KR20220064605A - Non-stop data transmission system and method in heterogeneous multiple networks - Google Patents

Abstract

According to the present invention, a non-stop data transmission system in heterogeneous multiple networks comprises: a transmission device transmitting data; a plurality of heterogeneous networks; and a control device controlling network conversion by identifying state information of a reception device receiving data and each network. When a fault occurs, the present invention performs automatic network conversion to bypass networks.

Description

Non-stop data transmission system and method in heterogeneous multiple networks

The present invention relates to an uninterrupted data transmission system in a heterogeneous multi-network, and more particularly, to a system for automatically and reliably switching to another network in a multi-network configuration without interruption or delay.

When a normal service is difficult due to a failure in one network, multiple networks such as a double network or a backup network that bypass the network path can be built to provide services through an alternative route.

Multiple networks can be configured in the same type, and heterogeneous networks such as wired Internet, wireless, or satellite networks are used to transmit data through a specific network during normal times, and when the corresponding network fails, the network is switched to manual switchover, etc. do.

In the conventional network conversion, it is difficult to check the network status by managing the transmission path and channel information, so after recognizing the occurrence of a failure, an appropriate route is selected by reflecting this, and the conversion to the selected network is performed manually. There is a problem in that the efficiency of using network resources is lowered due to physical disconnection and time delay.

Korean Patent Registration No. 10-0353800

In order to solve the above problems, the present invention is to provide a system and method for reliably switching to another network without interruption in a multiple network configuration.

An uninterrupted data transmission system in a heterogeneous multi-network according to the present invention for the problems to be solved above includes: a transmitting device for transmitting data; a plurality of heterogeneous networks; Including a receiving device for receiving data and a control device for controlling network switching by identifying status information of each network, automatic network switching to a detour network is performed when a failure occurs.

The heterogeneous multi-network is characterized in that it includes an Internet network, a microwave network, and a satellite network having different frequencies or bandwidths.

The control device may further include a GPS receiver configured to receive time information from GPS satellites and transmit a synchronization signal according to an NTP (Network Time Protocol) standard to the transmitter and receiver for synchronization.

Through mutual communication with the network transmitter/receiver, the status of each network transmitter/receiver is checked in real time, the settings of the network transmitter/receiver are changed, and an alarm event generated by a specific network transmitter/receiver is displayed to link the network. It characterized in that it further comprises a monitoring server that informs the failure status of the.

As another embodiment of the present invention, a data transmission method using a non-interruptible data transmission system in a heterogeneous multiple network includes the steps of: connecting to each network device through a multiple network interface in a transmitting device; connecting the receiving device to each network device through multiple network interfaces; The transmitting/receiving device includes: sharing status information of multiple network interfaces connected to each other through in-band and out-band interfaces; transmitting status information of multiple network interfaces through an out-band interface between the transmitting/receiving device and the control device; When all heterogeneous networks are normal, the transmitting device transmits only a specific network interface among multiple network interfaces, or distributes and transmits data to all normal network interfaces; Distributing and transmitting data to a specific network interface or all normal network interfaces among the remaining normal networks when a failure of a specific line among multiple network interfaces occurs in the transmitter; It characterized in that it comprises the steps of receiving data to the remaining normal network when a failure of one line of the multiple network interfaces in the receiving device and transmitting data received through the multiple network interfaces in the receiving device by combining the data for each destination.

The present invention secures accurate state information for each network in a multiple network configuration, and can switch to another network without interruption to increase reliability and improve the efficiency of using network resources.

In addition, the present invention can reduce the physical disconnection and time delay of data transfer compared to manual switching.

In addition, it is possible to overcome the manpower and regional limitations for maintenance, and it is possible to efficiently use all resources outside the limited bandwidth limitation of a specific network of the network.

1 is an exemplary diagram of a multi-network according to the present invention.
2 is an embodiment of network switching in a multi-network according to the present invention.
3 is a flowchart of data transmission in a multi-network according to the present invention.

Hereinafter, with reference to specific examples and drawings for the practice of the present invention will be described. The embodiment of the present invention is intended to explain one invention, and the scope of rights is not limited to the illustrated embodiment, and the illustrated drawings are limited to the drawings because only the essential content is enlarged and illustrated for clarity of the invention and incidental elements are omitted should not be interpreted as such.

The present invention is a system that automatically switches to a detour network or a backup network without interruption or delay when transmission is delayed due to a failure or traffic concentration in the primary network in a multiple network configuration. make a switch

1 is a diagram illustrating a multi-network according to the present invention, and is composed of a transmitter, a plurality of networks, and a receiver. As a heterogeneous network of a plurality of multiple networks, it may be an IP network (Internet network), a microwave network (wireless network), a satellite network, and the like. Since heterogeneous networks have different frequencies or bandwidths, sharing of status information is important.

The state information of each network is grasped from the transmitting device and the receiving device through the control device, and network switching is automatically performed as shown in FIG. 2 .

The control device further includes a GPS receiver that receives time information from GPS satellites and transmits a synchronization signal according to an NTP (Network Time Protocol) standard to the transmitter and receiver for synchronization.

Through mutual communication with the network transmitter/receiver, the status of each network transmitter/receiver is checked in real time, the settings of the network transmitter/receiver are changed, and an alarm event generated by a specific network transmitter/receiver is displayed to link the network. It may further include a monitoring server that informs the failure status of the.

3 is a flowchart of non-interruptible data transmission in a heterogeneous multi-network, and the transmission method is as follows.

1) Step of connecting with each network device through multiple network interfaces (eg E1, STM-1, Ethernet) in the sending device

2) Step of connecting with each network device through multiple network interfaces (eg E1, STM-1, Ethernet) in the receiving device

3) Transmitting/receiving device sharing status information of multiple network interfaces connected to each other through in-band and out-band interfaces

In this case, the in-band interface transfers not only the interface but also the status information of other connected networks in duplicate to improve immediacy and reliability, and to secure stability.

4) Transmitting the status information of multiple network interfaces through the out-band interface between the transmitting/receiving device and the control device

5) When all networks are normal, the transmitting device transmits data only to a specific network interface among multiple network interfaces or distributes data to all normal network interfaces according to the user's selection.

6) Distributed and transmitted data to a specific network interface or all normal network interfaces among the remaining normal networks when a specific line failure occurs among multiple network interfaces in the transmitter

7) Step of receiving data from the receiving device to the rest of the normal network when one of the multiple network interfaces fails

8) A step of transmitting data received through multiple network interfaces in a receiving device by combining it for each destination

According to the present invention, a data transfer amount can be adjusted according to the state of the network and the transfer state between transmitting and receiving devices located at both ends of the network and distributed transmission can be performed.

In addition, according to the priority of data, a network to be transmitted can be selected or a user's transmission amount can be adjusted.

Claims (5)

a transmitter for transmitting data;
a plurality of heterogeneous networks;
a receiving device for receiving data; and
Including a control device to control network switching by grasping the status information of each network,
Non-disruptive data transmission system in heterogeneous multi-network, characterized in that automatic network switching to a detour network is performed in case of failure. According to claim 1,
The heterogeneous multiple network is a non-interruptible data transmission system in a heterogeneous multiple network, characterized in that it includes an Internet network, a microwave network, and a satellite network having different frequencies or bandwidths. According to claim 1,
The control device may further include a GPS receiver configured to receive time information from GPS satellites and transmit a synchronization signal according to the NTP (Network Time Protocol) standard to the transmitter and receiver to synchronize them. uninterrupted data transmission system. According to claim 1,
Through mutual communication with the network transmitter/receiver, the status of each network transmitter/receiver is checked in real time, the settings of the network transmitter/receiver are changed, and an alarm event generated by a specific network transmitter/receiver is displayed to link the network. Non-disruptive data transmission system in heterogeneous multi-network, characterized in that it further comprises a monitoring server that informs the failure status of the. The data transmission method using the non-interruptible data transmission system in the heterogeneous multi-network of claim 1,
connecting the transmitting device to each network device through multiple network interfaces;
connecting the receiving device to each network device through multiple network interfaces;
The transmitting/receiving device includes: sharing status information of multiple network interfaces connected to each other through in-band and out-band interfaces;
transmitting status information of multiple network interfaces through an out-band interface between the transmitting/receiving device and the control device;
When all heterogeneous networks are normal, the transmitting device transmits only a specific network interface among multiple network interfaces, or distributes and transmits data to all normal network interfaces;
Distributing and transmitting data to a specific network interface or all normal network interfaces among the remaining normal networks when a failure of a specific line among multiple network interfaces occurs in the transmitter;
Receiving data from the receiving device to the rest of the normal network when one of the multiple network interfaces fails, and
Non-disruptive data transmission method in a heterogeneous multi-network, comprising the step of transmitting data received through a multi-network interface in a receiving device by combining the data by destination.

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