Optical WDM network having mixed wavelength routing and fiber routing cross-connect switches

US 20020030867A1
Filed: 03/08/2001
Published: 03/14/2002
Est. Priority Date: 06/05/2000
Status: Active Grant

First Claim

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1. An optical wavelength-division-multiplexing (WDM) network for communicating WDM channels to local destinations via a plurality of nodes and interconnecting optical fibers, the nodes including at least one transit node and at least one hub node, comprising:

a transit switch within said transit node having a fiber-routing portion (FR) and a wavelength-routing portion (WR), the fiber-routing portion including a first group of FR inputs coupled to first network optical fibers and a first group of FR outputs coupled to second network optical fibers, the wavelength-routing portion positioned in a feedback path between a second group of FR outputs and a second group of FR inputs, the fiber-routing portion being capable of switching a WDM comb from any of the first and second FR inputs to any of the first and second FR outputs, quantities of the first and second groups of FR outputs of the transit switch being selected such that C_FR1>

C_WR1, C_FR1being a switching capacity of the fiber-routing portion, C_WR1being a switching capacity of the wavelength-routing portion; and

a hub switch within said hub node having at least a wavelength-routing portion including a first group of WR inputs arranged to receive first orders of WDM channels directly from some of third network fibers and a first group of WR outputs arranged to transmit second orders of WDM channels to local destination fibers.

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Abstract

An optical wavelength-division-multiplexing (WDM) network has at least one transit node, where a majority of received channels are destined for a remote node, and at least one hub node, where a majority of received channels are switched to a local destination. The network follows a channel-level protection scheme, and at least one of the nodes has a cross-connect switch of a tandem design with a wavelength switch portion optically positioned in a feedback path of a space switch portion. Alternatively, the transit node has a tandem switch design, where the space switch interfaces with the network fibers, and the hub node has at least a wavelength switch that interfaces with the network fibers. The capacities of the respective wavelength and space switch portions of the tandem cross-connect are configured according to the expected ratio of local traffic to passthrough traffic.

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12 Claims

1. An optical wavelength-division-multiplexing (WDM) network for communicating WDM channels to local destinations via a plurality of nodes and interconnecting optical fibers, the nodes including at least one transit node and at least one hub node, comprising:
- a transit switch within said transit node having a fiber-routing portion (FR) and a wavelength-routing portion (WR), the fiber-routing portion including a first group of FR inputs coupled to first network optical fibers and a first group of FR outputs coupled to second network optical fibers, the wavelength-routing portion positioned in a feedback path between a second group of FR outputs and a second group of FR inputs, the fiber-routing portion being capable of switching a WDM comb from any of the first and second FR inputs to any of the first and second FR outputs, quantities of the first and second groups of FR outputs of the transit switch being selected such that C_FR1>
  
  C_WR1, C_FR1being a switching capacity of the fiber-routing portion, C_WR1being a switching capacity of the wavelength-routing portion; and
  
  a hub switch within said hub node having at least a wavelength-routing portion including a first group of WR inputs arranged to receive first orders of WDM channels directly from some of third network fibers and a first group of WR outputs arranged to transmit second orders of WDM channels to local destination fibers.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The optical WDM network according to claim 1, wherein quantities of the first and second groups of FR outputs of the transit switch are selected such that C_FR1>
    - 2 C_WR1.
  - 3. The optical WDM network according to claim 1, wherein the hub switch further comprises a fiber-routing portion having a first group of inputs coupled to others of the third network fibers and a first group of outputs coupled to downstream node fibers, the wavelength-routing portion of the hub switch being positioned optically between a second group of outputs and a second group of inputs of the fiber-routing portion, quantities of the first and second groups of outputs being selected such that C_FR2≦
    - C_WR2, C_FR2being a switching capacity of the fiber-routing portion, C_WR2being a switching capacity of the wavelength-routing portion.
  - 4. The optical WDM network according to claim 1, the transit switch further comprising at least one demultiplexer positioned within the feedback path between the second group of FR outputs and the wavelength-routing portion, and an input transponder within each output path of the at least one demultiplexer.
  - 5. The optical WDM network according to claim 4, the transit switch further comprising at least one multiplexer positioned within the feedback path between the wavelength-routing portion and the second group of FR inputs, and an output transponder within each input path to the at least one multiplexer.
  - 6. The optical WDM network according to claim 5, wherein the network operates with channel-level protection and at least one of the input and output transponders regenerates an optical channel header to monitor channel routing within the network in the event of a link failure.

7. An optical wavelength-division-multiplexing (WDM) network having a plurality of nodes interconnected by optical fibers, the nodes including at least one transit node for passing a majority of received WDM channels to another node and at least one hub node for passing a majority of received WDM channels to a local destination, comprising:
- a plurality of first optical fibers each carrying WDM channels from at least one upstream node to a transit node;
  
  a plurality of second optical fibers each carrying WDM channels from the transit node to at least one downstream node;
  
  a transit switch located in the at least one transit node and including a first optical switch having a plurality of inlets and a plurality of outlets, a first subset of the inlets being coupled to the first fibers, a first subset of the outlets being coupled to the second fibers, a second optical switch having a plurality of inlets and a plurality of outlets, a plurality of input transponders and a plurality of output transponders coupled respectively to the second-switch inlets and the second-switch outlets, at least one demultiplexer positioned between at least one of a second subset of the first-switch outlets and ones of the second-switch inlets, and at least one multiplexer positioned between ones of the second-switch outlets and at least one of a second subset of the first-switch inlets;
  
  a plurality of third optical fibers each carrying WDM channels from at least one upstream node to a hub node;
  
  a plurality of fourth optical fibers each carrying WDM channels from the hub node to at least one local destination; and
  
  a hub switch located in the at least one hub node and including at least one demultiplexer coupled to at least one of the third fibers, a plurality of input hub transponders each coupled to a respective output of the at least one demultiplexer, a third optical switch having a plurality of inlets coupled to the plurality of input hub transponders and a plurality of outlets, a plurality of output hub transponders coupled to the plurality of third-switch outlets, and at least one multiplexer positioned between the plurality of output hub transponders and the fourth optical fibers.

8. An optical wavelength-division-multiplexing (WDM) network having a plurality of nodes interconnected by optical fibers and having channel-level protection, comprising:
- a plurality of first network optical fibers each carrying first WDM channels, the first WDM channels including a first optical channel header with information about the channel-level protection;
  
  a plurality of second network optical fibers each carrying second WDM channels, the second WDM channels including a second optical channel header with information about the channel-level protection; and
  
  at least one optical cross-connect switch having a fiber-routing portion (FR) and a wavelength-routing portion (WR), the fiber-routing portion including a first group of FR inputs coupled to the first network optical fibers and a first group of FR outputs coupled to the second network optical fibers, the wavelength-routing portion positioned in a feedback path between a second group of FR outputs and a second group of FR inputs of the fiber-routing portion, quantities of the first and second groups of FR outputs being selected based on an expected capacity of the fiber-routing portion with respect to the wavelength-routing portion.
- View Dependent Claims (9, 10, 11, 12)
- - 9. The optical WDM network according to claim 8, further comprising a hub node including a hub switch, the hub switch having at least a wavelength-routing portion including a first group of WR inputs arranged to receive the second WDM channels directly from some of the second network optical fibers and a first group of WR outputs arranged to transmit third WDM channels to local destination fibers.
  - 10. The optical WDM network according to claim 9, wherein the hub switch further comprises a fiber-routing portion having a first group of inputs coupled to others of the second network fibers and a first group of outputs coupled to downstream node fibers, the wavelength-routing portion of the hub switch being positioned optically between a second group of outputs and a second group of inputs of the fiber-routing portion, quantities of the first and second groups of outputs of the fiber-routing portion being selected based on an expected capacity of the fiber-routing portion with respect to the wavelength-routing portion of the hub switch.
  - 11. The optical WDM network according to claim 10, the transit switch further comprising at least one demultiplexer positioned within the feedback path between the second group of FR outputs and the wavelength-routing portion, and an input transponder within each output path of the at least one demultiplexer, the input transponder regenerating the optical channel header to monitor the routing information about the channel-level protection some of the first WDM channels.
  - 12. The optical WDM network according to claim 11, the transit switch further comprising at least one multiplexer positioned within the feedback path between the wavelength-routing portion and the second group of FR inputs, and an output transponder within each input path to the at least one multiplexer.

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Current Assignee
Cisco Technology, Inc. (Cisco Systems, Inc.)
Original Assignee
Cisco Technology, Inc. (Cisco Systems, Inc.)
Inventors
Bentivoglio Ravasio, Filippo, Iannone, Eugenio

Granted Patent

US 6,792,207 B2
Time in Patent Office

Days
Field of Search
US Class Current

398/49
CPC Class Codes

H04J 14/0284   WDM mesh architectures

H04J 14/0295   Shared protection at the op...

H04Q 11/0005   Switch and router aspects

H04Q 11/0066   Provisions for optical burs...

H04Q 2011/0016   using wavelength multiplexi...

H04Q 2011/0024   using space switching

H04Q 2011/0052   Interconnection of switches

H04Q 2011/0081   Fault tolerance; Redundanc...

H04Q 2011/0086   Network resource allocation...

Optical WDM network having mixed wavelength routing and fiber routing cross-connect switches

First Claim

1 Assignment

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Abstract

30 Citations

12 Claims

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Optical WDM network having mixed wavelength routing and fiber routing cross-connect switches

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

30 Citations

12 Claims

Specification

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Solutions

Use Cases

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