KR101475179B1 - The converter of wireless network switch based on ICMP and the method for conversion - Google Patents

Abstract

The present invention relates to an Internet control message protocol (ICMP)-based wireless network switching system and a method thereof and, more particularly, to a scheme of performing communication by switching from an active port to a standby port or from the standby port to the active port according to a connection state of a port in a wireless terminal connected to the active port and the standby port. To this end, the ICMP-based wireless network switching system comprises a transmission terminal transmitting an acknowledge request message, a transmission end duplex switch transmitting the acknowledge request message transmitted from the transmission terminal to any one among at least two reception terminals by way of a wireless communication network, a reception terminal receiving the acknowledge request message transmitted from the transmission end duplex switch, a hub transmitting the acknowledge request message received from the reception terminal, and a reception server receiving the acknowledge request message from the hub and transmitting an acknowledge response message corresponding to the acknowledge request message.

Description

Technical Field [0001] The present invention relates to a wireless network switch switching system and method based on ISIP,

The present invention relates to a system and method for switching a wireless network switch based on ICMP, and more particularly, to a system and method for switching an active port to a standby port in accordance with a connection state of a port connected to an active port / And a method for performing communication.

Generally, a hub is a communication connection device used for connecting a plurality of devices in a communication network. In an ARC network, a hub is used to connect several computers. In MHS, a hub is used to transmit messages through a communication network.

In addition, users who do not have their own information communication networks are using virtual private networks (VPNs) that can directly manage and manage them as if they are constructed by individuals using public data communication networks. Currently, Is used as a network solution for establishing a wide area network (WAN) at a much lower cost than renting a dedicated line, which is one of communication means for connecting the head office and a branch office or a branch office using the Internet instead of a dedicated line.

Korean Patent Laid-Open Publication No. 2001-0013741 (entitled " Dual IP Switch Hub and Network System Using the Same ") discloses an Ethernet controller that controls transmission / reception data of internal and external networks and includes a memory, And an Ethernet controller and a transceiver for controlling transmission / reception data between the CPU and the computer, and a transceiver.

Korean Patent Laid-Open No. 2001-0039103 discloses a network switch for switching to a predetermined one of an external network and an internal network such as the Internet, An Ethernet controller for analyzing an Ethernet signal of the Ethernet signal analysis and switching signal output unit and performing an intercommunication function, and an Ethernet controller for supplying a clock pulse to the Ethernet controller, A filter unit for removing noise and the like generated in the LAN cable and relaying a signal generated in the network cable to the Ethernet controller, a communication unit for supporting communication between the computer and the network switch, Network site A microcomputer for reading and storing the functions of the components, and a microcomputer for transmitting data contents to the Ethernet signal analysis and switching signal output unit, (Boot ROM), a display unit for switching the network, and a switch for switching the connection unit.

Various network switches have been proposed in the past, but there are various problems in applying to the actual environment. In particular, there is a need for a method capable of transmitting data without interruption from a server performing communication in a wireless environment to a wireless subscriber.

A problem to be solved by the present invention is to transmit data from a transmitting end to a receiving end without interruption.

Another problem to be solved by the present invention is to transmit data from a transmitting end to a receiving end without interruption by using at least two data transmission ports.

To this end, the wireless network switchover system based on the ISIP of the present invention includes a transmitting terminal for transmitting an acknowledgment request message, a transmitting terminal for transmitting an acknowledgment request message transmitted from the transmitting terminal to one of at least two receiving terminals via a wireless communication network A receiving terminal for receiving an acknowledgment request message transmitted from the transmitting terminal duplication switch, a hub for transmitting an acknowledgment request message received from the receiving terminal, a receiving server for receiving an acknowledgment request message from the hub, And a receiving server for transmitting an acknowledgment message corresponding to the confirmation request message.

To this end, the wireless network switchover system based on the ISIP of the present invention comprises a transmitting terminal for transmitting an acknowledgment request message, a wired / wireless connection board for transmitting an acknowledgment request message transmitted by the transmitting terminal via a wireless communication network, And a receiving server for receiving an acknowledgment request message from the receiving end duplicated switch and transmitting an acknowledgment message corresponding to the acknowledgment request message, The receiving end duplicating switch includes a wireless active port connected to the wired / wireless connection board, a wireless standby port connected to the wired / wireless connection board, and a connection board connected to the wireless active port or the wireless standby port, / Wireless connection board is transmitted from the transmitting terminal Shinhan transmits the confirmation request message to one of the ports of the radio active port or the wireless standby port.

To this end, the wireless network switch switching system based on the ISIPP of the present invention includes a transmitting terminal for transmitting an acknowledgment request message, a transmitting-end redundant switch for transmitting an acknowledgment request message transmitted by the transmitting terminal via a wireless communication network, And a receiving server for receiving an acknowledgment request message from the receiving terminal duplicating switch and transmitting an acknowledgment message corresponding to the acknowledgment request message, wherein the transmitting terminal duplicating switch comprises: A wireless active port connected to the wired / wireless connection board, and a wireless standby port connected to the wired / wireless connection board, wherein the wireless / The board is connected to the transmitting terminal And a receiving end duplication switch connected to a wireless standby port of a wireless active port of the transmission end duplication switch or a wireless standby port of the transmission end duplication switch, wherein the reception end duplication switch is connected to one of the wireless active port and the wireless standby port, The wireless standby port of the receiving-end duplicating switch connected to the wireless standby port of the wireless active port of the transmitting-end duplicating switch or the transmitting-end duplicating switch, the wireless standby port of the receiving-end duplicating switch or the wireless standby port of the receiving- And a connection board to be connected.

The system and method for switching wireless network switches based on ISIP according to the present invention transmit data from a transmitter to a receiver without interruption. That is, if a transmission error occurs during data transmission to the wireless active port, the transmission path is switched to the wireless standby port, and data is transmitted using the wireless standby port, thereby transferring data from the transmitting end to the receiving end without interruption.

In addition, when data transmission path is switched more than a certain number of times to wireless active port and wireless standby port to prevent frequent path switching to wireless active port and wireless standby port due to data transmission error, It is possible to increase the data transmission efficiency by waiting until the transmission state of the wireless active port is improved without switching.

1 illustrates a wireless network switch switching system according to an embodiment of the present invention.
2 is a diagram illustrating an internal configuration of a redundant switch according to an embodiment of the present invention.
3 is a flowchart illustrating an operation performed in a wireless network switch switching system according to an embodiment of the present invention.
4 illustrates a wireless network switch switching system according to another embodiment of the present invention.
5 is a flowchart illustrating an operation performed in a wireless network switch switching system according to an embodiment of the present invention.
6 illustrates a wireless network switch switching system according to another embodiment of the present invention.
FIG. 7 illustrates a wireless network switch switching system according to another embodiment of the present invention.

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 Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

1 illustrates a wireless network switch switching system according to an embodiment of the present invention. Hereinafter, a wireless network switching system according to an embodiment of the present invention will be described in detail with reference to FIG.

Referring to FIG. 1, the wireless network switch switching system includes a transmitting terminal, a transmitting terminal duplicating switch, a first receiving terminal, a second receiving terminal, a hub, and a receiving server. Of course, other configurations than the above-described configuration may be included in the wireless network switch switching system proposed by the present invention.

The transmitting terminal 110 transmits an acknowledgment request message to the receiving server 150 to confirm the ICMP.

The transmitting end duplication switch 120 includes a wired / wireless connection board, a wireless active (active) port, and a wireless standby (standby) port. Of course, other configurations other than the above-described configuration may be included in the redundant switch proposed in the present invention.

One side of the wired / wireless connection board is connected to the transmitting terminal 110 using a wired connection board when the transmitting terminal is a wired terminal. When the transmitting terminal is a wireless terminal, Lt; / RTI >

The other side of the wired / wireless connection board is connected to the wireless active port and the wireless standby port. The other side of the wired / wireless connection board maintains connection with both the wireless active port and the wireless standby port. However, the other side of the wired / wireless access board transmits an acknowledgment request message using only one of the wireless active port and the wireless standby port.

The wireless active port transmits a confirmation request message provided from the wired / wireless connection board to the first receiving terminal 130-1. The wireless standby port transmits to the second receiving terminal 130-2 a confirmation request message provided from the wired / wireless connection board.

The hub 140 transmits an acknowledgment request message received by the first receiving terminal 130-1 or the second receiving terminal 130-2 to the receiving server 150. [ The reception server 150 transmits an acknowledgment message corresponding to the received confirmation request message to the first reception terminal 130-1 or the second reception terminal 130-2 To the terminal. The first receiving terminal 130-1 transmits the received acknowledgment message to the wireless active port, and the second receiving terminal 130-2 transmits the received acknowledgment message to the wireless standby port.

Thus, the receiving terminal of the present invention transmits an acknowledgment message corresponding to the received acknowledgment message. Also, only one of the receiving terminals of at least two receiving terminals receives an acknowledgment request message, and the acknowledgment message is also transmitted by one of the receiving terminals. That is, when the communication state between the wireless active port and the first receiving terminal 130-1 is not good, a confirmation request message and an acknowledgment message are transmitted using the communication network between the wireless standby port and the second receiving terminal 130-2 And confirms the communication state between the wireless standby port and the second receiving terminal 130-2.

2 is a diagram illustrating an internal configuration of a redundant switch according to an embodiment of the present invention. Hereinafter, an internal configuration of the redundant switch according to an embodiment of the present invention will be described in detail with reference to FIG.

Referring to FIG. 2, the redundant switch includes a wired / wireless connection board, a wireless active port, and a wireless standby port. As described above, the redundant switch may include other configurations than the above-described configuration.

One side of the wired / wireless connection board 210 forms at least two wired ports connecting a wireless port connecting a wireless transmitting terminal, which is a wireless user terminal, and a wired transmitting terminal, which is a wired user terminal. 2, the wired / wireless connection board 210 includes first to fifth wired ports and one wireless port, but is not limited thereto. That is, the number of the wired port and the number of the wireless port may be changed according to the user's setting.

The other side of the wired / wireless connection board 210 is connected to the wireless active port 220 and the wireless standby port 230.

3 is a flowchart illustrating an operation performed in a wireless network switch switching system according to an embodiment of the present invention. Hereinafter, an operation performed in the wireless network switch switching system according to an embodiment of the present invention will be described in detail with reference to FIG. Particularly, FIG. 3 shows the operation performed in the redundant switch.

In step S300, the duplicating switch transmits an acknowledgment request message from the wireless active port to the receiving server.

In step S310, the redundancy switch is terminated when an acknowledgment message corresponding to the acknowledgment request message is received. If the acknowledgment message is not received, the redundant switch switches from the wireless active port to the wireless standby port. Of course, in this case, the wired / wireless access board physically maintains connection with both the wireless active port and the wireless standby port, and blocks data transmission to the wireless standby port so that the confirmation request message can be transmitted to the wireless active port .

Also, the duplicating switch may go to step S300 and repeat the process of transmitting an acknowledgment request message from the wireless active port to the first receiving terminal a predetermined number of times. That is, since the connection state between the wireless active port and the first receiving terminal may be temporarily bad, the wireless active port may transmit the confirmation request message to the first receiving terminal repeatedly at least twice or three times.

In step S320, the duplex switch transmits an acknowledgment request message to the reception server using the wireless standby port.

4 illustrates a wireless network switch switching system according to another embodiment of the present invention. Hereinafter, a wireless network switching system according to another embodiment of the present invention will be described in detail with reference to FIG.

Referring to FIG. 4, the wireless network switch switching system includes a transmitting terminal, a transmitting terminal duplicating switch, a first receiving terminal, a second receiving terminal, a hub, a first receiving server, and a second receiving server. Of course, other configurations than the above-described configuration may be included in the wireless network switch switching system proposed by the present invention.

The transmitting terminal 410 transmits an acknowledgment request message for confirming ICMP to the receiving servers 450-1 and 450-2.

Transmitter redundancy switch 420 includes a wired / wireless connection board, a wireless active (active) port, and a wireless standby (standby) port. Of course, other configurations other than the above-described configuration may be included in the redundant switch proposed in the present invention.

One side of the wired / wireless connection board is connected to the transmitting terminal using a wired connection board when the transmitting terminal is a wired terminal, and is connected to the transmitting terminal using a wireless connection board when the transmitting terminal is a wireless terminal.

The other side of the wired / wireless connection board is connected to the wireless active port and the wireless standby port. The other side of the wired / wireless connection board maintains connection with both the wireless active port and the wireless standby port. However, the other side of the wired / wireless access board transmits an acknowledgment request message using only one of the wireless active port and the wireless standby port.

The wireless active port transmits a confirmation request message provided from the wired / wireless connection board to the first receiving terminal 430-1. The wireless standby port transmits a confirmation request message provided from the wired / wireless connection board to the second receiving terminal 430-2.

The hub 440 transmits an acknowledgment request message received by the first receiving terminal 430-1 or the second receiving terminal 430-2 to the first receiving server 450-1 or the second receiving server 450-2, Lt; / RTI > The first receiving server 450-1 or the second receiving server 450-2 transmits an acknowledgment message corresponding to the received acknowledgment request message to the first receiving terminal 450 via the hub 440, To the receiving terminal of either the first receiving terminal 430-1 or the second receiving terminal 430-2. The first receiving terminal 430-1 transmits the received acknowledgment message to the wireless active port, and the second receiving terminal 430-2 transmits the received acknowledgment message to the wireless standby port.

5 is a flowchart illustrating an operation performed in a wireless network switch switching system according to an embodiment of the present invention. Hereinafter, an operation performed in the wireless network switch switching system according to an embodiment of the present invention will be described in detail with reference to FIG. In particular, Figure 5 illustrates the operations performed on the redundant switch.

In step S500, the duplex switch transmits an acknowledgment request message to the first receiving server via the first receiving terminal in the wireless active port.

In step S510, the duplicating switch is terminated when an acknowledgment message corresponding to the acknowledgment request message is received. If the acknowledgment message is not received, the wireless active port transmits an acknowledgment request message to the second receiving server via the first receiving terminal do.

In step S520, the duplex switch is terminated when an acknowledgment message corresponding to the acknowledgment request message is received from the second receiving server. If the acknowledgment message is not received, the duplex switch proceeds to step S530. Of course, the duplicating switch may go to step S500 and repeat the process of transmitting the confirmation request message from the wireless active port to the first receiving terminal a predetermined number of times. That is, since the connection state between the wireless active port and the first receiving terminal may be temporarily bad, the wireless active port may transmit the confirmation request message to the first receiving terminal repeatedly at least twice or three times.

In step S530, the redundant switch switches the port connected to the wired / wireless connection board from the wireless active port to the wireless standby port. Of course, in this case, the wired / wireless access board physically maintains connection with both the wireless active port and the wireless standby port, and blocks data transmission to the wireless active port so that the confirmation request message can be transmitted to the wireless standby port .

At the S540 terminal, the duplex switch transmits an acknowledgment request message from the wireless standby port to the first receiving server via the second receiving terminal.

In step S550, the redundancy switch is terminated when an acknowledgment message corresponding to the acknowledgment request message is received. If the acknowledgment message is not received, the redundant switch transmits an acknowledgment request message from the wireless standby port to the second receiving server via the second receiving terminal do.

In step S560, the duplicating switch is terminated when an acknowledgment message corresponding to the acknowledgment request message is received from the second receiving server. If the acknowledgment message is not received, the duplicating switch proceeds to step S570. Of course, the duplicating switch may go to step S540 and repeat the process of transmitting the confirmation request message from the wireless standby port to the second receiving terminal a predetermined number of times. That is, since the connection state between the wireless standby port and the second receiving terminal may be temporarily bad, the wireless standby port may transmit the confirmation request message to the second receiving terminal at least twice or three times.

In step S570, the redundant switch switches the port connected to the wired / wireless connection board from the wireless standby port to the wireless active port. Of course, in this case, the wired / wireless access board physically maintains connection with both the wireless active port and the wireless standby port, and blocks data transmission to the wireless standby port so that the confirmation request message can be transmitted to the wireless active port .

As described above, the present invention transmits an acknowledgment request message to any one of the receiving end terminals using any one of the wireless active port and the wireless standby port. When the number of times of switching between the wireless active port and the wireless standby port reaches the set number of times, the wireless active port no longer switches from the wireless active port to the wireless standby port and transmits a confirmation request message to the first receiving terminal using the wireless active port do. That is, when the communication state between the wireless active port and the first receiving terminal and the communication state between the wireless standby port and the second receiving terminal are not good, communication is performed using the wireless active port and the first receiving terminal.

6 illustrates a wireless network switch switching system according to another embodiment of the present invention. Hereinafter, a wireless network switching system according to another embodiment of the present invention will be described in detail with reference to FIG.

Referring to FIG. 6, the wireless network switch switching system includes a transmitting terminal, a wired / wireless connection board, a receiving-end duplex switch, and a receiving server. Of course, other configurations than the above-described configuration may be included in the wireless network switch switching system proposed by the present invention.

The transmitting terminal 610 transmits an acknowledgment request message for confirming the ICMP to the receiving server 640.

The wired / wireless connection board 620 transmits an acknowledgment request message provided from the transmitting terminal 610 to the receiving end duplication switch 630.

The receiving end duplication switch 630 includes a connection board, a wireless active (active) port, and a wireless standby (standby) port. Of course, other configurations other than the above-described configuration may be included in the receiving-end duplication switch 630 proposed in the present invention.

One side of the connection board is connected to the receiving server 640. The other side of the connection board is connected to the wireless active port and the wireless standby port. The other side of the connection board maintains connection with both the wireless active port and the wireless standby port. However, the other side of the connection board receives the confirmation request message using only one of the wireless active port and the wireless standby port.

The wireless active port transmits the confirmation request message provided from the transmission to the connection board. The wireless standby port transmits the confirmation request message provided from the transmission to the connection board.

The connection board transmits an acknowledgment message received from the wireless active port or the wireless standby port to the receiving server 640. Of course, the access board transmits an acknowledgment request message to any one of the receiving servers when there are at least two receiving servers.

When the confirmation request message is not received from the wireless active port, the connection board switches the connection terminal to the wireless standby port and confirms whether the confirmation request message is received. Of course, as described above, the connection board, the wireless active port, the connection board and the wireless standby port are kept physically connected to each other, and only under control of the connection board whether or not data (messages) are transmitted or received.

FIG. 7 illustrates a wireless network switch switching system according to another embodiment of the present invention. Hereinafter, a wireless network switching system according to another embodiment of the present invention will be described in detail with reference to FIG.

Referring to FIG. 7, the wireless network switch switching system includes a transmitting terminal, a transmitting-end duplicating switch, a receiving-end duplicating switch, and a receiving server. Of course, other configurations than the above-described configuration may be included in the wireless network switch switching system proposed by the present invention.

The transmitting terminal 710 transmits an acknowledgment request message for confirming the ICMP to the receiving server 740.

The transmitting end duplication switch 720 includes a wired / wireless connection board, a wireless active (active) port, and a wireless standby (standby) port. Of course, other configurations than the above-described configuration may be included in the transmission-side duplex switch proposed by the present invention.

One side of the wired / wireless connection board is connected to the transmitting terminal using the wired connection board when the transmitting terminal 710 is a wired terminal, and is connected to the transmitting terminal using the wireless connection board when the transmitting terminal is a wireless terminal .

The other side of the wired / wireless connection board is connected to the wireless active port and the wireless standby port. The other side of the wired / wireless connection board maintains connection with both the wireless active port and the wireless standby port. However, the other side of the wired / wireless access board transmits an acknowledgment request message using only one of the wireless active port and the wireless standby port.

The wireless active port transmits an acknowledgment request message provided from the wired / wireless connection board to the receiving end duplication switch 730. The wireless standby port transmits an acknowledgment request message provided from the wired / wireless connection board to the receiving end duplication switch 730.

The receiving end redundant switch includes a connection board, a wireless active (active) port, and a wireless standby (standby) port.

One side of the connection board is connected to the reception server 740. The other side of the connection board is connected to the wireless active port and the wireless standby port. The other side of the connection board maintains connection with both the wireless active port and the wireless standby port. However, the other side of the connection board receives the confirmation request message transmitted from the transmission using only one port of the wireless active port and the wireless standby port.

The wireless active port transmits a confirmation request message provided from the transmitting end to the connection board. The wireless standby port transmits the confirmation request message provided by the transmitting terminal to the connection board.

The connection board transmits an acknowledgment message received from the wireless active port or the wireless standby port to the reception server 740. Of course, the connection board transmits to at least one receiving server 740 when there are at least two receiving servers.

In this manner, the receiving server of the present invention transmits an acknowledgment message corresponding to the received acknowledgment message. Also, any of the receiving servers of at least two receiving servers receives the acknowledgment request message, and the acknowledgment message is also transmitted by any of the receiving servers.

In addition, if the confirmation request message is not received, the receiving end switches the port connected to the connection board to either the wireless active port or the wireless standby port under the control of the connection board. When the acknowledgment message is not received, the transmitter also switches the port connected to the wired / wireless connection board to either the wireless active port or the wireless standby port under control of the wired / wireless connection board.

In this case, the period of switching at the transmitting end and the period of switching at the receiving end may be set differently from each other. That is, the transmitting terminal may be configured differently depending on the type of transmitting the confirmation request message.

That is, if the transmitting end transmits the confirmation request message in the order of the first receiving server in the wireless active port, the first receiving server in the wireless standby port, the second receiving server in the wireless active port, and the second receiving server in the wireless standby port, The switching period and the switching period at the receiving end are set to be the same. If the transmitting end transmits the confirmation request message in the order of the first receiving server in the wireless active port, the second receiving server in the wireless active port, the first receiving server in the wireless standby port, and the second receiving server in the wireless standby port, The period for switching and the period for switching at the receiving end are set differently. That is, the period of switching at the receiving end is set to be twice longer than the period of switching at the transmitting end.

Of course, it is possible to set differently between the cycle of switching from the transmitting end and the cycle of switching from the receiving end. In this case, the switching cycle is at least twice as long as the time from the transmission of the acknowledgment request message to the reception of the acknowledgment message To three times. That is, the transmitting end and the receiving end can transmit the confirmation request message and the acknowledgment message at least twice or three times within one switching period, thereby preventing frequent switching from the wireless active port to the wireless standby port.

As described above, the redundant switch includes a wired / wireless connection board, a wired connection board is used when the transmission terminal is wired, and a wireless connection board is used when the transmission terminal is wireless.

In this case, when an acknowledgment request message is received from at least two transmitting terminals via a wired / wireless connection board, the redundant switch uses the same transmission path regardless of the number of acknowledgment request messages, And transmits a confirmation request message. In this case, the confirmation request message includes the identifier of the transmitting terminal and identifies the transmitting terminal using the identifier.

That is, when the transmission path distinguished for each transmitting terminal is used, there is a disadvantage that it is difficult to confirm a transmission path having a good connection state.

Of course, when the duplication switch requests transmission of an acknowledgment request message from the second transmitting terminal after transmitting the acknowledgment request message transmitted from the first transmitting terminal, the duplicating switch checks the transmission request using the transmission path A request message can be transmitted. Also, the duplicating switch can wait for a predetermined period of time for transmission of the acknowledgment request message requested from the second transmitting terminal until an acknowledgment message corresponding to the acknowledgment request message transmitted from the first transmitting terminal is received. Thus, there is an advantage that the load due to unnecessary message transmission can be reduced.

If the acknowledgment message corresponding to the acknowledgment request message transmitted by the first transmitting terminal is not received, the duplicating switch transmits the acknowledgment request message requested by the second transmitting terminal using another transmission path. In this case, the transmission of the confirmation request message requested by the first transmission terminal is suspended. In this manner, when at least two transmitting terminals request transmission of an acknowledgment request message, the redundant switch alternately transmits an acknowledgment request message requested by each transmitting end until an acknowledgment message is received.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the scope of the present invention .

110, 410, 610, 710: transmitting terminal
120, 420: Transmitter redundancy switch
130-1, 430-1: a first receiving terminal
130-2, and 430-2:
140, 440: hub
150, 640, 740: receiving server
450-1: first receiving server 450-2: second receiving server
630, 730: Receiving-side duplex switch
210: wired / wireless connection board 220: wireless active port
230: Wireless standby port

Claims (9)

A transmitting terminal duplicating switch for transmitting an acknowledgment request message transmitted by a transmitting terminal to a receiving terminal of at least two receiving terminals via a wireless communication network;
A receiving terminal for receiving an acknowledgment request message transmitted from the transmitting terminal duplication switch;
A hub for transmitting an acknowledgment request message received from the receiving terminal;
And a receiving server for receiving an acknowledgment request message from the hub and transmitting an acknowledgment message corresponding to the acknowledgment request message,
The redundancy switch transmits the confirmation request message to the wireless standby port when the confirmation response message corresponding to the confirmation request message transmitted to the wireless active port is not received and transmits the confirmation request message to the wireless standby port when the number of times of switching from the wireless active port to the wireless standby port And stopping transmission of the confirmation request message to the wireless standby port when the number of times of switching from the wireless standby port to the wireless active port reaches the set number of times,
A switching period for switching between a wireless active port and a wireless standby port constituting the transmitting-end duplication switch is set differently according to a transmission path of the confirmation request message,
Wherein the switching period is at least two times longer than a time taken from the time of transmitting the acknowledgment request message to the time of receiving the acknowledgment message at the transmitting end.
2. The apparatus of claim 1, wherein the transmitting-
A wired / wireless connection board connected to the transmitting terminal by wire or wirelessly;
A wireless active port connected to the wired / wireless connection board;
And a wireless standby port connected to the wired / wireless connection board,
Wherein the wired / wireless access board transmits an acknowledgment request message received from the transmitting terminal to one of the port of the wireless active port or the wireless standby port.
3. The apparatus of claim 2, wherein the transmitting-
And transmits the confirmation request message to the wireless standby port if the confirmation response message corresponding to the confirmation request message transmitted to the wireless active port is not received.
3. The apparatus of claim 2, wherein the transmitting-
The mobile terminal repeatedly transmits the acknowledgment request message to the radio active port more frequently than the radio active port if an acknowledgment message corresponding to the acknowledgment request message is not received from the radio active port or the radio standby port to prevent a ping- Wireless Switch Switching System Based on.
3. The apparatus of claim 2, wherein the transmitting-
And a connection state enabling message transmission between the wireless active port and the wireless standby port is always maintained.
A wired / wireless connection board for transmitting an acknowledgment request message transmitted by a transmitting terminal via a wireless communication network;
A receiving end duplication switch for transmitting an acknowledgment request message received from the wired / wireless connection board;
And a receiving server for receiving an acknowledgment request message from the received redundant switch and receiving an acknowledgment message corresponding to the acknowledgment request message,
The receiving-
A wireless active port connected to the wired / wireless connection board;
A wireless standby port connected to the wired / wireless connection board;
And a connection board connected to the wireless active port or the wireless standby port,
Wherein the wired / wireless connection board transmits an acknowledgment request message received from the transmitting terminal to one of the wireless active port and the wireless standby port,
The receiving end duplication switch may switch the wireless standby port from the wireless active port to the wireless standby port if the confirmation request message transmitted from the wired / wireless access board is not received from the wireless active port, And stops the reception of the confirmation request message to the wireless standby port when the number of times of switching from the wireless standby port to the wireless active port reaches the set number of times,
A switching period for switching between a wireless active port and a wireless standby port constituting the receiving-end duplication switch is set differently according to a transmission path of the confirmation request message,
Wherein the switching period is at least two times longer than a time taken from the time of transmitting the acknowledgment request message to the time of receiving the acknowledgment message at the transmitting end.
A transmitting terminal for transmitting an acknowledgment request message;
A transmitting terminal duplicating switch for transmitting an acknowledgment request message transmitted by the transmitting terminal via a wireless communication network;
A receiving end duplicating switch for transmitting an acknowledgment request message received from the transmitting end duplicating switch;
And a receiving server for receiving an acknowledgment request message from the received redundant switch and receiving an acknowledgment message corresponding to the acknowledgment request message,
The transmitting-
A wired / wireless connection board connected to the transmitting terminal by wire or wirelessly;
A wireless active port connected to the wired / wireless connection board;
And a wireless standby port connected to the wired / wireless connection board,
Wherein the wired / wireless connection board transmits an acknowledgment request message received from the transmitting terminal to one of the wireless active port and the wireless standby port,
The receiving-
A wireless active port of a receiving-end duplex switch connected to a wireless standby port of the wireless active port of the transmitting-end duplicating switch or the transmitting-end duplicating switch;
A wireless standby port of a receiving-end duplex switch connected to a wireless standby port of the wireless active port of the transmitting-end duplicating switch or the transmitting-end duplicating switch;
And a connection board connected to the wireless active port of the receiving-end duplicating switch or the wireless standby port of the receiving-end duplicating switch,
If the acknowledgment message corresponding to the acknowledgment request message transmitted to the wireless active port is not received, the transmitting-end duplex switch switches the acknowledgment request message to the wireless standby port and transmits the acknowledgment message to the wireless standby port, And stopping the transmission of the confirmation request message to the wireless standby port when the number of times and the number of times of switching from the wireless standby port to the wireless active port reaches the set number,
The switching cycle for switching the wireless active port and the wireless standby port constituting the transmitting-end duplicating switch according to the transmission path of the confirmation request message is a switching cycle for switching the wireless active port and the wireless standby port constituting the receiving- Set differently,
Wherein the switching period is at least two times longer than a time taken from the time of transmitting the acknowledgment request message to the time of receiving the acknowledgment message at the transmitting end.
A transmitting terminal duplicating switch for transmitting an acknowledgment request message transmitted by a transmitting terminal via a wireless communication network;
A receiving end duplicating switch for transmitting an acknowledgment request message received from the transmitting end duplicating switch;
And a receiving server for receiving an acknowledgment request message from the received redundant switch and receiving an acknowledgment message corresponding to the acknowledgment request message,
The transmitting-
A wired / wireless connection board connected to the transmitting terminal by wire or wirelessly;
A wireless active port connected to the wired / wireless connection board;
And a wireless standby port connected to the wired / wireless connection board,
Wherein the wired / wireless connection board transmits an acknowledgment request message received from the transmitting terminal to one of the wireless active port and the wireless standby port,
The receiving-
A wireless active port of a receiving-end duplex switch connected to a wireless standby port of the wireless active port of the transmitting-end duplicating switch or the transmitting-end duplicating switch;
A wireless standby port of a receiving-end duplex switch connected to a wireless standby port of the wireless active port of the transmitting-end duplicating switch or the transmitting-end duplicating switch;
And a connection board connected to the wireless active port of the receiving-end duplicating switch or the wireless standby port of the receiving-end duplicating switch,
If the acknowledgment message corresponding to the acknowledgment request message transmitted to the wireless active port is not received, the transmitting-end duplex switch switches the acknowledgment request message to the wireless standby port and transmits the acknowledgment message to the wireless standby port, And stopping the transmission of the confirmation request message to the wireless standby port when the number of times and the number of times of switching from the wireless standby port to the wireless active port reaches the set number,
The switching cycle for switching the wireless active port and the wireless standby port constituting the transmitting-end duplicating switch according to the transmission path of the confirmation request message is a switching cycle for switching the wireless active port and the wireless standby port constituting the receiving- Set differently,
Wherein the switching period is at least two times longer than a time taken from the time of transmitting the acknowledgment request message to the time of receiving the acknowledgment message at the transmitting end.
A transmitting terminal duplicating switch for transmitting an acknowledgment request message transmitted by a transmitting terminal via a wireless communication network;
A receiving end duplicating switch for transmitting an acknowledgment request message received from the transmitting end duplicating switch;
And a receiving server for receiving an acknowledgment request message from the received redundant switch and receiving an acknowledgment message corresponding to the acknowledgment request message,
The transmitting-
A wired / wireless connection board connected to the transmitting terminal by wire or wirelessly;
A wireless active port connected to the wired / wireless connection board;
And a wireless standby port connected to the wired / wireless connection board,
The receiving-
A wireless active port of a receiving-end duplex switch connected to a wireless standby port of the wireless active port of the transmitting-end duplicating switch or the transmitting-end duplicating switch;
And a wireless standby port of a receiving-end duplex switch connected to a wireless standby port of the wireless active port of the transmitting-end duplicating switch or the transmitting-end duplicating switch,
If the acknowledgment message corresponding to the acknowledgment request message transmitted to the wireless active port is not received, the transmitting-end duplex switch switches the acknowledgment request message to the wireless standby port and transmits the acknowledgment message to the wireless standby port, And stopping the transmission of the confirmation request message to the wireless standby port when the number of times and the number of times of switching from the wireless standby port to the wireless active port reaches the set number,
The switching cycle for switching the wireless active port and the wireless standby port constituting the transmitting-end duplicating switch according to the transmission path of the confirmation request message is a switching cycle for switching the wireless active port and the wireless standby port constituting the receiving- Set differently,
Wherein the switching period is at least two times longer than a time taken from the time of transmitting the acknowledgment request message to the time of receiving the acknowledgment message at the transmitting end.

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