KR101005932B1 - Apparatus and Method for Restoring Network - Google Patents

Abstract

Disclosed is a network restoration apparatus and method. Network restoration apparatus according to an embodiment of the present invention, the switch unit for transmitting and receiving a signal through at least one of the main signal line of the UTP cable or the auxiliary signal line of the UTP cable under the control of the control unit, disconnection of the main signal line of the UTP cable If the disconnection detecting unit and the disconnection detecting unit detect the disconnection of the main signal line of the UTP cable, the switch unit may include a control unit to control transmission and reception of signals using the auxiliary signal line of the UTP cable. The main signal line of the UTP cable may be a first signal line pair and a second signal line pair among the signal line pairs of the UTP cable, and the auxiliary signal line may be a third signal line pair and a fourth signal line pair. According to the present invention, there is an effect that can eliminate the network failure due to disconnection of the signal line of the UTP cable and restore the network without using a separate communication line.

Network, UTP cable, LAN, LAN, restore, recovery

Description

Apparatus and Method for Restoring Network}

The present invention relates to an apparatus and a method for recovering a network, and more particularly, to an apparatus and a method for restoring a network when an unshielded twisted pair cable break occurs.

Many electronic devices are used in ships or aircraft, and these electronic devices form a network with each other to exchange data. Since a ship or an aircraft is a relatively narrow space, electronic devices in a ship or an aircraft are mainly connected using a local area network (LAN) or a similar communication network.

UTP cable (unshielded twisted pair cable) is a cable made by twisting two conductors (usually copper) to the outside of several pairs of cables in plastic to prevent current flow. UTP cable is mainly used in a general telephone line or a local area network (LAN).

UTP is an acronym for Unshielded Twisted Pair. UTP cable is also known as unshielded pair cable and unshielded twisted pair cable. UTP cable is the most common type of signal line, and is a kind of signal line connecting the environment of general telephone line or LAN. The UTP cable was named to mean that the wires were insulated with plastic sheathing from the outside of several pairs of cables in which two insulated wires were twisted together.

UTP cable is a standard signal line used for 100Mbit LAN card, and its appearance is composed of RJ-45 standard connector and cable similar to telephone line. The wire inside the UTP cable consists of eight signal wires. When you look inside the cable sheath, you can see four pairs of twisted wires. The eight strands are all different in color, and the pin number is the standard. In general, the signal line actually used is four strands. The remaining four strands are dummy that is not used, or used for grounding.

Among UTP cables, there are a direct cable and a cross cable depending on the connection method. Direct cables, also called 1: 1 cables, are cables in which the wire colors at both ends are arranged in the same order, i. Direct cables are used to connect a computer to a hub, and data transferred to a transmission wire passes through the hub to a receiving wire. Cross cables, on the other hand, are cables whose wires are not connected in the same color order. The cross cable is used to connect two computers without a hub, or to connect a hub and a hub.

It is divided into several categories according to the quality of the cable. The category is a UTP cable standard rated according to quality by the Electronics Industry Association. Mark the lowest quality as 1 and the highest quality as 5. Category 2 is used for general telephone lines, category 3 for 10Mbps LAN, category 4 for 16Mbps Token Ring network, and category 5 for 100Mbps LAN.

In a LAN network using a conventional UTP cable, when a disconnection occurs in a signal line (used signal line) actually used among the signal lines of the UTP cable, there is a problem that a separate UTP cable or other communication line must be used for the restoration. This is a big problem, especially in ships or aircrafts that absolutely require efficient use of space.

In addition, when using the conventional UTP cable, the four strands of the wire was not used, there was a problem that wasted.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to provide an apparatus and method for relieving network failure and restoring a network due to disconnection of a signal line of a UTP cable without using a separate communication line. .

Another object of the present invention is to provide an apparatus and method for relieving network failure and restoring a network due to disconnection of a signal line of a UTP cable while efficiently using space and resources.

According to one aspect of the present invention, a network recovery apparatus is provided.

Network restoration apparatus according to an embodiment of the present invention, the switch unit for transmitting and receiving a signal through at least one of the main signal line of the UTP cable or the auxiliary signal line of the UTP cable under the control of the control unit, disconnection of the main signal line of the UTP cable If the disconnection detecting unit and the disconnection detecting unit detect the disconnection of the main signal line of the UTP cable, the switch unit may include a control unit to control transmission and reception of signals using the auxiliary signal line of the UTP cable. The main signal line of the UTP cable may be a first signal line pair and a second signal line pair among the signal line pairs of the UTP cable, and the auxiliary signal line may be a third signal line pair and a fourth signal line pair.

According to another aspect of the present invention, a network restoration method is provided.

In a network restoration method according to an embodiment of the present invention, detecting a disconnection of a main signal line of a UTP cable, and if detecting a disconnection of the main signal line of a UTP cable, controlling to transmit and receive a signal by using an auxiliary signal line of the UTP cable. And transmitting and receiving a signal through at least one of a main signal line of the UTP cable or an auxiliary signal line of the UTP cable according to the control. The main signal line of the UTP cable may be a first signal line pair and a second signal line pair among the signal line pairs of the UTP cable, and the auxiliary signal line may be a third signal line pair and a fourth signal line pair among the signal line pairs of the UTP cable.

According to the present invention, there is an effect that can eliminate the network failure due to disconnection of the signal line of the UTP cable and restore the network without using a separate communication line.

In addition, according to the present invention, while effectively using space and resources, there is an effect that can solve the network failure caused by the disconnection of the signal line of the UTP cable and restore the network.

1 is a network diagram of a network restoration system according to an embodiment of the present invention.

Referring to FIG. 1, a network restoration system according to an embodiment of the present invention may include a switch hub 110, a first terminal 121, a second terminal 122, a third terminal 123, and a first network restoration apparatus ( 131, the second network restoration apparatus 132, the third network restoration apparatus 133, the fourth network restoration apparatus 134, the fifth network restoration apparatus 135, the sixth network restoration apparatus 136, the first UTP The cable 101, the second UTP cable 102, and the third UTP cable 103 may be included.

The first to third UTP cables 101 to 103 are general UTP cables and may include four pairs of signal lines, respectively. For convenience, it is assumed below that the UTP cable includes four pairs of copper wires. Both ends of the UTP cable may be connected to an RJ45 plug. However, the claims of the present invention are not limited thereto.

The switch hub 110 serves to relay communication between the terminals connected to the switch hub 110. For example, in FIG. 1, the switch hub 110 relays communication between the first terminal 121 and the second terminal 122.

The first to third terminals 121 to 123 may include all terminals that can be connected with a UTP cable such as a personal computer and a server. The first to third terminals 121 to 123 do not need to be terminals of the same kind, and as long as they are heterogeneous terminals, the first to third terminals 121 to 123 may be connected to each other via a communication network such as a LAN.

The first to sixth network restoring devices 131 to 136 allow a terminal or a switch to be dually connected through a UTP cable. A detailed description of the network restoration apparatus will be given later with reference to FIG. 2.

UTP cables typically contain eight signal lines. However, in case of Token Ring, only 3, 4, 5, 6 signal lines are used for signal transmission, and in case of 10M ethernet or 100M ethernet, only 1, 2, 3, 6 signal lines are used for signal transmission. Depending on the application, only four signal lines may be used for signal transmission. The number of signal lines in the above description will be described later with reference to Table 1.

The present invention is an invention in which four signal lines which are not used for signal transmission are used as an auxiliary when a disconnection occurs in a signal line originally used for signal transmission.

In the present invention, the signal lines of the UTP cable may be used in any color and may be arranged in any order. For convenience of explanation, hereinafter, it is assumed that the UTP cable conforms to the T568B standard. The table below shows the T568B standard.

PIN number Pair number Cover color One 2 White / orange stripes 2 2 Orange 3 3 White / green stripes 4 One blue 5 One White / blue stripes 6 3 green 7 4 White / brown stripes 8 4 Brown

For the sake of convenience, expressions such as signal line 1 and signal line 2, which are not specifically described for convenience, are assumed to be based on the pin number of the T568B standard. For example, signal line 1 is a white / orange striped signal line with pin number 1.

Signal line pairs are words that lead together a pair of signal lines.

Signal lines with the same pair number are paired with each other. For example, signal line 1 and signal line 2 are a pair. For the sake of convenience, expressions of paired signal lines 1, paired signal lines, etc., which are not specifically described for convenience, are assumed to be expressions based on the pair number of the T568B standard. For example, the pair 1 signal line includes a signal line 4 and a signal line 5.

In contrast, the expression of the first signal line pair, the second signal line pair, and the like extends to any signal line pair among the signal line pairs included in the UTP cable.

In the following description, it is assumed that a UTP cable having no special description is in the form of a direct cable. It will be apparent to those skilled in the art that the present invention can be applied to cross cables or other types of cables.

Hereinafter, for convenience, it is assumed that signal lines 1, 2, 3, and 6 are basically main signal lines that transmit and receive signals, and signal lines 4, 5, 7, and 8 are auxiliary signal lines that transmit and receive signals when a failure occurs in the main signal lines.

It is also assumed that signal lines 1 and 2 are the main signal lines of the TX (transmission side) signal lines, and auxiliary signal lines thereof are the signal lines 7 and 8. It is assumed that signal lines 3 and 6 are main signal lines of the RX (receive side) signal line, and auxiliary signal lines thereof are signal lines 4 and 5, respectively. However, the scope of the present invention is not limited to these assumptions.

The network restoration apparatus according to the present invention transmits a signal received through a primary signal line or an auxiliary signal line to a target device (terminal, switch hub, etc.) and transmits a signal received from the target device to another network restoration device through a primary signal line or an auxiliary signal line. It plays a role. The target device communicates with another device (mainly another network recovery device) via the network recovery device. The target device refers to a device that actually needs to communicate over a network, such as a terminal or a network hub.

2 is a block diagram of a network recovery apparatus according to an embodiment of the present invention.

Referring to FIG. 2, the network restoration apparatus may include a switch 210, a disconnection detector 220, and a controller 230.

The switch unit 210 transmits a signal through the UTP cable to the target device and transmits a signal from the target device to the UTP cable.

The disconnection detecting unit 220 detects disconnection of the main signal line of the UTP cable connected to the switch unit 210.

The controller 230 controls the switch unit 210 and the disconnection detecting unit 220.

The switch unit 210 transmits and receives a signal through at least one of a main signal line of the UTP cable or an auxiliary signal line of the UTP cable under the control of the controller.

For example, referring to FIG. 1, the switch unit 210 of the first network restoration apparatus 131 transmits a signal received through the first UTP cable 101 to the first terminal 121 and the first terminal 121. The signal from the terminal 121 is transmitted to another device through the first UTP cable 101.

The switch unit 210 may transmit / receive a signal with another device through any one of a main signal line and an auxiliary signal line of the UTP cable under the control of the controller 230.

Depending on the control method for the switch unit 210, the main signal lines (signals 3 and 6) of the RX signal line and the main signal lines (signals 1 and 2) of the TX signal line are used together, or the auxiliary signal lines (# 4 and 5) of the RX signal line. Signal lines) and the auxiliary signal lines 7 and 8 of the TX signal line can be used together. According to another exemplary embodiment, the auxiliary signal line of the RX signal line and the auxiliary signal line of the TX signal line may be used together, or the auxiliary signal line of the RX signal line and the main signal line of the TX signal line may be additionally allowed.

According to another embodiment, the RX signal line may receive all signals through the main signal line or the auxiliary signal line, and the TX signal line may use only one signal line under the control of the controller.

The switch unit 210 may transmit the same signal to the target device regardless of whether the signal received through the UTP cable is a signal through the main signal line or a signal through the auxiliary signal line. For example, both the signal through the main signal line and the signal through the auxiliary signal line may be transmitted to the first input terminal of the target device.

The switch unit 210 may transmit the signal received from the target device to another device through either the auxiliary signal line of the TX signal line or the main signal line of the TX signal line under the control of the controller 230.

The disconnection detecting unit 220 detects disconnection of the main signal line of the UTP cable connected to the switch unit 210.

The disconnection detecting unit 220 may detect a disconnection in various ways.

For example, if there is no disconnection through the signal line, it may attempt to communicate with another terminal that is guaranteed for communication, and if this fails, it may be determined that there is disconnection. There are many other ways to do this.

The disconnection detector 220 may detect disconnection periodically or aperiodically, or may detect disconnection when there is a control signal from the controller.

The controller 230 may control the switch unit 210 and the disconnection detecting unit 220.

When the controller 230 transmits a disconnection detection request signal to the disconnection detection unit 220, the disconnection detection unit may perform a disconnection detection operation and transmit the result to the control unit 230. The controller 230 may control a cycle of disconnection detection or disconnection detection of the disconnection detector 220.

The controller 230 may control the disconnection detecting unit 220 and the switch unit 210 through any one or more of an electrical signal or a mechanical operation.

When the disconnection detecting unit 220 detects disconnection of the main signal line of the UTP cable connected to the switch unit 210, the control unit 230 controls the switch unit 210 to transmit and receive a signal with another device using the auxiliary signal line. Can be.

According to an exemplary embodiment, the controller 230 uses the auxiliary signal line of the TX signal line and the auxiliary signal line of the RX signal line, regardless of whether the signal line in which disconnection is detected is the main signal line of the RX signal line or the main signal line of the TX signal line. It can be controlled to transmit and receive.

According to another exemplary embodiment, the controller 230 sets whether the auxiliary signal line of the RX signal line depends only on disconnection of the main signal line of the RX signal line, and whether the auxiliary signal line of the TX signal line depends only on whether the auxiliary signal line of the TX signal line is disconnected. Can be. For example, when disconnection of the main signal line of the RX signal line is detected, but the main signal line of the TX signal line is not disconnected, it may be controlled to use the auxiliary signal line of the RX signal line and the main signal line of the TX signal line.

According to another embodiment, the control unit 230 controls the TX signal line to use the main signal line of the TX signal line or the auxiliary signal line of the TX signal line according to whether the main signal line of the TX signal line is disconnected, and the main signal line and the TX signal line of the RX signal line. It can also be controlled to receive all signals transmitted to the auxiliary signal line of.

According to an exemplary embodiment, the controller 230 may be part of hardware or software included in the target device, or may be hardware or software independent of the target device.

Network recovery apparatus according to the present invention may have a hardware or software configuration independent of the target device according to an embodiment, or may be part of the target device.

3 is a flowchart of a network restoration method according to an embodiment of the present invention.

Referring to FIG. 3, in operation S310, the network reconstruction device may transmit and receive a signal with another device using a main signal line. Therefore, the network recovery apparatus relays the communication between the other apparatus and the target apparatus using the main signal line.

Among the signal lines of the UTP cable connected to the network restoring apparatus, a signal received by the network restoring apparatus is transmitted to the target apparatus through the main signal line, and a signal from the target apparatus may be transmitted to another apparatus through the main signal line.

In step S320, it is determined whether the main signal line is disconnected.

The disconnection detecting unit 220 detects disconnection of the UTP cable connected to the switch unit 210.

The disconnection detecting unit 220 may detect a disconnection in various ways.

For example, if there is no disconnection through the signal line, it may attempt to communicate with another terminal that is guaranteed for communication, and if this fails, it may be determined that there is disconnection. There are many other ways to do this.

The disconnection detector 220 may detect disconnection periodically or aperiodically, or may detect disconnection when there is a control signal from the controller.

If disconnection of the main signal line is detected, the network restoration method may proceed to step S330, and if disconnection of the main signal line is not detected, the process may proceed to step S310.

In operation S330, the network recovery apparatus may transmit and receive a signal using the auxiliary signal line. Therefore, the network recovery apparatus relays the communication between the other apparatus and the target apparatus using the main signal line.

Among the signal lines of the UTP cable connected to the network restoring apparatus, a signal received by the network restoring apparatus may be transmitted to the target apparatus through an auxiliary signal line, and a signal from the target apparatus may be transmitted to another apparatus through the auxiliary signal line.

When the disconnection detecting unit 220 detects disconnection of the main signal line of the UTP cable connected to the switch unit 210, the control unit 230 controls the switch unit 210 to transmit and receive a signal with another device using the auxiliary signal line. Can be.

Description thereof is as described above with reference to FIG. 2, and thus detailed description thereof will be omitted.

 Embodiments of the invention may include a computer readable medium containing program instructions for performing various computer-implemented operations. The computer readable medium may include program instructions, local data files, local data structures, or the like, alone or in combination. The media may be those specially designed and constructed for the purposes of the present invention, or they may be of the kind well-known and available to those having skill in the computer software arts.

In addition, the components shown in FIG. 2 do not necessarily have a hardware configuration, and some components may be implemented in the form of an application program that performs the same or similar functions. In addition, each component may be combined or separated within the scope of the invention.

1 is a network diagram of a network restoration system according to an embodiment of the present invention.

2 is a block diagram of a network recovery apparatus according to an embodiment of the present invention.

3 is a flowchart of a network restoration method according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

101, 102, 103: UTP cable

110: switch hub

121, 122, 123: terminal

131, 132, 133, 134, 135, 136: network restore device

Claims (4)

Switch unit for transmitting and receiving a signal through at least one of the main signal line of the UTP cable or the auxiliary signal line of the UTP cable under the control of the control unit-The main signal line of the UTP cable is the first signal line pair and the first Two signal line pairs, and the auxiliary signal line is a third signal line pair and a fourth signal line pair; A disconnection detecting unit detecting a disconnection of a main signal line of the UTP cable; And The disconnection detecting unit detects disconnection of the first signal line pair, and controls the switch unit to transmit and receive a signal using the third signal line pair, and when the disconnection detection unit detects disconnection of the second signal line pair, the switch unit A control unit for controlling the transmission and reception of signals using the fourth signal line pair, And a network restoration device located at the front end of each of at least two target devices among the terminal and the switch having the UTP cable interposed therebetween. delete In the network restoration method implemented in a network restoration apparatus located at the front end of each of at least two target devices of the terminal and the switch between the UTP cable to restore the network in duplicate; Detecting disconnection of a main signal line of a UTP cable, wherein a main signal line of the UTP cable is a first signal line pair and a second signal line pair among the signal line pairs of the UTP cable, and an auxiliary signal line is a third signal line pair and a fourth signal line pair; ; When the disconnection of the first signal line pair of the UTP cable is detected, the control is performed to transmit and receive a signal using the third signal line pair, and when the disconnection of the “2 signal line pair is detected, the signal is transmitted and received using the fourth signal line pair. Controlling to And transmitting and receiving a signal through at least one of a main signal line of the UTP cable and an auxiliary signal line of the UTP cable. delete

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