KR20120088302A - Router- control apparatus and method using wireless link status information - Google Patents

Abstract

PURPOSE: An apparatus and method for controlling a router using the state information of a wireless transmission link is provided to set an optimal routing route by recognizing the wireless state of the wireless transmission link in real time. CONSTITUTION: A line connection module(110) transmits and receives data by connecting to a wireless transmission apparatus(200). A router connection module(120) transmits and receives the data by connecting to a router(300). A control module(130) receives the state information of the wireless transmission link from the wireless transmission apparatus. The control module controls the data transmission and reception operation of the router connection module of the router according to the state information of the received wireless transmission link.

Description

Router control apparatus and method using status information of wireless transmission link {ROUTER-CONTROL APPARATUS AND METHOD USING WIRELESS LINK STATUS INFORMATION}

The present invention relates to a router control apparatus and method, and more particularly, to a router control apparatus and method using state information of a wireless transmission link.

In a conventional wireless network, wireless transmission devices that manage respective wireless cells are connected by wire. At this time, in the exchange of packet data, the existing wired network technology is operated as it is, and a router sets a route of the packet data.

However, a router of a mixed wired and wireless network does not monitor or receive information about the state of a wireless transmission link of a wireless transmission device. In the case of a radio transmission link, since many radio resources are occupied according to the amount of data, the state of the radio transmission link may change or worsen from time to time. However, there is a problem that a router interworking with a wireless transmission device cannot but establish a routing path without considering the state of the wireless transmission link at all.

In the case of the OSPF (open shortest path first) protocol, which is one of the routing algorithms used in the related art, a hello message reflecting a state of a neighbor router is received in order to recognize a failure of a radio station of a partner station. If there is no response for four times (40 seconds), the radio transmission link is only disconnected. Thus, there is a problem that all data packets are lost for about 40 seconds. In addition, it is impossible for a router to be aware of such a situation in real time, resulting in a situation where the radio transmission link has a high bit error rate (BER) or a larger amount of traffic than can be provided by the radio transmission link. In this case, there is a problem of data packet loss or delay.

It is an object of the present invention to provide a router control apparatus using state information of a wireless transmission link.

Another object of the present invention is to provide a routing control method using state information of a wireless transmission link.

The router control apparatus using the state information of the wireless transmission link according to the object of the present invention described above is a router control apparatus provided between a router and a wireless transmission apparatus to mutually transfer data, and interlocked with the wireless transmission apparatus to provide data. A line connection module for transmitting and receiving data, a router connection module for transmitting and receiving data in association with the router, and receiving status information of a wireless transmission link from the wireless transmission apparatus, It may be configured to include a control module for controlling the data transmission and reception operation of the router or the router access module. The status information of the wireless transmission link may be configured to be at least one of whether the wireless transmission link is disconnected, an error rate (BER), and an available bandwidth of the wireless transmission device. The control module may be configured to control the router connection module to disconnect a port according to whether the wireless transmission link is disconnected. The control module may be configured to control the router to change a routing cost function value or to change the operational available bandwidth of the router according to the error rate and the operational available bandwidth of the wireless transmission device. In this case, the control module may be configured to control the router to increase the routing cost function value when the error rate is increased, and to control the router to decrease the routing cost function value when the error rate is decreased. Can be. The control module controls the router to increase the operational available bandwidth of the router when the operational available bandwidth of the wireless transmission device increases, and when the operational available bandwidth of the wireless transmission device decreases. Can be configured to reduce the operational available bandwidth of the router.

According to another aspect of the present invention, a routing control method using state information of a wireless transmission link includes a router connection module interworking with a router and a line connection module interworking with a wireless transmission device, transmitting and receiving between the router and the wireless transmission device. Forwarding the data to each other, the control module receiving status information of a wireless transmission link from the wireless transmission device, and the control module using the status information of the received wireless transmission link to the router or the router. And controlling a data transmission / reception operation of the access module. Here, the state information of the wireless transmission link may include at least one of whether the wireless transmission link is disconnected, an error rate (BER), and an available bandwidth of the wireless transmission device. And controlling the data transmission / reception operation of the router or the router access module by using the state information of the received radio transmission link, the router access module may determine a port according to whether the wireless transmission link is disconnected. It can be configured to control to disconnect. In this case, the control module controls the data transmission / reception operation of the router or the router access module by using the state information of the received radio transmission link, when the error rate is increased, the router sets a routing cost function value. Control to increase and control the router to decrease the routing cost function value when the error rate decreases. And controlling the data transmission / reception operation of the router or the router access module by using the state information of the received wireless transmission link, when the available bandwidth of the wireless transmission device increases, the router The controller may be configured to increase the operational available bandwidth of the router, and to control the router to reduce the operational available bandwidth of the router when the operational available bandwidth of the wireless transmission apparatus decreases.

According to the router control apparatus and method using the state information of the radio transmission link as described above, it is possible to recognize the radio state of the radio transmission link in real time to set the optimal routing path, so that packet data is not lost or delayed. have.

1 is a block diagram of a router control apparatus using state information of a wireless transmission link according to an embodiment of the present invention.
2 is a schematic flowchart of a routing control method using state information of a wireless transmission link according to an embodiment of the present invention.
3 is a detailed flowchart of a routing control method using state information of a wireless transmission link according to an embodiment of the present invention.
4 is a flowchart of a routing control method using state information of a wireless transmission link according to an embodiment of the present invention.
5 is a graph showing a change in the amount of data packets of a router control apparatus using state information of a wireless transmission link according to an embodiment of the present invention.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. Like reference numerals are used for like elements in describing each drawing.

The terms first, second, A, B, etc. may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component. And / or < / RTI > includes any combination of a plurality of related listed items or any of a plurality of related listed items.

When a component is referred to as being "connected" or "connected" to another component, it may be directly connected to or connected to that other component, but it may be understood that other components may be present in between. Should be. On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that there are no other elements in between.

The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, the terms "comprise" or "have" are intended to indicate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, and one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, components, or a combination thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art. Terms such as those defined in the commonly used dictionaries should be construed as having meanings consistent with the meanings in the context of the related art and shall not be construed in ideal or excessively formal meanings unless expressly defined in this application. Do not.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a router control apparatus using state information of a wireless transmission link according to an embodiment of the present invention.

Referring to FIG. 1, the router control apparatus 100 (hereinafter, referred to as a “router control apparatus”) using state information of a wireless transmission link includes a line connection module 110, a router connection module 120, and a control module 130. It can be configured to include).

The router control device 100 is provided between the router 300 and the wireless transmission device 200 to mutually transmit data to each other. The router control device 100 receives a wireless state of a wireless transmission link in real time from the wireless transmission device 200 and thereby the router. Allow 300 to establish an optimal routing path. This ensures that packet data is not lost or delayed due to disconnection or error in the wireless transmission link. Hereinafter, the detailed configuration will be described.

First, the line connection module 110 may be configured to transmit and receive data in association with the wireless transmission device 200. The line connection module 110 converts the data received from the router connection module 120 into packet data used in the wireless transmission apparatus 200 and transmits the data to the wireless transmission apparatus 200 or receives the data from the wireless transmission apparatus 200. Configured to deliver the data to the router access module 110. Meanwhile, the wireless transmission device 300 may correspond to a base station provided in a wireless communication network.

Next, the router access module 120 may be configured to transmit and receive data in cooperation with the router 300. The router connection module 120 also converts the data received from the line connection module 110 into packet data used by the router 300 and transfers the data to the router 300 or transmits data received from the router 300 to the line connection module. And to deliver to 110. In this case, the router access module 120 may perform an operation of matching the speed of packet data to be transmitted to the router 300.

As such, the line connection module 110 and the router connection module 120 are configured for data communication by matching with the wireless transmission device 200 and the router 300, respectively.

Next, the control module 130 receives the state information of the radio transmission link from the radio transmission apparatus 200, and according to the state information of the received radio transmission link, the router 300 or the router access module 120 It may be configured to control the data transmission and reception operation of the. In the past, the router 300 could not grasp the status of the wireless transmission link or could not recognize in real time, so there was a lot of data lost or delayed. As a result, communication quality has deteriorated. However, in the present invention, since the control module 130 is configured to receive the state information of the radio transmission link in real time from the radio transmission apparatus 200, the router 300 to set the optimal routing path according to the state of the radio transmission link. It is configured to be. On the other hand, the control module 130 is preferably configured to receive the state information of the wireless transmission link through a separate signal channel or control channel.

The status information of the wireless transmission link may include at least one of whether the wireless transmission link is disconnected, an error rate (BER), and an available bandwidth of the wireless transmission apparatus 200. The router 300 may set an optimal routing path according to the state information of the wireless transmission link. More specifically:

First, the control module 130 may be configured to control the router connection module 120 to disconnect a port according to whether the wireless transmission link is disconnected. If the wireless transmission link is already disconnected, the control module 130 causes the router connection module 120 to disconnect the port. At this time, the router 300 detects a port disconnection of the router access module 120 to change the routing path. That is, the router 300 sets a routing path other than the routing path via the wireless transmission device 200, so that data is not lost or delayed through the wireless transmission link that is already disconnected.

The control module 130 may change the routing cost function value or change the operational available bandwidth of the router 300 according to the error rate and the operational available bandwidth of the wireless transmission device 200. It can be configured to control.

The control module 130 controls the router 300 to increase the routing cost function value when the error rate is increased, and the router 300 adjusts the routing cost function value when the error rate is decreased. Control to reduce. Here, when the routing cost function value is changed, the router 300 is configured to select and set a routing path having a low cost function value. Accordingly, the control module 130 indirectly supports the optimal path setting of the router 300 by controlling the routing cost function value of the corresponding routing path to be reset according to the error rate of the wireless transmission link.

The control module 130 controls the router 300 to increase the operational available bandwidth of the router 300 when the operational available bandwidth of the wireless transmission device 200 increases, and transmits the wireless transmission. When the operational available bandwidth of the device 200 is reduced, the router 300 may be configured to control to reduce the operational available bandwidth of the router 300. Since the amount of data flowing into the wireless transmission apparatus 200 increases or decreases according to whether the operational available bandwidth of the wireless transmission apparatus 200 increases or decreases, the operational available bandwidth of the router 300 also increases or decreases accordingly. Conventionally, only the interface bandwidth between the router and the wireless transmission device is directly adjusted, but in the present invention, the delayed data can be reduced by adjusting the operational available bandwidth in real time.

The control operation of the control module 130 according to the error rate or the available bandwidth of the wireless transmission device 200 may be performed simultaneously or sequentially, or may be configured to be selectively performed.

2 is a schematic flowchart of a routing control method using state information of a wireless transmission link according to an embodiment of the present invention.

Referring to FIG. 2, first, the router connection module 120 interworking with the router 300 and the line connection module 110 interworking with the wireless transmission apparatus 200 are the router 300 and the wireless transmission apparatus 200. ) Mutually transmit and receive data between (S110).

Next, the control module 130 receives the state information of the wireless transmission link from the wireless transmission device 200 (S120). In this case, the state information of the wireless transmission link may include at least one of whether the wireless transmission link is disconnected, an error rate, and an available bandwidth of the wireless transmission device.

Next, the control module 130 controls the data transmission and reception operation of the router 300 or the router access module 120 by using the state information of the received wireless transmission link (S130).

Here, the router access module 120 may be configured to control the disconnection of the port according to the information of disconnection of the radio transmission link received from the radio transmission apparatus 200. Then, the router 300 detects a port disconnection of the router access module 120, and the router 300 may reconfigure a routing path to transmit and receive data through a radio transmission link other than the disconnected radio transmission link. It becomes possible.

On the other hand, when the error rate received from the wireless transmission apparatus 200 increases, the router controls to increase the routing cost function value, and when the error rate decreases, the router controls to decrease the routing cost function value. It may consist of.

On the other hand, if the operational available bandwidth of the wireless transmission device 200 increases, the router 300 controls to increase the operational available bandwidth of the router 300, the operation of the wireless transmission device 200 When the available bandwidth is reduced, the router 300 may be configured to control to reduce the operational available bandwidth of the router 300. That is, by increasing or decreasing the operational available bandwidth of the router 300 as the amount of traffic through the wireless transmission link increases or decreases, the delay of data is reduced.

Next, the router 300 or the router access module 120 transmits and receives data according to the control of the control module 130 (S140). More specifically: The router 300 detects a port disconnection of the router access module 120 and changes the optimal routing path, or resets the optimal routing path by reflecting the control signal of the control module 130 in the routing path setting. Meanwhile, the router 300 increases or decreases the operational available bandwidth of the router 300.

3 is a detailed flowchart of a routing control method using state information of a wireless transmission link according to an embodiment of the present invention.

3 illustrates in more detail a configuration in which state information of a wireless transmission link is reflected in a routing path setting. Hereinafter, the detailed configuration will be described.

First, the control module 130 receives the state information of the wireless transmission link from the wireless transmission device 200 (S210). As described above, the state information of the wireless transmission link may include at least one of whether the wireless transmission link is disconnected, an error rate, and an available bandwidth of the wireless transmission device. At this time, it may be configured to receive through a separate signal channel or control channel.

Next, the control module 130 determines the control operation according to the state information of the wireless transmission link (S220).

First, when the state information of the radio transmission link is about whether the radio transmission link is disconnected, the control module 130 determines whether the radio transmission link is disconnected (S130). At this time, if it is determined that the wireless transmission link is disconnected, the control module 130 transmits a control signal to the router access module 130 to cause the router access module 130 to disconnect the port assigned to the router 130 (S231). ). Then, the router 300 detects that the port of the router access module 130 is disconnected, and the router 300 changes the routing path (S232).

On the other hand, when the state information of the wireless transmission link is for the error rate, the control module 130 determines whether the error rate is increased or decreased (S240). According to the determination result, the control module 130 directly transmits a control signal to the router 300 to increase or decrease the routing cost function. At this time, it may be configured to transmit through a separate signal channel or control channel. The router 300 increases or decreases the routing cost function according to the control signal (S241 and S242). The router 300 resets the optimal routing path in consideration of the increase or decrease of the routing cost function at the time of resetting the routing path (S243). If the routing cost function is increased, there is a high probability of changing the routing path. If the routing cost function is decreased, there is a high probability of maintaining the current routing path.

On the other hand, if the state information of the wireless transmission link is the operational available bandwidth of the wireless transmission device 200, the control module 130 determines whether the operational available bandwidth is increased (S250). According to the determination result, the control module 130 directly transmits a control signal to the router 300 to increase or decrease the routing cost function. It may also be configured to transmit directly to the router 300 through a separate signal channel or control channel. The router 300 increases or decreases the operational available bandwidth of the router 300 according to the control signal (S251 and S252).

In reflecting the state information of the radio transmission link in the routing path setting, the state information of the radio transmission link is reflected in real time.

4 is a flowchart of a routing control method using state information of a wireless transmission link according to an embodiment of the present invention.

4 illustrates in more detail the operation of each component according to the flow of data and control signals.

Referring to FIG. 4, data is transmitted and received between the router 300, the router connection module 120, the line connection module 110, and the wireless transmission device 200 (S310).

On the other hand, the control module 130 receives the state information of the radio transmission link in real time from the radio transmission apparatus 200 through a separate signal channel or control channel. The control module 130 determines a control operation according to the received state information and generates a control signal (S320). In this case, the state information may include at least one of information on whether the wireless transmission link is disconnected, an error rate, and available bandwidth of the wireless transmission device 200. Meanwhile, when the received state information indicates that the wireless transmission link is disconnected, the control module 130 generates a control signal for disconnecting the port of the router access module 120. When the received state information relates to the increase or decrease of the error rate, a control signal for increasing or decreasing the routing cost function of the router 300 is generated. When the received state information relates to the operational available bandwidth of the wireless transmission apparatus 200, a control signal for increasing or decreasing the operational available bandwidth of the router 300 is generated.

If the control signal generated in the state information collection and control operation determination step S320 is a control signal for disconnection of the port of the router access module 120, the control module 130 is connected to the router access module 120. Send a control signal for disconnection. The router access module 120 disconnects the port. Then, the router 300 detects the port disconnection of the router access module 120 and changes the routing path (S330).

On the other hand, when the control signal generated in the state information collection and control operation determination step (S320) is a control signal for increasing or decreasing the routing cost function value, the control module 130 directly sends the routing cost function value to the router 300. Send a control signal to increase or decrease. The router 300 changes the routing cost function value according to the control signal. When the routing cost function value is changed, the router 300 executes a routing algorithm according to the changed routing cost function value to reset the optimal routing path (S340). At this time, the current routing path may be maintained or may be changed to another routing path.

On the other hand, when the control signal generated in the state information collection and control operation determination step (S330) is a control signal for increasing or decreasing the available bandwidth of the router 300, the control module 130 is operated as a router 300 Send a control signal to increase or decrease the available bandwidth. The router 3000 increases or decreases the operational available bandwidth according to the control signal in operation S350. Accordingly, the delayed data may be reduced.

As mentioned above, when the optimal routing path is set or the available bandwidth is changed, transmission and reception of data using the changed routing path and the available bandwidth are performed (S360).

5 is a graph showing a change in the amount of data packets of a router control apparatus using state information of a wireless transmission link according to an embodiment of the present invention.

Referring to FIG. 5, as a result of simulating the router control apparatus 100, it can be seen that data flow is smoothly maintained using an optimal routing path even when the section error rate of the wireless transmission apparatus 200 is high.

Although described with reference to the embodiments above, those skilled in the art will understand that the present invention can be variously modified and changed without departing from the spirit and scope of the invention as set forth in the claims below. Could be.

100: router control unit 110: line connection module
120: router connection module 130: control module
200: wireless transmission device 300: router

Claims (11)

A router control device provided between a router and a wireless transmission device to transfer data to each other,
A line connection module for transmitting and receiving data in association with the wireless transmission device;
A router connection module for transmitting and receiving data in association with the router;
State information of a wireless transmission link including a control module for receiving state information of a wireless transmission link from the wireless transmission device, and controlling data transmission / reception operation of the router or the router access module according to the received state information of the wireless transmission link. Router control device using. The method of claim 1,
The state information of the wireless transmission link may include at least one of whether the wireless transmission link is disconnected, an error rate (BER), and an available bandwidth of the wireless transmission device. Router control device used. The method of claim 2,
And the control module controls the router connection module to disconnect a port according to whether the wireless transmission link is disconnected. The method of claim 2,
The control module may be configured to control the router to change a routing cost function value or to change the operational available bandwidth of the router according to the error rate and the operational available bandwidth of the wireless transmission device. Router control device used. The method of claim 4, wherein
The control module may control the router to increase the routing cost function value when the error rate is increased, and control the router to decrease the routing cost function value when the error rate is decreased. Router control device using status information of transmission link. The method of claim 4, wherein
The control module controls the router to increase the operational available bandwidth of the router when the operational available bandwidth of the radio transmission apparatus increases, and when the operational available bandwidth of the radio transmission apparatus decreases, And controlling the router to reduce an operational available bandwidth of the router. A step of forwarding data transmitted / received between the router and the wireless transmission device by a router connection module interworking with a router and a line connection module interworking with a wireless transmission device;
A control module receiving status information of a wireless transmission link from the wireless transmission device;
Controlling, by the control module, a data transmission / reception operation of the router or the router access module by using state information of the received wireless transmission link;
And transmitting or receiving data by the router or the router access module according to the control of the control module. The method of claim 7, wherein
The state information of the wireless transmission link may include at least one of whether the wireless transmission link is disconnected, an error rate (BER), and an available bandwidth of the wireless transmission device. Routing control method used. The method of claim 8,
The controlling module controls the data transmission / reception operation of the router or the router access module by using the received state information of the wireless transmission link.
And controlling the router access module to disconnect a port according to whether the wireless transmission link is disconnected. The method of claim 8,
The controlling module controls the data transmission / reception operation of the router or the router access module by using the received state information of the wireless transmission link.
When the error rate increases, the router controls the router to increase the routing cost function value, and when the error rate decreases, the router controls the router to decrease the routing cost function value. Routing control method using. The method of claim 8,
The controlling module controls the data transmission / reception operation of the router or the router access module by using the received state information of the wireless transmission link.
When the operational usable bandwidth of the wireless transmission device increases, the router controls to increase the operational usable bandwidth of the router. When the operational usable bandwidth of the wireless transmission device decreases, the router makes the operational available bandwidth of the router. Routing control method using the state information of the radio transmission link, characterized in that to control to reduce the bandwidth.

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