KR20140032913A - Method and appratus for protection switching - Google Patents

Abstract

The present invention relates to a protection switching method and a device for the same. In a network having a plurality of protection paths for one working path between a first node and a second node, each node determines priority corresponding to the order of the protection paths to use in protection switching. Moreover, each node exchanges information on the priority of the protection paths.

Description

Protection transfer method and apparatus {METHOD AND APPRATUS FOR PROTECTION SWITCHING}

The present invention relates to a protection switching method and apparatus.

Protection switching is a method for resuming traffic as soon as the traffic is stopped due to a network failure. The protection switching method is divided into linear protection switching, ring protection switching and shared mesh protection switching according to the topology of the network. Linear protection switching can be implemented by various protection structures such as 1 + 1, 1: 1, 1: N or M: N protection architecture.

Protection switching basically divides the paths between nodes into a working path and a protection path, and if there is no failure, it transfers traffic to the working path and fails in the network or under the operator's control. If is changed, it carries traffic through the protection path.

Recently, standardization on shared mesh protection switching is underway. Shared mesh protection switching is used to improve the efficiency of network resources in such a way that protection paths for protecting different end-to-end working paths share limited resources. In this approach, since the protection paths allocated for different working paths share limited resources, only shared resources allocated for the higher priority working paths in case of failure in different working paths at the same time. You can use to switch traffic. In this case, if only one protection path is provided for different working paths, the failure of the working path having the lower priority is not protected if the working path having the higher priority uses the protection path due to the failure.

Low priority working paths may use an m: 1 protection scheme to allow traffic to be diverted through another protection path. That is, by allocating m protection paths to protect one working path, protection switching can be performed using the available paths among the m protection paths.

On the other hand, transport networks such as Ethernet, multi-protocol label switching-transport profile (MPLS-TP) and optical transport network (OTN) use 1 + 1, 1: 1 or 1: n protection schemes for linear protection switching. All of these protection schemes have in common that only one protection path is used to protect one or n working paths.

As a result, there is only one protection path that can be used in the event of a switchover situation, so all the Automatic Protection Switching (APS) protocols defined so far have many protections, such as m: n or m: 1 protection schemes. There is no consideration in the case of assigning a route.

The problem to be solved by the present invention is that both end nodes have the same protection when a situation in which traffic on the working path needs to be transferred in a protection switching structure in which multiple end-to-end working paths are allocated to protect one end-to-end working path. To provide a method and apparatus for enabling traffic to be routed through a path.

In the protection switching method according to an aspect of the present invention for solving the above technical problem, a protection switching is performed in a network in which a plurality of protection paths are formed for one working path between a first node and a second node. A method comprising: respectively determining priorities corresponding to an order that the first node will use first in protection switching for the plurality of protection paths; And exchanging priority information determined by the first node for each protection path with the second node before performing the protection switching, so that the priority information of the first node and the second node for each protection path match. Steps.

The matching of the priority information may include transmitting priority information determined by the first node to the plurality of protection paths to the second node; And receiving, by the first node, priority information determined by the second node regarding the plurality of protection paths from a second node.

Here, the transmitting to the second node may include transmitting a message including priority information determined for the corresponding protection path to each second node through each protection path.

Receiving the priority information may include receiving from the second node a message including priority information determined for the corresponding protection path through each protection path.

The message may be an Automatic Protection Switching (APS) protocol message. The message may also include a field including priority information, and the field may be a reserved area or part of the APS protocol message.

In addition, the protection switching method may further include setting the same priority for the plurality of protection paths based on the transmitted priority information and the received priority information.

The setting may include comparing the transmitted priority information with the received priority information; Generating a report message including priority information on the unmatched protection path when the transmitted priority information and the received priority information do not match; And re-determining a priority for the mismatched protection path based on the report message.

In addition, in the protection switching method, the first node and the second node is the same when a protection switching event occurs while the first node and the second node set the same priority for the plurality of protection paths. The method may further include performing protection switching according to the priority information.

According to another aspect of the present invention, there is provided a protection switching method, in a network in which a plurality of protection paths are formed for one working path between two nodes, each node acquiring an identifier assigned to each protection path; Prior to performing the protection switching, each node using the delimiter assigned to each protection path to determine the same priority for each protection path according to a preset prioritization rule; And performing protection switching according to a priority determined by each node for each protection path when a protection switching event occurs.

In the case of a packet delivery network, the identifier may be a maintenance entity group (MEG) ID, and in the case of a circuit delivery network, the identifier may be a trail trace identifier (TTI).

In addition, the protection switching device according to another aspect of the present invention, in a network in which a plurality of protection paths are formed between the first node and the second node, the protection switching device for performing a protection switching at the first node, A priority determining unit for determining priorities corresponding to the order to be used first when the protection transfer is performed for the protection path of the control path; A priority transmitter for transmitting the priority information determined for the plurality of protection paths to the second node; A priority information receiver configured to receive priority information determined by the second node with respect to the plurality of protection paths from the second node; And a priority resetting unit for resetting the priority so that the priority information determined for the arbitrary protection path matches the received priority information.

In addition, the protection switching device, when the first node and the second node set the priority for the plurality of protection paths the same, when the protection switching event occurs, the first node and the second node equally The apparatus may further include a protection switching execution unit performing protection switching according to the set priority information.

In this case, the priority information transmitted or received through the priority information transmitter and the priority information receiver may be included in a reserved area or part of an APS protocol message.

On the other hand, the priority resetting unit, if the transmitted priority information and the received priority information does not match, according to a comparison result of the transmitted priority information and the received priority information, the unmatched protection path A report message including priority information on the terminal may be generated and transmitted to the operator's terminal.

According to another aspect of the present invention, a protection switching device, in a network in which a plurality of protection paths are formed for one working path between a first node and a second node, protection for performing protection switching at the first node. In the switching device, priorities are obtained for acquiring an assigned delimiter for each protection path, and prioritizing protection transfer, prioritizing each protection path according to a preset prioritization rule using the assigned delimiter. Decision unit; And a protection switching execution unit performing protection switching according to a priority determined for each protection path when a protection switching event occurs.

The protection switching unit performs the priority determined for each protection path in a state in which the first node and the second node set the same priority for the plurality of protection paths according to a priority determination rule using the delimiter. Depending on the protection transfer can be carried out.

According to an embodiment of the present invention, when a plurality of protection paths are allocated for one working path, protection switching may be performed by selecting the same protection path based on priority information set by both end nodes in the same manner. In particular, it is possible to confirm in advance whether the priority settings at both end nodes match in advance, so that normal protection switching can be achieved under any circumstances.

1 shows an example of an m: 1 protective structure for protective switching.
FIG. 2 is a diagram illustrating a case where a failure occurs in the protective structure of FIG. 1.
3 is a diagram illustrating a protection switching structure to which a protection switching method according to an exemplary embodiment of the present invention is applied.
4 is a flowchart illustrating a protection switching method according to an embodiment of the present invention.
5 is a diagram illustrating the structure of a message according to another embodiment of the present invention.
6 is a flowchart illustrating a protection switching method according to another embodiment of the present invention.
7 is a diagram illustrating signal transmission and reception between nodes in a protection switching method according to another embodiment of the present invention.
8 is a view showing the structure of a protective switching device according to an embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise.

Hereinafter, a protection switching method and apparatus according to an embodiment of the present invention will be described.

1 shows an example of an m: 1 protective structure for protective switching.

The attached figure 1 shows an example in the case of m = 2. Both end nodes A and B send and receive Automatic Protection Switching (APS) messages (NR0,0) through protection paths P1 and P2, respectively. Here, the APS message (NR0,0) has no request for protection switching (NR: No Request), and requests not to send traffic through the protection path (first 0) and at the same time it sends itself through the protection path. Not present (second 0). Here, it is assumed that node A is set to preferentially use protection path P1, and node B is set to preferentially use P2.

FIG. 2 is a diagram illustrating a case where a failure occurs in the protective structure of FIG. 1.

As shown in FIG. 2, when a bidirectional failure occurs simultaneously in the working path W, the node A transfers the traffic to the protection path P1 and simultaneously sends an APS message SF1, 1, and the node B sends the traffic. Is transferred to the protection path P2 and the APS message SF1,1 is transmitted at the same time. Here, SF1,1 has failed in the working path (SF: Signal Fail), requests that traffic be sent through the protection path (first 1) and at the same time that it is sending traffic through the protection path (second 1). Indicates. Since the APS message transmitted and received here assumes that only one protection path is used, information on which protection path the traffic of the working path is sent to is not included.

At this time, if the priority settings for the plurality of protection paths are different at both end nodes, there is a problem that traffic is not normally delivered due to the disconnection of the transmission path when a protection switching event occurs.

In an embodiment of the present invention, in a protection switching structure in which a plurality of protection paths are allocated between end nodes, it is determined in advance which protection path should be used by both end nodes for protection path use. In addition, both end nodes exchange and share priority-related information set for the protection path. Specifically, in order to determine in advance which of the plurality of protection paths to use first or to exchange information related to each other, so that the priority of the plurality of protection paths set at both end nodes can be confirmed in advance. This allows both end nodes to switch traffic to the same protection path when a situation in which traffic on the working path needs to be transferred occurs.

3 is a diagram illustrating a protection switching structure to which a protection switching method according to an exemplary embodiment of the present invention is applied.

FIG. 3 shows an m: 1 protection structure in which first to mth protection paths are formed between node A and node B, and each node has a priority level with respect to the first to mth protection paths. Determine. Priority determination may be made at the operator's option or in accordance with its own prioritization method.

4 is a flowchart illustrating a protection switching method according to an embodiment of the present invention.

In an embodiment of the present invention, in a protection domain using a plurality of protection paths, a protection path to be used by both end nodes preferentially can be designated in advance. A unique delimiter is assigned to each protection path, and the priority of the first to m protection paths is determined in advance according to the delimiter.

In detail, as shown in FIG. 4, each node obtains a separator for each protection path (S10). Each node assigns a priority to each protection path using a delimiter assigned to each protection path according to a priority determination rule for determining which priority is given to a protection path having a certain separator (S20). . For example, the first node A and the second node B according to the prioritization rule using the delimiter assigned to each protection path, as shown in FIG. 3, the first protection path P1> the m th protection path Pm The priority may be determined in the order of the second protection path P2. For convenience of description, the priority of three protection paths P1, P2, and Pm among the plurality of protection paths is determined as an example.

Subsequently, when a protection switching event occurs in a state where both end nodes are given the same priority for each protection path by using a delimiter in advance, the first node A and the second node B simultaneously protect the first to m according to the priority information. The protection switching is performed by selecting one of the same protection paths (S30).

The delimiter according to the embodiment of the present invention may be used as long as each protection path can be mapped to a different value in the protection domain. For example, in a packet transport network such as Ethernet or MPLS-TP, a maintenance entity group (MEG) ID may be used as a separator, and a trail trace identifier (TTI) may be used as a separator in a circuit transport network such as OTN.

In an embodiment of the present invention, prioritization of each protection path is performed while distinguishing protection paths using a unique delimiter in the protection domain, so that the APS protocol message used in the existing linear protection switching can be used as it is.

On the other hand, as described above, unlike both end nodes determine the same priority for each protection path in advance by using a delimiter assigned to each protection path, both end nodes have priority information for each protection path. Can be exchanged to match the priority for each protection path in advance.

To this end, in another embodiment of the present invention, both end nodes exchange priority information determined for each protection path using a message.

5 is a diagram illustrating the structure of a message according to another embodiment of the present invention.

According to an embodiment of the present invention, a message transmitted between nodes is an Automatic Protection Switching (APS) protocol message, and is based on a structure defined in an Ethernet linear protection switching standard and an optical transport network (OTN) linear protection switching standard. In all protection switching standards, it is defined to be transmitted only through the protection path. However, the present invention is not limited thereto.

A message transmitted and received between nodes according to an embodiment of the present invention, that is, an APS message, is a first field (Request / state) F1 and a second field (P. Type (Protection Type)) F2 as shown in FIG. 5. , A third field (Requested Signal) F3, a fourth field (Bridged Signal) F4, and a fifth field (Preference Level) F5.

The first field F1 represents an operator command or the state of the working path and the protection path. The second field F2 indicates the type of protection switching to be used, such as the presence or absence of an APS channel, a protection structure, and the like.

The third field F3 is for informing the other end node what traffic to transmit on the protection path and includes a transmission request traffic number value. If the number value is 0, it means requesting not to send traffic through the protection path, that is, requesting to send traffic through the working path. The fourth field F4 is for informing the other end node of which traffic is being transmitted on the protection path, and includes a transmission traffic number value. If the number is 0, it means that the traffic is not transmitted through the protection path, that is, the traffic is transmitted through the working path.

The fifth field F5 includes information indicating priority of the plurality of protection paths. Multiple protections set by the node in the fifth field (F5) of the APS message that is sent, so that if the protection path priorities set at both end nodes of the protection domain are different, they can exchange information from both end nodes. Include information that indicates the priority for the paths. Thereafter, the node receiving the APS message can identify what priority the transmitting node has set for the plurality of protection paths through the fifth field F5. This fifth field F5 may use a reserved field, which is an unused spare area defined in the standard. As described above, in the embodiment of the present invention, priority information is included by using a spare area or a part of the APS protocol message, so that the priorities of the plurality of protection paths configured at both end nodes can be identified. On the other hand, when m is 2 in the m: 1 protection structure, information on the priority of two protection paths may be exchanged using only 1 bit in the reserved area of the APS protocol message.

Meanwhile, in the protection structure of 1 + 1 or 1: 1, the values of the third field F3 and the fourth field F4 are 0 or 1, and if there is no obstacle in the 1: n protection structure, the third field F3 ) And the fourth field F4 become 0, and in the case where a failure occurs in the 1: n protection structure, the values of the third field F3 and the fourth field F4 are to be used for the protection path due to the failure. It is the number value of the working path.

6 is a flowchart illustrating a protection switching method according to another embodiment of the present invention, and FIG. 7 is a diagram illustrating signal transmission and reception between nodes in the protection switching method according to an embodiment of the present invention.

As in FIG. 6, for example, in a protection structure in which the first to mth protection paths are formed between the first node A and the second node B (see FIG. 7), the first node A and the second node may be formed as shown in FIG. The priority of each of the first to m protection paths is determined (S100). That is, each node determines a priority for each of the plurality of first to m protection paths. For example, as shown in FIG. 7, the first node A determines the priority in order of the first protection path P1> the second protection path P2> the m th protection path Pm, and the second node. B determines priority in order of second protection path P2> first protection path P1> m-th protection path Pm. For convenience of description, the priority of three protection paths P1, P2, and Pm among the plurality of protection paths is determined as an example.

The first node A and the second node B determine priorities for the first to m protection paths, respectively, and then transmit an APS message including information for identifying the priority of each protection path to the counterpart node. A message including priority information for each protection path is transmitted to the counterpart node (S110).

Specifically, the first node A transmits a message to the second node B including priority information set for the corresponding protection path through each protection path according to the priority determination of the first to m protection paths determined by the first node A. do. The second node B also transmits to the first node A a message including priority information set for the corresponding protection path through each protection path according to the priority determination of the first to m protection paths.

In this case, the message transmitted through the protection path is in the form of an APS message (NR0, 0, x). The APS message (NR0,0, x) does not require protection switching (NR: No Request) and requests that traffic not be sent through the protection path (first 0) and at the same time it does not send traffic through the protection path. No (second 0), and also includes priority information " x " given for that protection path. "x" indicates the priority of the protection path that is sending the APS protocol message.

For example, when the first node A determines the priority order of the first protection path P1> the second protection path P2> the m th protection path Pm, as shown in FIG. 7, the first node A sends an APS message (NR0, 0, 0) including priority information indicating that the highest priority is given to the first protection path via the first protection path (P1) to the second Node B. . In addition, the APS message NR0, 0, 1 including priority information indicating that the second priority is assigned through the second protection path is transmitted to the second Node B. In addition, an APS message (NR0, 0, 2) including priority information indicating that a third priority is assigned through the m-th protection path is transmitted to the second Node B.

On the other hand, when the second node B determines the priority in the order of the second protection path (P2)> first protection path (P1)> m-th protection path (Pm), as shown in Figure 7, the second node B is The APS message NR0, 0, 0 including priority information indicating that the highest priority is given to the second protection path is transmitted to the first node A through the second protection path P2. In addition, the APS message NR0, 0, 1 including priority information indicating that the second priority is assigned through the first protection path is transmitted to the first node A. In addition, an APS message (NR0, 0, 2) including priority information indicating that a third priority is assigned through the mth protection path is transmitted to the first node A.

As described above, the first node A and the second node B, which have received an APS message transmitted from a counterpart node through each protection path, set their own priority for the protection path (the first setting for convenience of description). The priority is called) and the priority received from the counterpart node (named the second setting priority for convenience of explanation) is compared (S120, S130).

As a result of the comparison, when the first setting priority and the second setting priority do not match, each node reports the comparison result (S140 and S150). Here, each node may report to the terminal of the operator information about a protection path that does not match the first configuration priority and the second configuration priority.

In the case of FIG. 7, the first node A and the second node B each have a priority (first setting priority) set for the first protection path P1 and a second protection path P2 and a priority received from the counterpart node ( It can be detected that the second setting priority) is different. In this case, the first node A and the second node B generate a report message that includes information about the protection paths of which the priorities do not match, and the information received from the counterpart nodes configured differently for the protection path. Can be transmitted to the operator's terminal. In this case, the operator may modify the priority of either end node A or B based on the report message to match the priority of both end nodes. Here, the report message may further include priority information (first setting priority) set by the corresponding node with respect to a protection path where priority information does not match.

Alternatively, one of the two nodes may send a report message to the counterpart node according to the comparison result, and request the counterpart node to change the priority of the corresponding protection path to the priority set by itself. Alternatively, one node changes the priority of a protection path whose priority information does not match according to the comparison result to the priority received from the other node, and transmits a message including the changed priority information to the other node through the protection path. Can also be sent.

As described above, by reporting the result of the priority comparison, one of the end nodes A and B may modify the priority so that the priority settings of both end nodes match (S160).

Through this step, prior to performing the protection switching, it is possible to match the priority of each protection path by exchanging priority information set by each end node for each protection path.

After the priority information matching process is performed through the exchange of priority information or when the protection transfer event occurs with the priorities for the protection paths matched according to the above comparison result, the first node A and the second node B At the same time, the protection switching is performed by selecting one same protection path among the first to m protection paths according to the priority information (S170).

Through the protection switching according to the embodiments described above, the following effects can be provided.

First, when multiple protection paths are assigned for one working path, the protection paths are prioritized by the unique delimiter in the protection domain, so that in both circumstances, both end nodes select the same protection path so that normal protection Can be done.

Second, both end nodes exchange priority information set in each protection path in the APS protocol message so as to confirm in advance whether the priority settings at both end nodes match beforehand, so that normal protection switching can be achieved.

Third, when both end nodes exchange and exchange the priority information of each protection path in the APS protocol message, the operator prioritizes with each rule a certain rule without relying on the unique delimiter in the protection domain. It is also possible to detect setting errors.

8 is a view showing the structure of a protective switching device according to an embodiment of the present invention. As shown in FIG. 8, the protection switching device 100 according to an embodiment of the present invention may include a priority determining unit 110, a priority information transmitting unit 120, a priority information receiving unit 130, and a ranking comparison unit. 140, the priority reset unit 150, and the protection switching unit 160.

The priority determiner 110 determines a priority corresponding to an order of preferential use in switching protection for each protection path in a protection domain including a plurality of protection paths formed between both end nodes. The priority determiner 110 may determine the priority of the protection paths by a unique identifier assigned to each protection path. Alternatively, the priority of the protection paths may be determined according to any rule set by an operator or a user. have.

The priority information transmitter 120 transmits a message including priority information determined for the corresponding protection path to the counterpart node through each protection path. The message including the priority information may be a message according to the APS protocol, and may have a structure as shown in FIG. 5.

The priority information receiver 130 receives a message including priority information from the counterpart node, and receives a message transmitted through each protection path. The received message may also be a message according to the APS protocol having the structure shown in FIG. 5.

The priority comparison unit 140 determines the priority (first setting priority) determined by the priority determining unit 110 for each protection path, and the priority included in the message received from the counterpart node (second setting priority). Compare

The priority resetting unit 150 resets the priority of the protection paths whose priority does not match when the first setting priority and the second setting priority do not match. That is, the priority may be reset to the same priority for the protection paths whose priorities do not match with each other. To this end, the priority reset unit 150 may generate a report message including a comparison result and transmit it. The report message may include information about a protection path that does not match the first setting priority and the second setting priority, and may be reported to the operator's terminal. Thereafter, priority re-determination may be performed for a protection path having a non-matching priority between both nodes.

When the protection switching event occurs in the state in which the priority information on the protection paths match each other, the protection switching unit 160 selects one same protection path among a plurality of protection paths according to the priority information for protection switching. Perform

On the other hand, when the priority determiner 110 determines the priority of the protection paths by using a unique delimiter assigned to each protection path, the protection decision is immediately performed on the priority information on each of the protection paths assigned using the delimiter. It may be provided to the unit 160. In this case, the protection switching unit 160 performs the protection switching without processing by the priority information transmitting unit 120, the priority information receiving unit 130, the priority comparing unit 140, and the priority resetting unit 150. When an event occurs, the priority determining unit 110 may select one of the plurality of protection paths from the plurality of protection paths and perform protection switching according to the priority information determined for each protection path.

The embodiments of the present invention described above are not implemented only by the apparatus and method, but may be implemented through a program for realizing the function corresponding to the configuration of the embodiment of the present invention or a recording medium on which the program is recorded.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

Claims (18)

In a protection switching method of performing protection switching in a network in which a plurality of protection paths are formed for one working path between a first node and a second node,
Determining, respectively, priorities corresponding to an order to be used first by the first node in the protection transfer for the plurality of protection paths; And
Exchanging priority information determined by the first node for each protection path with the second node before performing the protection switching, so that the priority information of the first node and the second node for each protection path match.
. ≪ / RTI > The method of claim 1, wherein
The step of matching the priority information
Transmitting priority information determined by the first node to the plurality of protection paths to the second node; And
Receiving, by the first node, priority information determined by the second node for the plurality of protection paths from a second node;
. ≪ / RTI > The method according to claim 2, wherein
The step of transmitting to the second node
Transmitting a message including priority information determined for the corresponding protection path through each protection path to the second node, respectively.
. ≪ / RTI > The method according to claim 2, wherein
Receiving the priority information
Receiving a message from each of the second nodes, the message including priority information determined for the corresponding protection path through each protection path;
. ≪ / RTI > 4. The method according to claim 3 or 4, wherein
The message is an automatic protection switching (APS) protocol message. The method of claim 5, wherein
The message includes a field containing priority information, the field being a reserved area or part of the APS protocol message. The method according to claim 2, wherein
Setting the same priority for the plurality of protection paths based on the transmitted priority information and the received priority information;
Further comprising the steps of: The method of claim 7, wherein
The setting step
Comparing the transmitted priority information with the received priority information;
Generating a report message including priority information on the unmatched protection path when the transmitted priority information and the received priority information do not match; And
Re-determining a priority for the mismatched protection path based on the report message
. ≪ / RTI > The method of claim 1, wherein
In a state where the first node and the second node have the same priority for the plurality of protection paths, and a protection switching event occurs, the first node and the second node switch protection according to the same priority information. Further comprising the step of performing a protective switching method. In the protection transfer method of performing a protection transfer,
In a network in which a plurality of protection paths are formed for one working path between two nodes, each node obtaining a delimiter assigned for each protection path;
Prior to performing the protection switching, each node using the delimiter assigned to each protection path to determine the same priority for each protection path according to a preset prioritization rule; And
When a switchover event occurs, each node performs protection switchover according to the priority determined for each protection path.
. ≪ / RTI > The method of claim 10
In the case of a packet transport network, the identifier is a maintenance entity group (MEG) ID, and in the case of a circuit transport network, the identifier is a TTI (Trail Trace Identifier). In a network in which a plurality of protection paths are formed between a first node and a second node, in a protection switching device for performing protection switching at the first node,
A priority determining unit for determining the priorities corresponding to the order to be used first during the protection transfer for the plurality of protection paths;
A priority transmitter for transmitting the priority information determined for the plurality of protection paths to the second node;
A priority information receiver configured to receive priority information determined by the second node with respect to the plurality of protection paths from the second node; And
Priority reset unit for resetting the priority to match the priority information received for the random protection path and the received priority information
. The method of claim 12, wherein
In the state where the first node and the second node have the same priority for the plurality of protection paths, and the protection switching event occurs, the priority information set by the first node and the second node is the same. The protective switching device further comprises a protective switching performing unit for performing a protective switching. The method of claim 12, wherein
The priority information transmitted or received through the priority information transmitter and the priority information receiver is included in a reserved area or part of an Automatic Protection Switching (APS) protocol message and transmitted. The method of claim 12, wherein
The priority resetting unit is configured to enter the unmatched protection path when the transmitted priority information does not match the received priority information according to a comparison result of the transmitted priority information and the received priority information. The protection switching device for generating a report message containing the priority information for the transmission to the operator's terminal. In a network in which a plurality of protection paths are formed for one working path between a first node and a second node, in a protection switching device performing protection switching at the first node,
A priority determining unit which obtains an assigned delimiter for each protection path, and determines a priority for each protection path according to a prioritization rule preset using the assigned delimiter before performing protection switching; And
When a protection transfer event occurs, the protection transfer execution unit that performs the protection transfer according to the priority determined for each protection path is performed.
. The method of claim 16, wherein
The protection switching unit performs the priority determined for each protection path in a state in which the first node and the second node set the same priority for the plurality of protection paths according to a priority determination rule using the delimiter. According to the protective switching device, to carry out protective switching. The method of claim 16, wherein
And the identifier is a maintenance entity group (MEG) ID when the network is a packet transport network, and the identifier is a trail trace identifier (TTI) when the network is a circuit transport network.

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