KR102126222B1 - Method and appratus for interworking protection switching - Google Patents

Abstract

In a multi-domain network in which at least one operational interconnect node and at least one protected interconnect node are formed between a first service end node and a second service end node, both the operational path of the arbitrary node and the first protected path fail. When it occurs, the node that recognizes the failure performs a switch to the second protection path connected to the corresponding protection interconnection node.

Description

Interlocking protection switching method and device {METHOD AND APPRATUS FOR INTERWORKING PROTECTION SWITCHING}

The present invention relates to an interlocking protection switching method and apparatus.

Protection switching is a method for resuming traffic as soon as possible when the network is interrupted 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.The linear protection switching includes 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 (or working transport entity) and a protection path (or protection transport entity). When a failure occurs or the route changes under operator control, the traffic is carried through the protected route.

In line transport network technology such as OTN (optical transport network), and packet transport network technology such as Ethernet and Multi-Protocol Label Switching-Transport Profile (MPLS-TP), for linear protection switching, automatic protection switching (Automatic It uses the Protection Switching (APS) message or the Protection State Coordination (PSC) message to manage the switching status and switch the path protection.

In a domain/segment network to be protected, in the case of end-to-end linear protection against failure of paths (eg, transport entities) between two end nodes, protection The protection switching process (PSP) determines the transmission/reception (Bridge/Selector) of the path.

However, if the node with the protection switching processing unit is damaged or both paths fail, protection recovery cannot be performed.

The problem to be solved by the present invention is to provide an interlocking protection switching method and apparatus capable of performing a protective recovery operation when a failure occurs in a multi-domain network.

In the protection switching method according to the feature of the present invention, in a protection switching method in a multi-domain network or a multi-segment network, in which at least one interconnection node is formed between nodes of a protection domain, two protection domains are provided. When the above-described failure occurs, it includes the step of performing a transfer with an added alternative route or a protection route.

In the step of performing the switching, when a failure occurs in both an operation path and a first protection path of an arbitrary node, and when two or more failures occur, the node recognizing the failure performs switching to the corresponding second protection path In addition, the second protection path may include a path connected to an interworking node capable of transmitting and receiving traffic between domains by avoiding failures.

Each node is an interconnection node that performs traffic protection switching through the operational path and the first protection path, and another one used to transmit and receive traffic to an adjacent domain through the second protection path for two or more failures. Interconnect nodes can be used.

The service end node may communicate with the operational interconnection node corresponding to the neighboring domain through the operating path and the first protection path, and may communicate with the protection interconnection node corresponding to the neighboring domain through the second protection path. The primary interconnection node communicates with the end node corresponding to the neighboring domain or the primary interconnection node through the primary path and the primary path, and communicates with the primary interconnection node or secondary node corresponding to the neighboring domain through the secondary guard path. can do. In addition, each protection interconnection node may communicate with another protection interconnection node corresponding to an adjacent domain through a third protection path.

The step of performing the switchover to the second protection path is when the operation interconnection node has a failure and it is recognized that there is a failure in both the operation path and the first protection path corresponding to the operation node where the failure occurs. It is possible to perform a switch to a second protection path where a node recognizing is connected to a protection interconnection node.

The failure-aware node transmits traffic to a corresponding neighboring domain by recognizing a path failure in two service end nodes, multiple interconnection nodes, and at least one domain in two or more nodes in a multi-domain network. It may be at least one of interconnection nodes capable of transmitting and receiving. Meanwhile, the step of performing the switching to the second protection path may include the operation interconnection when both the operation path and the first protection path connected to the domain managed by the operation interconnection node and the first service end node fail. A node notifying the occurrence of a failure to a corresponding node in its domain or a node corresponding to an adjacent domain; Performing a switch to a second protection path in which the node notified of the occurrence of the failure is connected to a protection interconnection node; And performing switching to a second protection path where the first service end node is connected to the protection interconnection node.

In addition, the step of performing the switch to the second protection path is a failure in both the operation path and the first protection path connected to the domain managed by the operation interconnection node and the first service end node, and the operation interconnection If the first protection path with the node of the neighboring domain corresponding to the node fails, the first service end node performs a switch to the second protection path of the corresponding protection interconnection node; Transmitting, by the first service end node, a message notifying that a failure has occurred through the second protection path of the protection interconnection node; Notifying the occurrence of a failure to the node corresponding to the adjacent domain by the protection interconnection node receiving the message; And performing a switch to a second protection path in which the node notified of the occurrence of the failure is connected to the protection interconnection node.

In addition, when the node notified of the occurrence of the failure is the second service end node, the second service end node performs a switch to a second protection path that is connected to a protection interconnection node, and from the first service end node Traffic may be delivered to the second service end node through a second protection path connected to the protection interconnect node.

In addition, when the node notified of the occurrence of the failure is another operational interconnection node corresponding to an adjacent domain, a second protection path through which traffic from the first service end node is connected to the protection interconnection node, the protection interconnection node And a second protection path between another operational interconnection node corresponding to the neighboring domain, and a first operational path between the other operational interconnection node corresponding to the neighboring domain and the second service end node. It can be delivered to the service end node.

On the other hand, the step of performing the switch to the second protection path is a failure in both the operation path and the first protection path connected to the domain managed by the operation interconnection node and any service end node, and corresponds to the operation interconnection node. Notifying the occurrence of a failure through the second protection path of the protection interconnection node corresponding to the neighboring domain when the operation path with the node of the neighboring domain and the first protection path fail; Transferring the protection interconnection node notified of the failure to a third protection path connected to another protection interconnection node corresponding to an adjacent domain; And each node may switch to a second protection path of the corresponding protection interconnect node.

In addition, the step of performing the switch to the second protection path is when the operation path and the first protection path connected to the domain managed by the operation interconnection node and any service end node fail, the operation interconnection node is adjacent Receiving a failure occurrence through a second protection path of another operational interconnection node corresponding to the domain; Notifying the occurrence of a failure through the second protection path of the protection interconnection node corresponding to the adjacent domain, by the operation interconnection node notified of the occurrence of the failure; Transferring the protection interconnection node notified of the failure to a third protection path connected to another protection interconnection node corresponding to an adjacent domain; Switching to a third protection path connected to a protection interconnection node corresponding to an adjacent domain; And each node may switch to a second protection path of the corresponding protection interconnect node.

Here, a second protection path, traffic from the first service end node is connected to a protection interconnect node, a third protection path between a protection interconnect node and a protection interconnect node, a protection interconnect node and the second service end node Through the second protection path between, it may be delivered to the second service end node.

In addition, the step of performing the switch to the second protection path is a failure in both the operation path and the first protection path between the first service end node and the operation interconnection node, and when the generated failure is a one-way failure, the operation interconnection node A step of notifying a failure through a first protection path of a second service end node or another operating interconnection node in an adjacent domain; Performing a switch to the second protection path of the corresponding protection interconnection node by the node notified of the occurrence of the failure; And switching, by the first service end node, to a second protection path of the corresponding protection interconnection node.

In addition, the step of performing the switchover to the second protection path is a failure in both the operation path and the first protection path between the first service end node and the operation interconnection node, and the generated failure is a one-way failure, and the operation interconnection When a failure occurs in a first protection path with a node corresponding to a node's neighboring domain, a failure occurs in the protection interconnection node through a protection path in which the operational interconnection node is additionally formed between corresponding protection interconnection nodes. Notifying; Notifying the occurrence of a failure to the first service end node and the second service end node by the protection interconnect node through a second protection path; The first service end node performing switching to a second protection path of the protection interconnection node; And switching, by the second service end node to a second protection path of the protection interconnect node. The additionally formed protection path may be a tandem connection.

On the other hand, the step of performing the switching to the second protection path is a failure in both the operation path and the first protection path between the first service end node and the operation interconnection node, and the generated failure is a one-way failure, and the operation interconnection When a failure occurs in a first protection path with a node corresponding to a node's neighboring domain, the operational interconnection node notifies the failure by sending an additional operations, administration, and maintenance (OAM) message to the first service end node. To do; And the first service end node performing switching to a second protection path of the corresponding protection interconnection node.

In this case, the protection switching method may include: notifying, by the first service end node, that a failure occurs through a second protection path of the protection interconnection node; Notifying, by the protection interconnection node, a failure to the second service end node through a second protection path; And the second service end node performing switching to the second protection path of the protection interconnection node.

In addition, the step of performing the switching to the second protection path may include a failure in both the operation path and the first protection path between the first service end node and the operation interconnection node, and the generated failure is a one-way failure. When a first protection path with a node corresponding to an adjacent domain of an interconnection node fails, the operational interconnection node is a node corresponding to the adjacent domain according to an additional automatic protection switching (APS) option. Or it may include the step of notifying the occurrence of the failure by sending a PSC (Protection State Coordination) message.

The interlocking protection switching device according to another aspect of the present invention, in the interlocking protection switching device for performing protection switching in a multi-domain network or a multi-segment network in which at least one interconnection node is formed between nodes of the protection domain, When a plurality of failures occur in one protection domain, an interlocking protection switching processing unit for switching to a path without a failure among protection paths is included.

The interlocking protection switching processing unit is a single-stage protection switching processing unit that performs switching to a protection path when one failure occurs in one protection domain; And a two-stage protection switching processing unit that performs switching to the added alternative path or protection path when two or more failures occur in one protection domain.

The two-stage protection switching processing unit may perform a switch to the second protection path when two or more failures occur due to failures in both the node's operating path and the first protection path. The second protection path may include a path connected to an interworking node capable of transmitting and receiving traffic between domains by avoiding failures.

The first stage protection switching processing unit and the second stage protection switching processing unit may be connected through a virtual operation path.

Each node communicates with an operational interconnection node through an operational path and a first protected path, and communicates with a protected interconnection node through a second protected path, and each operational interconnection node communicates through an operational path and a first protected path. Communicate with the operational interconnection node corresponding to the adjacent domain, and communicate with the protected interconnection node corresponding to the neighboring domain through the second protection path, and each protected interconnection node may communicate with the other corresponding to the neighboring domain through the third protection path. It can communicate with the protection interconnect node.

According to an embodiment of the present invention, it is possible to perform proper linear protection switching even if a failure occurs in a path and a connection node for transmitting and receiving packets in a multi-domain network.

In addition to single path failure and single node failure in each domain, both the operational path and the protection path fail, and for one or more failures in each domain, traffic can be protected through additional protection paths.

In addition, it is possible to increase the reliability of the network by supporting node redundancy, which is frequently required by operators when operating a network.

1 and 2 are diagrams illustrating an interlocking protection switching device that performs protection switching processing when a failure occurs in a multi-domain network according to an embodiment of the present invention.
3 to 8 are views showing an implementation of a structure for protection switching in a multi-domain network, based on an interlocking protection switching device according to an embodiment of the present invention.
9 to 12 are exemplary views showing that protection switching processing is performed when a failure occurs in a multi-domain network according to an embodiment of the present invention.
13 to 16 are other exemplary diagrams showing that protection switching is performed when a failure occurs in a multi-domain network according to an embodiment of the present invention.
17 to 24 is another exemplary view showing that protection switching processing is performed when a failure occurs in a multi-domain network according to an embodiment of the present invention.

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 to which the present invention pertains can easily practice. However, the present invention can be implemented in many different forms and is not limited to the embodiments described herein. In addition, in order to clearly describe the present invention in the drawings, parts irrelevant to the description are omitted, and like reference numerals are assigned to similar parts throughout the specification.

Throughout the specification, when a part “includes” a certain component, this means that other components may be further included rather than excluding other components unless specifically stated to the contrary.

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

1 and 2 are diagrams illustrating an interlocking protection switching device that performs protection switching processing when a failure occurs in a multi-domain network according to an embodiment of the present invention.

1 and 2, an operating path (Working Path or Working Transport entity) (WP1) and at least one protection path (Protection Path or Protection Transport entity) P1 for transmitting and receiving packets between a node and a node (P1) , P2) can be operated.

In a multi-domain network having this structure, when both the operational paths and the protection paths that have been set in advance due to failures of paths for transmitting and receiving packets and failures of connection nodes occur, that is, when two or more paths fail A protection switching device (PSP) is used to perform proper linear protection switching by using an alternate path or a protection path, and the protection switching device manages information about the path and the multi-domain network and protects the switching. Perform.

For effective linear protection switching, as shown in FIG. 1, the interlocking protection switching device according to an embodiment of the present invention may perform two-stage interlocking protection switching using two protection switching processing units 10 and 20.

The first protection switching processing unit 10 operates the operation path WP1 and the protection path PP1, and is connected to the second protection switching processing unit 20 through the virtual operation path WP2. The second protection switching processing unit 20 operates a virtual operation path and an additional protection path PP2.

The first and second protection switching processing units 10 and 20 perform information management and path switching and control, including failure information for corresponding operating paths and protection paths, and transmit and receive and transfer traffic carried over these paths. Decide on (switching). The first and second protective switching processing units 10 and 20 function as a bridge/selector.

In the failure information used for the protection switching operation, the failure state of the virtual operation path WP2 connecting the first and second protection switching processing units 10 and 20 depends on the operation path WP1 and the protection path PP1. , It can be operated as shown in Table 1 below.

Virtual (Operational) Path (WP2) Operating route (WP1) Protection Path (PP1) Normal (NR) Normal (NR) Normal (NR) Normal (NR) Normal (NR) Disability (SF) Normal (NR) Disability (SF) Normal (NR) Disability (SF) Disability (SF) Disability (SF)

In Table 1, normal indicates an NR (No request) state without a request such as a request for any failure or transfer, and fault indicates a signal fail (SF) state in which a path is damaged and unavailable.

As shown in Table 1 above, for two-step interlocking protection switching, the operation path 2 (WP2) is a virtual path, and only when both the operation path WP1 and the protection path PP1 fail, the operation path 2( WP2) is recognized as disabled. Here, the first protection switching processing unit 10 controlling the operating path WP1 and the protection path PP1 may be referred to as a “one-stage protection switching processing unit”, and a virtual operating path WP2 and an additional protection path PP2. ) May be referred to as a “second-stage protection transfer processing unit”. The additional protection path is an alternative path or a protection path added to protect traffic in the event of two or more path failures.

The protection switching processing unit in any node including the first protection switching processing unit and the second protection switching processing unit according to an embodiment of the present invention may be referred to as an interlocking protection switching processing unit.

Automatic Protection Switching (APS) (or Protection State Coordination (PSC)) messages for switching state management and path protection switching operate on both the protection path (PP1) and the protection path (PP2). Automatic protection switching message carried through) includes information on the operating path (WP1) and the protective path (PP2), so that the operating path (WP1) and the protective path (PP1) can be protected. ), the automatic protection switching message carried through includes information about the virtual operating path (WP2) and the protection path (PP2) to enable interlocked protection switching.

Additionally, when multiple protection paths PPn are required due to expansion of a protected domain, that is, n:1 (where n represents the number of protection paths and 1 represents the number of operational paths) ) If protection switching is required, it can be extended to the n-step interlocking protection switching processing method. That is, the multi-level protection switching as shown in FIG. 1 can be performed while the protection switching processing units are connected through the virtual operating path while adding the protection switching processing unit that controls the increased protection path.

In addition, for effective linear protection switching, as shown in FIG. 2, the interlocking protection switching device according to an embodiment of the present invention may perform one-step interlocking protection switching using one protection switching processing unit 30.

As shown in the attached FIG. 2, one interworking protection switching processing unit 30 controls the operating path WP1 and the protection paths PP1, PP2, and determines transmission/reception and transfer of traffic carried by these paths. The interlocking protection transfer should be made.

Interlocked protection switching processing unit composed of one protection switching processing unit manages the route status information of three logical paths, the operating path (WP1), the protection path (PP1) and the added protection path (PP2), and performs path switching and control do.

The protection path PP2, which is an alternate path added until both the operation path WP1 and the protection path PP1 fail, does not participate in traffic protection recovery. That is, when a failure is detected in two managed paths, traffic is transmitted and received through an additional protection path. In the one-step interlocking protection switching, the method of performing protection and recovery using the protection path PP2 is the same as combining the two-stage protection switching processing and the two-stage protection switching processing functions in the second-stage interlocking protection switching of FIG. 1. . Here, information carried through the protection path PP1 or the protection path PP2 includes information about the operating path WP1 and the protection path PP2, and information about the virtual operation path WP2 and the protection path PP2, respectively. It can also contain information about all three transmission paths.

Additionally, when multiple protection paths (PPn) are required due to expansion of a domain to be protected, that is, when n:1 protection switching is required, it is possible to expand the n-step interlocking protection switching processing method. That is, it is possible to manage n protection paths in which the first stage protection switching processing unit is increased.

As described above, the protection switching device according to the embodiment of the present invention is implemented in a form including a first-stage protection switching processing unit and a second-stage protection switching processing unit as shown in FIG. 1 to perform a two-step interlocking protection switching processing, or As illustrated in FIG. 2, it can be implemented in the form of one protection transfer processing unit to perform one-step interlocking protection transfer processing.

3 to 8 are views showing an implementation of a structure for protection switching in a multi-domain network, based on an interlocking protection switching device according to an embodiment of the present invention.

The protection switching architecture for a multi-domain network to be protected can be modeled as shown in FIGS. 3 to 8. In each figure, a connection function represents logically encompassing a first-stage interlocking protection switching processing method and a second-stage interlocking protection switching processing method.

3 and 4 are two domains to be protected, and FIGS. 5 to 7 show three or more domains to be protected. If there are four domains to be protected, in FIG. 5 to FIG. 8, a protection switching configuration such as domain 2 for domain 3 is added, and a protection switching configuration of domain 3 may be made for domain 4. If additional domains to be protected are expanded, you can continue to expand the intermediate domains in this way (adding a protection switching configuration such as Domain 2 and forming a protection switching configuration such as Domain 3 for the last domain).

8 shows a logical path section managed to monitor each path in the domain for protecting each path in the domains. As there are physical paths as many as the number of logical paths, each logical path may use one physical path, or multiple logical paths may be included in one physical path.

3 to 8, node A and node B are service end nodes of multiple protected domains. The protected domain is end-to-end across multiple network segments/domains for any service (this service can be started from the protection switching processing unit of one end point and provided to another protection switching processing unit of another end point). When present in the form of (End-to-End), it is a node having a selector/bridge, ie, a protection switching processing unit, in which transport entities are terminated across multiple network segments/domains.

Node C and node E are interconnect nodes, each of which can be a working interconnected node, a protected interconnect node, and the operational interconnect node has an operational path (or working transport entity) within the domain to be protected. Node.

The interconnection node may include one or two interlocking protection switching processing (including one or two-stage protection switching processing units), and may include interlocking protection switching processing units for respective domains, and manage up to six paths It may be one interlocking protection switching processing unit. The protection switching processing unit of the interconnection node may be referred to as an interlocking protection switching processing unit. The interconnection node is composed of two physical nodes, each of which performs a protection switching operation on two interlocked domains, and may transmit and receive traffic interworking using an additional physical path connecting the two physical nodes, or one physical node It is composed of and the internal protection switching processing unit is logically separated, and may be a node that transmits and receives traffic for interworking with traffic through an additional logical path.

The protection switching processing unit is additionally protected due to one or more failures, such as the protection switching processing unit for domain 1 (domain 3 in node E) in node C in FIGS. 3 and 4 and node C in FIGS. 5 and 6. When operating to enable path recovery without the path PP2, the additional protection path PP2 may be maintained in a normal (NR) state.

Alternatively, in node C of FIGS. 3 and 4 and node C of FIGS. 5 and 6, such as the protection switching processing unit of domain 1 (domain 3 in node E), there is no need to participate in additional protection paths due to one or more failures. In this case, only two paths can be managed and used without modification of the protection switching processing unit according to the existing communication standard. However, it should be possible to send additional messages (such as APS or PSC messages) for interlock protection switching.

Meanwhile, nodes D and F are protection interconnected nodes and nodes that do not have a working transport entity in a domain to be protected.

In order to protect the traffic between the two domains, the interconnecting nodes deliver traffic in the appropriate path and protection switching message between the nodes in the domain and the two domains, if necessary, in order to handle the interworking of the protection switching protocol.

The protection interconnection node may operate with one interlocking protection switching processing unit or without a protection switching processing unit. In the case where no control is required for transmission/reception and switching of the traffic carried to the domain 1 at node D in FIG. 5 to FIG. 8 (domain 3 at node F), and the domains at node D in FIGS. 3 and 4, The protection interconnection node can perform only a function of changing and forwarding traffic and protection switching messages (APS messages or PSC messages) between nodes in the domain and the domains according to an appropriate node and a domain.

5 to 8, when the node D (or node F) includes an interlocking protection switching processing unit for domain 2, the interlocking protection switching processing unit is responsible for processing and controlling the protection switching message of the protection path, and the protection paths It determines the transmission/reception and protection switching for the transported traffic. In addition, when an additional protection path PP2 is used as a basic active path according to two or more failures, and traffic protection is required in a multi-domain network, traffic can be transmitted and received through another protection path PP3.

Meanwhile, FIGS. 4 and 6 are related to logical linear protection switching processing for a protection domain to cover a ring topology configuration and a linear mesh topology configuration managed by an interlocking protection switching processing unit in a multi-domain network. will be.

In a linear mesh topology configuration, the number of logical protection paths for transmitting and receiving traffic and the number of management paths (Transport Entity) are the same.To fit the ring topology configuration to the linear protection switching protocol, the protection transport entities are one Tandem connections (eg PP2, PP3, I-PTC) are configured to add multiple logical protection paths by dividing the monitoring section of the logical protection path (for example, PP1).

In the ring topology configuration, the number of paths (Transport Entity), that is, the operational path and the protection path through which the actual data is transmitted and received in each domain of each node is one, and one operational path and the protection path are configured as a ring.

Tandem connections have different sections managed in the path and outputs to be transmitted in the traffic node, so the interlocked protection switching processing unit monitors the section failure status in the Automatic Protection Switching (APS) protocol and carries the traffic to the appropriate output. Used as a route. The interlocking protection switching processing unit monitors the path state of each tandem connection and selects one of the tandem connections according to the interlocking automatic protection switching (APS) protocol, and the actual traffic is delivered to an appropriate protection path (for example, the protection path PP1). do. That is, even if the traffic transmission/reception between the protection paths PP1, PP2, and PP3 changes in the interlocking protection switching processing unit, the actual data traffic transmission/reception for one protection path does not change, and the selection of traffic transmission/reception between the operation path and the protection path The actual changeover occurs only by the change.

Interworking Protection Tandem Connection (I-PTC) represents a tandem connection or path between interconnection nodes when the ring topology configuration is configured as a management domain for linear protection switching. I-PTC can be used as a delivery path for messages such as APS required for the interlocking protection switching protocol. 4 and 6, by adding an I-PTC connection configuration in a linear mesh topology configuration, it can be used for carrying a protection switching message in a unidirectional failure processing. This connection may exist for each management domain depending on the needs of the interconnect node, and may be absent if not required.

In a multi-domain network according to an embodiment of the present invention, data transmission methods of each domain (for example, circuit switching of OTN, switching of Ethernet switch, MPLS label switching, etc.) may be different, and an interlocking protection switching processing unit is operated. The scheme may use a ring topology configuration or a linear mesh topology configuration or a mixture of these configurations depending on the transmission characteristics. As shown in FIG. 7, the interlocking protection switching processing unit present for each domain of each node in each domain is set in a suitable configuration method (for example, ring topology configuration or linear mesh topology configuration) to perform protection switching.

On the other hand, in the ring topology configuration, as shown in FIG. 8, in normal state, traffic is transferred between the service end node and the operation interconnection node (or between the operation interconnection nodes), and then in the protection interconnection nodes (nodes D and E), If both the operational path (WP1) and the protected path (PP1) are recognized as having failed, the traffic must be carried through the additional protection path (PP2) (including the protected path PP3), which is a tandem connection. Therefore, only when both the operation path WP1 and the protection path PP1 cannot be used, it is possible to transmit traffic to the protection path between adjacent domains for data traffic protection.

Next, in a multi-domain network having the above-described structure, an interlocking protection switching method according to an embodiment of the present invention that performs protection switching when a failure occurs will be described.

9 to 12 are exemplary views showing that protection switching processing is performed when a failure occurs in a multi-domain network according to an embodiment of the present invention. In particular, FIGS. 9 and 10 show protection switching processing in the case where a failure occurs in the operation path WP1 in each domain, and FIGS. 11 and 12 show protection switching processing in the case where a failure occurs in the operation interconnection node in each domain It is.

When a failure occurs in the operation path WP1 in each domain, as shown in FIGS. 9 and 10, failure recovery is possible by the first-stage protection switching processing unit.

Specifically, when it is desired to transmit and receive traffic between node A and node B, as shown in FIGS. 9A and 10A, the operational path WP1 between the node C and the node A of the operational interconnection is interrupted. Occurrence, as shown in Figs. 9(b) and 10(c), the operational path between the operational interconnection node C and node A (WP1) and the operational path between the operational interconnection node C and node B (WP1) When a failure occurs, or when a failure occurs in the operating path WP1 between nodes (nodes C and E) between the operational interconnection nodes as shown in FIGS. 10B and 10C, the first stage protection switching processor of each node By performing a switchover to the protection path PP1, traffic from the node A is transmitted to the node B via the operation interconnection node C (or node E) through the protection path PP1.

Even if a failure occurs in the protection path PP1 in each domain, it is possible to recover from the failure by the first-stage protection switching processing unit. As long as a failure does not occur in both the operation path WP1 and the protection path PP1 in each domain, failure recovery is possible by the first-stage protection switching processing unit.

11 and 12, when two or more failures occur in each domain or two or more failures due to node failures, for example, when a failure occurs in an operational interconnection node (Node C or Node E), each Since a failure occurs in both the operation path (WP1) and the protection path (PP1) in the domain, failure recovery is possible by the two-stage protection switching processing unit. As shown in FIG. 11, the two-stage protection switching processing unit switches traffic transmission and reception to a protection path PP2, so that traffic transmission and reception between the node A and the node B is performed through the protection interconnection node (node D). do.

In addition, when a failure occurs in one node C of the two interconnection nodes, as shown in FIG. 12(a) by the two-stage protection switching processing unit, each node in the domain transfers traffic transmission and reception to a protection path (PP2), Traffic is transmitted and received between the node A and the node B through the protection interconnect node D and the node E, which has not failed.

In addition, when both of the interconnection nodes (Node C and Node E) fail, and the protection path (PP2) (Domain 2) of the protection interconnection node fails, the second-stage protection switching processing unit of Node A is used. As in (b), each node in the domain switches traffic transmission and reception to the protection path (PP2), and the protection switching processing unit of the protection interconnection node D switches to the protection path (PP3), thereby Traffic is transmitted and received between Node A and Node B through the protection path PP3 between the protection interconnect nodes F.

As described above, even if a failure occurs in both the operation path WP1 and the protection path PP1 in each domain, failure recovery is possible by the two-stage protection switching processing unit.

As mentioned above, when each node having the interlocking protection switching processing unit composed of one stage has two or more failures, each node in the domain switches traffic transmission and reception to an additional protection path (PP2), and further protects as necessary. Traffic transmission and reception is switched through the path PP3.

13 to 16 are other exemplary diagrams showing that protection switching is performed when a failure occurs in a multi-domain network according to an embodiment of the present invention.

13 and 14, there are two or more failures in the domain (e.g., domain 1) managed by the service end node (e.g., node A) and the operational interconnect node (e.g., node C). If it occurs, if the connected operating path (WP1) and the protected path (PP1) are both in a fault state, the interworking protection switching processing unit of the operation interconnection node C corresponds to the node B (Fig. 2) corresponding to the adjacent domain (for example, domain 2). At 14, node E) may be notified of the occurrence of the failure. In this case, the interworking protection switching processing unit of the operational interconnection node C transmits a protection switching message, that is, an APS or PSC message informing of the occurrence of a failure through the protection path PP1. Accordingly, Node B (Node E in FIG. 14) corresponding to the adjacent domain (eg, domain 2) recognizes the occurrence of a failure, and performs switching to the protection path PP2 to protect traffic.

However, in the state of failure as shown in FIGS. 13 and 14, as shown in FIGS. 15 and 16, when the protection path PP1 for an adjacent domain (for example, domain 2) also fails, an operational interconnection node (FIG. At 15, node C and node B, and in FIG. 16, APS or PSC message transmission notifying the occurrence of a failure may not be performed.

In this case, when two or more failures occur, the node that performs the transfer by recognizing that both the operating path WP1 and the protection path PP1 has a failure occurs, that is, the node A has a protection path as shown in FIGS. 15 and 16. This is notified to the protection interconnect node (Node D) via (PP2). The protection interconnection node (Node D) notified of the above failure through the APS or PSC message processes the received APS or PSC message as an APS or PSC message suitable for the adjacent domain (eg, domain 2), and , The processed APS or PSC message is transmitted to the adjacent service end node (Node B in FIG. 15) or the adjacent operational interconnection node (Node E in FIG. 16) through the protection path (PP2) (Domain 2). Accordingly, the failure is recognized through the APS or PSC message received by the interworking protection switching processing unit of the adjacent service end node (Node B in FIG. 15) or the adjacent operational interconnection node (Node E in FIG. 16), and the protection path (PP2) ) To protect traffic by performing switchover (SW2).

17 to 19 is another exemplary view showing that protection switching processing is performed when a failure occurs in a multi-domain network according to an embodiment of the present invention.

As shown in FIG. 17, in the state in which the operation interconnection nodes (Node C and Node E) recognize that both the operation path (WP1) and the protection path (PP1) for the domain (Domain 2) have failed, and to perform switching. Also, the operating path (WP1) and the protection path (PP1) of the neighboring domain (Domain 1 for Node C and domain 3 for Node E) managed by itself are also protected domain 2 (PP2). This is communicated to the protection interconnect nodes (Node F and Node D). That is, the node C notifies the protection interconnection node F through the protection path PP2 that both the operation path WP1 and the protection path PP1 for the domain 2 have failed. In addition, the node E notifies the protection interconnection node D through the protection path PP2 that both the operation path WP1 and the protection path PP1 for the domain 2 have failed.

Accordingly, the protection interconnection nodes (nodes F and D) perform a switchover to the protection path PP3 for traffic protection.

In addition, as shown in FIGS. 18 and 19, the operational interconnection node (Node C or Node E) is an APS indicating that a failure has occurred in both the operational path (WP1) and the protection path (PP1) of the adjacent node to which it is not connected. Alternatively, a PSC message may be received. That is, the node C receives the APS or PSC message from the node E through the protection path (PP1) indicating that both the operation path and the protection path for the domain 3 have failed, and the node E receives the operation path and protection for the domain 1 An APS or PSC message indicating that all paths have failed may be received from the node C through the protection path PP1.

In this case, the operation interconnection nodes (Node C and Node E) notify the protection interconnection node (Node F or Node D) of the above failure through the protection path PP2 of domain 2. That is, the node C notifies the protection interconnection node F through the protection path PP2 that both the operation path WP1 and the protection path PP1 for the domain 3 have failed. In addition, the node E notifies the protection interconnection node D of the operation path WP1 and the protection path PP1 for the domain 1 through the protection path PP2 that a failure has occurred.

Accordingly, the protection interconnection nodes (nodes F and D) perform a switchover to the protection path PP3 for traffic protection.

20 is another exemplary diagram illustrating that protection switching processing is performed when a failure occurs in a multi-domain network according to an embodiment of the present invention.

20 shows a case in which a failure occurs in one direction instead of in both directions in an arbitrary path.

The interworking protection switching processing unit of the operational interconnection node has a local failure of the operational path and a remote failure of the protected path (where remote failure represents a failure recognized through an APS or PSC message sent by a node managing the protected path where the failure occurred). If recognized, it operates by recognizing that both the operating path and the protection path have failed. That is, as shown in FIG. 20, the operation interconnection node C notifies the service end node B (or related operation interconnection node) of the APS or PSC message indicating the occurrence of the failure through the protection path PP1, thereby terminating the service. Node B (or related operational interconnection node) transmits the failure to the corresponding service end node A (or related operational interconnection node) through the protection path PP2. Accordingly, even if a unidirectional failure occurs, the service end node A (or related operational interconnection node) that does not recognize it performs transfer to the protection path PP2 to deliver traffic.

21 and 22 is another exemplary view showing that a protection switching process is performed when a failure occurs in a multi-domain network according to an embodiment of the present invention. 21 and 22 show a case in which a failure does not occur in both directions in one path, but occurs in one direction, and information indicating a failure cannot be transmitted due to damage to the protection path PP1 for an adjacent domain.

Specifically, the interworking protection switching processing unit of the operation interconnection node recognizes that a local failure of the operation path and a remote failure of the protection path have been recognized, and thus both the operation path and the protection path have failed, and the protection path for the adjacent domain (PP1) In case of damage to the service, the failure related information cannot be transmitted to the service end node (or related operational interconnection node). To solve this case, the interworking protection switching processing unit sends an APS or PSC message informing of the occurrence of a failure to the protection interconnection node, as shown in FIGS. 21 and 22 through the protection paths PP2 and PP3.

Upon receiving this information, the protected interconnect node recognizes the simultaneous failure of the service end node (or related operational interconnect node) of the domain in which the APS or PSC message has failed and the operational path (WP1) and protection path (PP1). This is notified to the service end node (or related operational interconnect node) of the adjacent domain of the connecting node, so that the traffic protection switching can be performed.

Specifically, in FIG. 21, the interlocking protection switching processing unit of node C transmits an APS or PSC message to the protection interconnection node E through the protection path PP2, and the protection interconnection node E is the APS or PSC The message is sent to the protection interconnect node D associated with the service end node A in the failed domain. Subsequently, the protection interconnection node D is connected to the service end node A of the domain where the failure occurred through the protection path (PP2) and the adjacent domain of the interconnection node C, which recognizes the simultaneous failure of the operation path (WP1) and the protection path (PP1). Interconnection node E is informed of the failure. Accordingly, the service end node A performs switching to the protection path (PP2), and the interconnection node E also performs switching to the protection path (PP2), so that the traffic from the service end node A is interconnected with the protection interconnection node D. It is delivered to the service end node B through node E.

In addition, in the case of FIG. 22, the interlocking protection switching processing unit of the node C uses the I-PTC, which is an additional protection path formed between the operational interconnection node and the protection interconnection node, to provide an APS for notifying the failure of the protection interconnection node D or Send a PSC message.

In this case, the protection interconnection node D transmits the APS or PSC message through the protection path PP2 to the service termination node A of the failed domain and the service termination node B of the neighboring domain of the interconnection node C that recognizes the simultaneous failure. . Thereafter, the service end nodes A and B, which have recognized the occurrence of the failure, perform switching to the protection path PP2, respectively, so that traffic from the service end node A is transmitted to the service end node B through the protection interconnect node D.

23 is another exemplary diagram illustrating that protection switching processing is performed when a failure occurs in a multi-domain network according to an embodiment of the present invention. FIG. 23 shows additional OAM (Operations, Administration, and Maintenance) messages (or RDI (ODI) messages when unidirectional failures are recognized in two management paths (WP1, PP1), such as a local failure of an operational path and a remote failure of a protected path as above. remote defect infication message) indicates that the service end node (or related operational interconnection node) recognizes that a failure occurs in both management paths and performs protection switching.

Specifically, as shown in FIG. 23, the interlocking protection switching processing unit of the operating interconnection node recognizes a local failure of the operating path and a remote failure of the protection path and recognizes that the operation path and the protection path have both failed. When the protection path PP1 is damaged, the failure related information cannot be transmitted to the service end node (or related operational interconnection node). At this time, the operational interconnection node C may notify the occurrence of the failure by sending an RDI message to the service end node A of the domain in which the failure occurred. Accordingly, the service end node A can switch to the protection path PP2 to protect the traffic.

20 to 23 show that each path is a bi-directional path representing transmission and reception, and the path between node A and node C in FIG. 24 uses two unidirectional path lines to indicate a unidirectional failure in the bidirectional path. It was shown using.

24 is another exemplary diagram illustrating that protection switching processing is performed when a failure occurs in a multi-domain network according to an embodiment of the present invention. FIG. 24 shows that when a unidirectional failure is recognized in two management paths (WP1, PP1), such as a local failure of the operating path and a remote failure of the protection path, damage occurs in the protection path (PP1) for the adjacent domain. Indicates that the service end node (or related operational interconnection node) cannot be notified. Here, a failure occurs to the service end node (or related operational interconnection node) through an additional APS option (sending an APS or PSC message through the operational path WP1) as well as a live protected path (PP1) as well as an operational path (WP1). Notify.

In the case of FIG. 24, although the operation interconnection node C is damaged in the protection path (PP1) for the neighboring domain, the service end node B sends an APS or PSC message informing of the failure through the operation path (WP1) according to the APS option. To send. Accordingly, the service end node B switches to the protection path PP2 to protect the traffic.

The failure occurrence notification using the above-mentioned APS or PSC message may be transmitted between each node through a logical information signal in a form other than the APS or PSC message.

The embodiment of the present invention described above is not implemented only through an apparatus and method, and may be implemented through a program that realizes a function corresponding to the configuration of the embodiment of the present invention or a recording medium in which the program is recorded.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concept of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

Claims (24)

In a protection switching method in a multi-domain network or a multi-segment network in which at least one interconnection node is formed between nodes in a protection domain,
When both the operation path and the first protection path formed for any node in one protection domain fail, the node that recognizes the failure is the second protection path-the second protection path is the operation path of the node and the first protection It is a protection path except the path, and it is also a protection path added to protect traffic.
Including,
The second protection path includes a path connected to an interconnection node that transmits and receives traffic between domains by avoiding failures. delete The method of claim 1
Each node communicates with an operational interconnection node through an operational path and a first protection path, and with a protection interconnection node used to send and receive traffic to an adjacent domain via a second protection path. The method of claim 3
The service end node communicates with the operational interconnection node corresponding to the neighboring domain through the operating path and the first protection path, and communicates with the protection interconnection node corresponding to the neighboring domain through the second protection path.
The primary interconnection node communicates with the end node corresponding to the neighboring domain or the primary interconnection node through the primary path and the primary path, and communicates with the primary interconnection node or secondary node corresponding to the neighboring domain through the secondary guard path. And
Each protection interconnect node communicates with another protection interconnect node corresponding to an adjacent domain through a third protection path. The method of claim 3
The step of performing the transfer to the second protection path is
When a failure occurs in the operation interconnection node and it is recognized that there is a failure in both the operation path and the first protection path corresponding to the operation interconnection node in which the failure occurs, the node recognizing the failure is connected to the protection interconnection node. 2 A protective switching method, in which a transfer to a protective pathway is performed. The method of claim 4
The failure-aware node is a corresponding adjacent domain by recognizing a path failure in two service end nodes, multiple interconnection nodes, and at least one domain in two or more nodes in a multi-domain network. A protection switching method, which is at least one of interconnecting nodes capable of transmitting and receiving traffic. According to claim 3,
The step of performing the transfer to the second protection path is
When both the operation path and the first protection path connected to the domain managed by the operation interconnection node and the first service end node fail, the operation interconnection node corresponds to a corresponding node or an adjacent domain in its domain. Notifying the node of a failure;
Performing a switch to a second protection path in which the node notified of the occurrence of the failure is connected to a protection interconnection node; And
Performing a switch to a second protection path where the first service end node is connected to a protection interconnect node.
Containment, protection switching method. According to claim 3,
The step of performing the transfer to the second protection path is
A failure occurs in both the operation path and the first protection path connected to the domain managed by the operation interconnection node and the first service end node, and in the first protection path with the node in the adjacent domain corresponding to the operation interconnection node. In the event of a failure, the first service end node performing switching to a second protection path of the corresponding protection interconnect node;
Transmitting, by the first service end node, a message notifying that a failure has occurred through the second protection path of the protection interconnection node;
Notifying the occurrence of a failure to the node corresponding to the adjacent domain by the protection interconnection node receiving the message; And
The node receiving the failure occurrence performs a switchover to a second protection path connected to the protection interconnection node.
Containment, protection switching method. The method of claim 7 or 8,
When the node notified of the occurrence of the failure is a second service end node, the second service end node performs switching to a second protection path connected to a protection interconnect node, and traffic from the first service end node The protection switching method is transmitted to the second service end node through a second protection path connected to the protection interconnection node. The method of claim 7 or 8,
If the node notified of the occurrence of the failure is another operational interconnection node corresponding to an adjacent domain, a second protection path through which traffic from the first service end node is connected to the protection interconnection node, and the protection interconnection node The second service end through a second protection path between other operating interconnect nodes corresponding to the adjacent domain, and a first operating path between another operating interconnect node corresponding to the adjacent domain and a second service end node Method of protection switching, which is delivered to the node. According to claim 3,
The step of performing the transfer to the second protection path is
Both the operational path and the first protection path connected to the domain managed by the operational interconnect node and any service end node fail, and the operational path and the first protection path with the node of the adjacent domain corresponding to the operational interconnect node In case of failure,
Notifying the occurrence of a failure through the second protection path of the protection interconnection node corresponding to the adjacent domain by the operation interconnection node;
Transferring the protection interconnection node notified of the failure to a third protection path connected to another protection interconnection node corresponding to an adjacent domain; And
Each node switching to a second protection path of the corresponding protection interconnect node;
Containment, protection switching method. According to claim 3,
The step of performing the transfer to the second protection path is
When both the operational path and the first protection path connected to the domain managed by the operational interconnect node and any service end node fail,
The operation interconnection node receiving a failure occurrence through a second protection path of another operation interconnection node corresponding to an adjacent domain;
Notifying the occurrence of a failure through the second protection path of the protection interconnection node corresponding to the adjacent domain, by the operation interconnection node notified of the occurrence of the failure;
Transferring the protection interconnection node notified of the failure to a third protection path connected to another protection interconnection node corresponding to an adjacent domain;
Switching to a third protection path connected to a protection interconnection node corresponding to an adjacent domain; And
Each node switches to the second protection path of the corresponding protection interconnect node
Containment, protection switching method. The method of claim 11 or 12,
A second protection path between traffic from the first service end node to the protection interconnect node, a third protection path between the protection interconnect node and the protection interconnect node, and a second protection path between the protection interconnect node and the second service end node. 2 The protection switching method, which is transmitted to the second service end node through a protection path. According to claim 3,
The step of performing the transfer to the second protection path is
When both the operating path between the first service end node and the operation interconnection node and the first protection path fail, and the generated failure is a one-way failure,
The operation interconnection node notifying the occurrence of the failure through the first protection path of the second service end node or another operation interconnection node in the adjacent domain;
Performing a switch to the second protection path of the corresponding protection interconnection node by the node notified of the occurrence of the failure; And
The first service end node performs the switching to the second protection path of the corresponding protection interconnect node.
Containment, protection switching method. According to claim 3,
The step of performing the transfer to the second protection path is
A failure occurs in both the operation path and the first protection path between the first service end node and the operation interconnection node, and the generated failure is a one-way failure, and the first protection path with a node corresponding to an adjacent domain of the operation interconnection node. In case of failure,
Notifying the occurrence of a failure to the protection interconnection node through a protection path additionally formed between the protection interconnection nodes corresponding to the operation interconnection node;
Notifying the occurrence of a failure to the first service end node and the second service end node by the protection interconnect node through a second protection path;
The first service end node performing switching to a second protection path of the protection interconnection node; And
The second service end node performing a switch to the second protection path of the protection interconnection node
Containment, protection switching method. The method of claim 15,
The additional protection path is a tandem connection (Tandem Connection), protection switching method. According to claim 3,
The step of performing the transfer to the second protection path is
A failure occurs in both the operation path and the first protection path between the first service end node and the operation interconnection node, and the generated failure is a one-way failure, and the first protection path with a node corresponding to an adjacent domain of the operation interconnection node. In case of failure,
The operation interconnection node notifying the occurrence of a failure by sending an additional operations, administration, and maintenance (OAM) message to the first service end node; And
The first service end node performs the switching to the second protection path of the corresponding protection interconnection node.
Containment, protection switching method. The method of claim 17,
Notifying the occurrence of a failure through the second protection path of the protection interconnection node by the first service end node;
Notifying, by the protection interconnection node, a failure to a second service end node through a second protection path; And
The second service end node performing switching to the second protection path of the protection interconnection node
Further comprising, a protective switching method. According to claim 3,
The step of performing the transfer to the second protection path is
A failure occurs in both the operation path and the first protection path between the first service end node and the operation interconnection node, and the generated failure is a one-way failure, and the first protection path with a node corresponding to an adjacent domain of the operation interconnection node. In case of failure,
The operation interconnection node includes notifying the occurrence of a failure by sending an APS or Protection State Coordination (PSC) message through an operation path to a node corresponding to the adjacent domain according to an additional automatic protection switching (APS) option, Protection switching method. In the interlocking protection switching device for performing protection switching in a multi-domain network or a multi-segment network in which at least one interconnection node is formed between nodes of a domain,
A first stage protection switching processing unit performing switching to the first protection path when a failure occurs in the operation path among the operation path and the first protection path of a node in one protection domain; And
A two-stage protection switching processing unit that performs switching to the second protection path when a failure occurs in both the operation path and the first protection path of the node in one protection domain
Including,
The second protection path is a path excluding the operation path of the node and the first protection path and a path added for traffic protection, and the second protection path is an interconnect that transmits and receives traffic between domains by avoiding failures that have occurred. Interlocking protection switching device comprising a path to a node. delete delete The method of claim 20
The first stage protection switching processing unit and the second stage protection switching processing unit is connected via a virtual operating path, interlock protection switching device. The method of claim 20
Each node communicates with an operational interconnection node through an operational path and a first protected path, and communicates with a protected interconnection node through a second protected path,
Each operational interconnect node communicates with an operational interconnect node corresponding to an adjacent domain through an operational path and a first protected path, and communicates with a protected interconnect node corresponding to an adjacent domain via a second protected path,
Each protection interconnection node communicates with another protection interconnection node corresponding to an adjacent domain through a third protection path.

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