by turning the power on/off directly by an administrator in the field is being used.

However, such a current failure recovery method has a problem in that efficiency is lowered because the equipment restart process is driven even when the equipment is operating normally when the equipment restart process is periodically driven at a time unit or a specific time, and there is a problem in that the efficiency is lowered. When the device restart process is started according to the response status of a specific target system using monitoring equipment, most wireless network systems set the target to check the response status of the gateway when using an important server or the Internet. There is a disadvantage in that the reboot is repeated by continuously running the equipment restart process even when a problem with other equipment occurs.

For example, when the target of the watchdog is set to the G system in the wireless network system as illustrated in FIG. 1 , a problem occurs in the switch or hub of the area A, and the system reboots continuously even if a response from the G system is not received. Problems arise, and in the case of a wireless network system that monitors equipment using such a watchdog, there is a limitation in that only one target must be set. That is, as illustrated in FIG. 1 , in the case of wireless bridge 1, when the target of the watchdog is set to the G system, there is a disadvantage that no operation occurs even if a problem occurs in the wireless link (wireless module). .

KR 10-1003738 B1 2010.12.17. Enrollment KR 10-1223426 B1 2013.01.11. Enrollment

Therefore, the present invention has been derived to solve the above problems, and the technical problem to be solved by the present invention is to check both the radio link direction and the Ethernet link direction in each radio bridge connecting the wired/wireless network to obtain a radio module. Check whether the Ethernet module and Ethernet module are operating normally, operate the fault recovery process for the part where the problem occurs first, and if the problem is not resolved after that, the equipment restart process is activated to accurately identify the problematic equipment without the intervention of the administrator. By enabling recovery from failure, it is possible to shorten the failover time as much as possible, and also to reduce the number of operation of the equipment restart process due to a target setting error to reduce the use of equipment resources as much as possible to ensure efficient equipment operation and management. An object of the present invention is to provide a method for self-recovery of a gateway by a wireless bridge of a wireless network system.

One embodiment of the present invention for achieving the above object is a gateway self-recovery method performed by a wireless bridge in a wireless network system including a plurality of wireless bridges connecting wired/wireless networks, by executing a startup process to After the system is booted and initialized, a plurality of user-defined target system setting values are loaded and the connection is executed, and the first user-defined time counter is activated to wait for the check of the plurality of target systems to perform initial setting. In the system startup step, the initial connection check step of checking whether each target system responds normally by checking a plurality of target systems while waiting for the time of the first user-defined time counter started in the system startup step, and each target system in the initial connection check step self-recovery start step of receiving a response signal by checking each target system after waiting for the time of the second user-defined time counter defined by the user to wait for self-recovery by executing the self-recovery process, and In the recovery start stage, it is determined whether each target system failure occurs, and depending on the result of the determination, it is checked whether the failure is recovered or the failure of the Ethernet module of other wireless bridges is checked and the failure is restored in the system start stage or initial stage. A gateway self-recovery method by a wireless bridge of a wireless network system, comprising a self-recovery processing step of returning to any one of a connection confirmation step or a self-recovery starting step.

According to the present invention, both the wireless link direction and the Ethernet link direction are checked in each wireless bridge connecting the wired/wireless network to check whether the wireless module and the Ethernet module are operating normally, and the failure recovery process for the part where the problem occurs Failover time can be shortened as much as possible by enabling the equipment restart process to operate first and then, if the problem is not resolved, accurately identify the problematic equipment and recover from the failure without the intervention of an administrator. In addition, it is possible to provide the advantage of enabling efficient operation and management of equipment by reducing the number of operations of the equipment restart process due to a target setting error and maximally reducing the use of equipment resources.

1 is a conceptual diagram illustrating a gateway self-healing method of a conventional wireless network system.
2 is a conceptual diagram illustrating a gateway self-recovery method by a wireless bridge in a wireless network system according to the present invention.
3A and 3B are operational flowcharts illustrating a gateway self-recovery method by a wireless bridge in a wireless network system according to the present invention.

Hereinafter, the configuration and operation of a gateway self-recovery method by a wireless bridge in a wireless network system according to a preferred embodiment of the present invention, and the effects thereof will be described in detail with reference to the accompanying drawings.

The terms or words used in the present specification and claims are not to be construed as limited to their ordinary or dictionary meanings, and on the principle that the inventor can appropriately define the concept of the term in order to best describe his invention. It should be interpreted as meaning and concept consistent with the technical idea of the present invention. Therefore, since the embodiments described in this specification and the configurations shown in the drawings are only the most preferred embodiment of the present invention, it is understood that there may be various equivalents and modifications that can be substituted for them at the time of the present application. shall.

2 is a conceptual diagram illustrating a gateway self-recovery method by a wireless bridge of a wireless network system according to the present invention, and FIGS. 3A and 3B are operations illustrating a gateway self-recovery method by a wireless bridge in a network system according to the present invention. As a flowchart, the gateway self-recovery method performed by the wireless bridge in the wireless network system according to the present invention includes a start-up process starting step (a), an initial connection confirmation step (b), a self-recovery starting step (c), and a self-recovery processing step (d) may be included, and the self-recovery method of the present invention may be independently performed in each of the wireless bridges 1 ( 10 ) and wireless bridges 2 ( 20 ) connecting the wired/wireless networks, and the following In the detailed description of FIG. 2 , the case performed in the wireless bridge 1 10 of FIG. 2 will be described as an example.

The system startup step (a) is an initial step of executing the startup process, booting and initializing the system or equipment (S101), loading a plurality of target system settings defined by the user, executing the connection, and executing the connection to the plurality of targets The first user-defined time counter TC1 for system check-waiting is started ( S102 ), and the initial setting of the wireless bridge is performed ( S103 ). In this system starting step (a), the system or equipment is booted and initialized (S101), and a plurality of target system setting values defined by the user, that is, the wireless module in the wireless link direction and the Ethernet module in the wired link direction, respectively. The value is loaded and the connection is executed, the first user-defined time counter TC1 for waiting to be checked by a plurality of target systems is started (S102), and the initial setting of the wireless bridge is performed (S103). In addition, in the system starting step (a), a first user-defined time counter (TC1) for waiting for a check of a plurality of target systems, a second user-defined time counter (TC2) for waiting for execution of the self-recovery process, and other wireless bridges The third user-defined time counter (TC3), etc. for the Ethernet module failure recovery standby of the Ethernet module can be set by designating a value defined by the user.

The initial connection confirmation step (b) is a step of transmitting a check signal to a plurality of target systems set in the system starting step (a), respectively (S104), and the time of the first user-defined time counter (TC1) starting operation in the system starting step It is made including steps (S105, S106) of checking whether a normal response is received from each target system while waiting. In this initial connection confirmation step (b), a check signal is transmitted (S104) to each target system for the wireless module and the Ethernet module, respectively, and waits for the time of the first user-defined time counter (TC1) started operating in the system start step ( While S106), it is checked whether a normal response is received from each target system (S105).

The self-recovery start step (c) is a step of executing the self-recovery process when it is confirmed whether each target system responds normally in the initial connection check step (b), and a second user-defined time counter ( Waiting for a corresponding time by operating TC2) (S107), transmitting each check signal to a plurality of target systems (S108), checking whether a response signal corresponding to the check signal transmitted from each target system is received It is made including the step (S109). In this self-recovery start step (c), while waiting (S107) for the time of the second user-defined time counter (TC2) defined by the user, a check signal is transmitted to the wireless module and the Ethernet module (S108), respectively, and each target system It is checked whether a response signal corresponding to the check signal transmitted from the is received (S109).

The self-recovery processing step (d) is a step (S110-S112) of determining whether a failure of each target system has occurred from the response signal checked and received in the self-recovery starting step (c), depending on the determination result of the wireless module or the Ethernet module Return to any one of the system start step (a), initial connection check step (b), or self-recovery start step (c) by checking whether or not failure is recovered or the occurrence of a failure in the Ethernet module of other wireless bridges and whether the failure is recovered. processing steps (S113-S119). At this time, the self-recovery processing step (d) determines whether a failure occurs in each target system (S110-S112), 1) when both the wireless module and the Ethernet module are normal (N branch of S111), and 2) a failure in the wireless module occurs and the Ethernet module is normal (branch Y of S111), 3) when the wireless module is normal and a failure occurs in the Ethernet module (branch N in S112), and 4) when both the wireless module and the Ethernet module fail. (Y branch of S112), respectively, and performs an operation.

In this self-recovery processing step (d), 1) If both the wireless module and the Ethernet module are normal (N branch of S111), self-recovery is unnecessary, so the failure and recovery status of other wireless bridges are sequentially checked (S113, S114) ) to determine an operation branch to return to either the initial connection confirmation step (b) or the self-recovery start step (c) according to the check result. At this time, between the step (S113) of checking the occurrence of a failure of the other wireless bridge and the step (S114) of checking the failure recovery status of the other wireless bridge, a third user-defined time counter (TC3) is performed to wait for the Ethernet module failure recovery of the other wireless bridge. ) may further include a step of waiting for a period of time. In this self-recovery processing step (d), it is checked whether an Ethernet module failure message of another wireless bridge is received from another wireless bridge (S113), and after waiting for the time of the third user-defined time counter (TC3), the other wireless bridge It is checked whether an Ethernet module failure recovery message of another wireless bridge is received from the other wireless bridge (S114), so that the Ethernet module failure message is not received from the other wireless bridge (N branch of S113), or the Ethernet module of the other wireless bridge is not received from the other wireless bridge. Even when a module failure occurrence message is received, when a message indicating that the failure has been recovered is received from another wireless bridge (Y branch of S114), the operation branch is determined to return to the self-recovery start step (c). On the other hand, if the failure recovery message is not received (branch N of S114) in the state that the error message of the Ethernet module of the other wireless bridge is received from the other wireless bridge (branch Y of S113), the initial connection confirmation step (b) Determine the operating branch to return to .

In addition, in the self-recovery processing step (d), 2) if a failure occurs in the wireless module and the Ethernet module is normal (Y branch of S111), a step of checking the wireless module for failure recovery of the wireless module and attempting self-recovery (S115) ) and the step (S116) of determining whether the failure recovery for the wireless module is complete is sequentially performed. At this time, if the failure to the wireless module is not restored (N branch of S116), the operation branch is determined to immediately return to the system start step (a), and when the failure to the wireless module is restored (Y branch of S116) The operation branch is set to sequentially check the failure and recovery status of other wireless bridges (S113, S114) and return to either the initial connection confirmation step (b) or the self-recovery starting step (c) according to the check result. decide Also at this time, the step of checking whether an Ethernet module failure message of the other wireless bridge is received from the other wireless bridge (S113), after waiting for the time of the second user-defined time counter, the Ethernet module failure recovery message of the other wireless bridge from the other wireless bridge By sequentially performing the step (S114) of confirming whether or not is received, an Ethernet module failure message is not received from another wireless bridge (N branch of S113) or an Ethernet module failure message of another wireless bridge is received from another wireless bridge. Even if is received, if a message indicating that the corresponding failure has been recovered is received from another wireless bridge (branch Y of S114), the operation branch is determined to return to the self-recovery start step (c). On the other hand, if the failure recovery message is not received (branch N of S114) in the state that the error message of the Ethernet module of the other wireless bridge is received from the other wireless bridge (branch Y of S113), the initial connection confirmation step (b) Determine the operating branch to return to .

Also, in the self-recovery process step (d), 3) if the wireless module is normal and the Ethernet module fails (N branch of S112), a message notifying that the Ethernet module has a failure is transmitted to the other wireless bridge, and then the Ethernet module A step (S117) of checking the Ethernet module to attempt self-recovery for failure recovery and a step (S118) of determining whether the failure recovery for the corresponding Ethernet module has been completed are sequentially performed. At this time, if the failure to the Ethernet module is not restored (N branch of S118), the operation branch is determined to immediately return to the system start step (a), and when the failure to the Ethernet module is restored (Y branch of S118), After performing the step (S119) of transmitting an Ethernet module recovery completion message to the other wireless bridges informing that the recovery of the failure occurred in one's own Ethernet module has been completed, the failure occurrence and recovery status of other wireless bridges are sequentially checked (S113, S114) Thus, the operation branch is determined to return to either the initial connection confirmation step (b) or the self-recovery starting step (c) according to the check result. Also at this time, the step of checking whether an Ethernet module failure message of the other wireless bridge is received from the other wireless bridge (S113), after waiting for the time of the second user-defined time counter, the Ethernet module failure recovery message of the other wireless bridge from the other wireless bridge By sequentially performing the step (S114) of confirming whether or not is received, an Ethernet module failure message is not received from another wireless bridge (N branch of S113) or an Ethernet module failure message of another wireless bridge is received from another wireless bridge. Even if is received, if a message indicating that the corresponding failure has been recovered is received from another wireless bridge (branch Y of S114), the operation branch is determined to return to the self-recovery start step (c). On the other hand, if the failure recovery message is not received (branch N of S114) in the state that the error message of the Ethernet module of the other wireless bridge is received from the other wireless bridge (branch Y of S113), the initial connection confirmation step (b) Determine the operating branch to return to .

Finally, in the self-recovery process step (d), 4) if both the wireless module and the Ethernet module fail (Y branch of S112), it is determined that there is a failure in each hardware of the wireless module and the Ethernet module, and the system starts immediately ( Determine the branch of operation to return to a).

According to the present invention, both the wireless direction and the Ethernet direction are checked to check whether the wireless module and the Ethernet module are operating normally, and then the fault recovery process is operated for the part where the problem occurs to recover, and if the recovery is not possible, the equipment or system is restored. Since it can be restarted, it is possible to prevent malfunction due to the target system check and target setting error by operating the failure recovery process first before the system or equipment restart process starts. Also, it is possible to wait for a certain amount of time by user definition at the start of the failure recovery process. It provides the advantage of maximally reducing the use of equipment resources by specifying the time.

In addition, according to the present invention, by checking the device itself, such as a wireless module or an Ethernet module, if there is no problem, the system or the device restart process does not operate, thereby providing the advantage of enabling the efficient operation and management of the device.

As described above, although the present invention has been described with reference to limited embodiments and drawings, the present invention is not limited to the above embodiments, and is not limited to using only a single or separate supply pipe and hydraulic pressure, which is the present invention. Various modifications and variations are possible from these descriptions by those of ordinary skill in the art. Accordingly, the spirit of the present invention should be understood only by the claims set forth below, and all equivalents or equivalent modifications thereof will fall within the scope of the spirit of the present invention.

10: wireless bridge 1 20: wireless bridge 2

Claims (11)

delete A method for self-healing a gateway by a wireless bridge in a wireless network system including a plurality of wireless bridges connecting wired/wireless networks, the method comprising:
(a) After booting and initializing the system by executing the startup process, the user-defined first user-defined time for loading and connecting a plurality of target system setting values defined by the user, and waiting for a check of the plurality of target systems a system start step of starting the counter to perform initial settings;
(b) an initial connection check step of checking a plurality of target systems while waiting for the time of the first user-defined time counter started in the system start step to check whether each target system responds normally;
(c) When it is confirmed whether each target system responds normally in the initial connection confirmation step, the self-recovery process is executed and each target system is checked after waiting for the time of the second user-defined time counter defined by the user to wait for self-recovery. Self-recovery starting step of receiving a response signal; and
(d) In the self-recovery start step, it is determined whether a failure has occurred in each target system checked and received, and the failure recovery or failure to the Ethernet module of another wireless bridge and whether the failure is recovered is checked according to the determination result. and a self-recovery processing step of returning to any one of the system starting step (a) or the initial connection confirmation step (b) or self-recovery starting step (c).
A plurality of target system setting values of the system starting step (a) are,
Includes setting values for each of the wireless module in the wireless link direction and the Ethernet module in the wired link direction,
The self-healing process step (d),
If there is a failure in the wireless module, self-recovery is attempted by checking the failed wireless module In the wireless bridge of a wireless network system, characterized in that it returns to the self-recovery start step (c) when the failure recovery complete message is received even if the Ethernet module failure message of the bridge is not received or a failure message is received. Gateway self-healing method. delete delete delete delete delete According to claim 2, wherein the self-healing process step (d),
If there is a failure in the wireless module, self-recovery is attempted by checking the failed wireless module A gateway self-recovery method by a wireless bridge in a wireless network system, comprising returning to the initial connection check step (b) if the failure recovery complete message is not received while receiving the Ethernet module failure message from the bridge. According to claim 2, wherein the self-healing process step (d),
If there is a failure in the Ethernet module After sending a message notifying that there is a failure in the Ethernet module to another wireless bridge, check the failed Ethernet module and attempt self-recovery. A gateway self-recovery method by a wireless bridge in a wireless network system, characterized in that it immediately returns to the system starting step (a). According to claim 2, wherein the self-healing process step (d),
If there is a failure in the Ethernet module, it sends a message notifying that there is a failure in the Ethernet module to other wireless bridges, checks the failed Ethernet module and attempts self-recovery. After sending the Ethernet module recovery complete message to the other wireless bridge indicating that the failure occurred in the Ethernet module of the network has been restored, check whether the other wireless bridge has received the Ethernet module failure message and check whether the other wireless bridge has received the Ethernet module failure message. A wireless network system, characterized in that it returns to the self-recovery start step (c) if the error recovery complete message is received even if the Ethernet module failure message of another wireless bridge is not received after checking Gateway self-healing method by wireless bridge of According to claim 2, wherein the self-healing process step (d),
If there is a failure in the Ethernet module, it sends a message notifying that there is a failure in the Ethernet module to other wireless bridges, checks the failed Ethernet module and attempts self-recovery. After sending an Ethernet module recovery complete message indicating that the failure occurred in the Ethernet module of the other wireless bridge has been recovered, the other wireless bridge has received the Ethernet module failure message by checking whether the other wireless bridge has received the Ethernet module failure message. If the failure recovery complete message is not received in the , the gateway self-recovery method by the wireless bridge of the wireless network system, characterized in that returning to the initial connection confirmation step (b).

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