Protection in metro optical networks
First Claim
1. A method comprising:
- configuring an optical network for a required bandwidth, the optical network including;
multiple optical nodes and an optical fiber between each of the multiple optical nodes, each of the optical nodes being connected, in a ring topology, with another of the multiple optical nodes by one of the optical fibers,wherein each of the multiple optical nodes includes a reconfigurable optical add/drop multiplexer (ROADM), a client-side switch, and multiple transponder cards between the ROADM and the client-side switch,wherein the multiple optical nodes include multiple core nodes and multiple aggregation nodes and wherein the optical network includes a plurality of light paths between the multiple optical nodes, such that there are no direct light paths between aggregation nodes and such that each of the plurality of light paths is provisioned with particular wavelengths and the optical network does not include wavelengths reserved for protection of the required bandwidth, andwherein the multiple transponder cards include a majority of the transponder cards provisioned as active cards to receive a traffic load of up to full capacity of the majority and a minority of the transponder cards provisioned as floating spare cards for the active cards;
identifying, by a network management device, a failure in the optical network as one of a transponder card failure, a fiber failure, or a node failure;
automatically provisioning, by the network management device and when the failure is a transponder card failure, one of the floating spare cards in one of the optical nodes with the failed transponder card to service a particular light path, of the plurality of light paths, associated with the failed transponder card, and routing the particular light path associated with the failed transponder card over the optical fibers to the one of the floating spare cards;
re-routing, by the network management device and when the failure is a fiber failure, traffic on first failed light paths, of the plurality of light paths, using the active cards and the particular wavelengths of the first failed light paths, around the fiber failure while maintaining the required bandwidth; and
automatically provisioning, by the network management device and when the failure is a core node failure, particular cards, of the active cards in a non-failing core node, that were previously used for light paths to a failed core node, wherein the particular cards are re-provisioned for light paths to other active cards in the aggregation nodes, and wherein the other active cards are re-provisioned with different wavelengths than were used for the light paths to the failed core node.
1 Assignment
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Accused Products
Abstract
An optical network is configured to optimize network resources. The optical network includes multiple optical nodes, light paths between the multiple optical nodes, and a network monitoring device. The network monitoring device monitors the optical network to identify a failure in the optical network. When the failure is a fiber failure, light paths are re-routed around the fiber failure while maintaining the required bandwidth for the optical network. When the failure is a transponder card failure within one of the multiple nodes, a floating spare card may be provisioned to service a particular light path associated with the transponder card failure. When the failure is a node failure, transponder cards in some of the multiple optical nodes are provisioned to reconfigure some of the plurality of light paths to route traffic around the failed node.
11 Citations
20 Claims
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1. A method comprising:
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configuring an optical network for a required bandwidth, the optical network including; multiple optical nodes and an optical fiber between each of the multiple optical nodes, each of the optical nodes being connected, in a ring topology, with another of the multiple optical nodes by one of the optical fibers, wherein each of the multiple optical nodes includes a reconfigurable optical add/drop multiplexer (ROADM), a client-side switch, and multiple transponder cards between the ROADM and the client-side switch, wherein the multiple optical nodes include multiple core nodes and multiple aggregation nodes and wherein the optical network includes a plurality of light paths between the multiple optical nodes, such that there are no direct light paths between aggregation nodes and such that each of the plurality of light paths is provisioned with particular wavelengths and the optical network does not include wavelengths reserved for protection of the required bandwidth, and wherein the multiple transponder cards include a majority of the transponder cards provisioned as active cards to receive a traffic load of up to full capacity of the majority and a minority of the transponder cards provisioned as floating spare cards for the active cards; identifying, by a network management device, a failure in the optical network as one of a transponder card failure, a fiber failure, or a node failure; automatically provisioning, by the network management device and when the failure is a transponder card failure, one of the floating spare cards in one of the optical nodes with the failed transponder card to service a particular light path, of the plurality of light paths, associated with the failed transponder card, and routing the particular light path associated with the failed transponder card over the optical fibers to the one of the floating spare cards; re-routing, by the network management device and when the failure is a fiber failure, traffic on first failed light paths, of the plurality of light paths, using the active cards and the particular wavelengths of the first failed light paths, around the fiber failure while maintaining the required bandwidth; and automatically provisioning, by the network management device and when the failure is a core node failure, particular cards, of the active cards in a non-failing core node, that were previously used for light paths to a failed core node, wherein the particular cards are re-provisioned for light paths to other active cards in the aggregation nodes, and wherein the other active cards are re-provisioned with different wavelengths than were used for the light paths to the failed core node. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 20)
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11. An optical network, comprising:
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multiple optical nodes and an optical fiber between each of the multiple optical nodes, each of the optical nodes being connected, in a ring topology, with another of the multiple optical nodes by one of the optical fibers, wherein each of the multiple optical nodes includes a reconfigurable optical add/drop multiplexer (ROADM), a client-side switch, and multiple transponder cards between the ROADM and the client-side switch, and wherein the multiple optical nodes include multiple core nodes and multiple aggregation nodes; a plurality of light paths between the multiple optical nodes, each of the plurality of light paths being configured with particular wavelengths and a required bandwidth, such that there are no direct light paths between aggregation nodes and such that the optical network does not include wavelengths reserved for protection of the required bandwidth, wherein the multiple transponder cards include a majority of the transponder cards provisioned as active cards to receive a traffic load of up to full capacity of the majority and a minority of the transponder cards provisioned as floating spare cards for the active cards; and a network monitoring device including one or more processors configured to; monitor the optical network, identify a failure in the optical network, re-route, when the failure is a fiber failure, traffic on first failed light paths, of the plurality of light paths, using the active cards and the particular wavelengths of the first failed light paths, around the fiber failure while maintaining the required bandwidth for the optical network, provision, when the failure is a transponder card failure within one of the multiple optical nodes, a floating spare card in the one of the multiple optical nodes to service a particular light path, of the plurality of light paths, associated with the transponder card failure, and route the particular light path over the optical fibers to the floating spare card, and provision, when the failure is a core node failure, particular cards, of the active cards in a non-failing core node, that were previously used for light paths to a failed core node, wherein the particular cards are re-provisioned for light paths to other active cards in the aggregation nodes, and wherein the other active cards are re-provisioned with different wavelengths than were used for the light paths to the failed core node. - View Dependent Claims (12, 13, 14, 15, 16, 17)
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18. A network monitoring device for an optical network, comprising:
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a memory to store a plurality of instructions; and one or more processors configured to; monitor the optical network, the network including; multiple optical nodes and an optical fiber between each of the multiple optical nodes, each of the optical nodes being connected, in a ring topology, with another of the multiple optical nodes by one of the optical fibers, wherein each of the multiple optical nodes includes a reconfigurable optical add/drop multiplexer (ROADM), a client-side switch, and multiple transponder cards between the ROADM and the client-side switch, wherein the multiple optical nodes include multiple core nodes and multiple aggregation nodes, and a plurality of light paths, the plurality of light paths traversing the optical fibers between the multiple optical nodes, wherein each of the plurality of light paths support a required bandwidth when the light paths are used at full capacity such that there are no direct light paths between aggregation nodes and such that the optical network does not include wavelengths reserved for protection of the required bandwidth, wherein the multiple transponder cards include a majority of the transponder cards provisioned as active cards to receive a traffic load of up to full capacity of the majority and a minority of the transponder cards provisioned as floating spare cards for the active cards, identify a failure in the optical network as one of a fiber failure, a transponder card failure within one of multiple optical nodes, or a node failure, when the failure is a fiber failure, re-route traffic on first failed light paths, of the plurality of light paths, using the active cards and wavelengths of the first failed light paths, around the fiber failure while maintaining the required bandwidth for the optical network, when the failure is a transponder card failure, provision a floating spare card in the one of the multiple optical nodes to service a particular light path, of the plurality of light paths, associated with the transponder card failure, and route the particular light path over the optical fibers to the floating spare card, and when the failure is a core node failure, provision particular cards, of the active cards in a non-failing core node, that were previously used for light paths to a failed core node, wherein the particular cards are re-provisioned for light paths to other active cards in the aggregation nodes, and wherein the other active cards are re-provisioned with different wavelengths than were used for the light paths to the failed core node. - View Dependent Claims (19)
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Specification