System and method for fully utilizing available optical transmission spectrum in optical networks
First Claim
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1. A network node circuit for use in wavelength division multiplexing (WDM) optical networks to allow utilization of a wide optical communication band, the node circuit comprising:
- a band splitter having an input to receive a plurality of optical signals sent on a corresponding plurality of wavelengths of an optical communication band, and to separate a first plurality of the optical signals within a first wavelength range within an amplification band of the optical communication band from a second plurality of the optical signals within a second wavelength range outside the amplification band of the optical communication band;
a cross-connect circuit having input ports to receive the first and second pluralities of the optical signals and to route the first and second pluralities of the optical signals over different protection paths through the cross-connect circuit to targeted output ports; and
a band combiner coupled to the cross-connect circuit to receive the first and second pluralities of the optical signals, and to combine the first and second pluralities of the optical signals into an aggregate plurality of optical signals for transmission from the network node.
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Abstract
A system and method for facilitating full utilization of an ultra-wide optical communication band spanning the useable band of the optical transmission spectrum, and providing appropriate protection strategies on the same mesh/ring network for all channels within the ultra-wide optical communication band. A network node architecture includes a band splitter to receive all of the optical signals sent on various wavelengths within the wide optical communication band. The band splitter separates a first group of the optical signals from a second group of the optical signals based on their range of wavelength. The first group of optical signals are those within a first wavelength range of the optical communication band, and the second group is from the second wavelength range of the optical communication band. A cross-connect circuit receives the first and second groups of optical signals, and routes them to targeted output ports at the output section of the node. The first and second groups of optical signals are combined by a band combiner into an aggregate plurality of optical signals to be collectively transmitted from the network node.
61 Citations
33 Claims
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1. A network node circuit for use in wavelength division multiplexing (WDM) optical networks to allow utilization of a wide optical communication band, the node circuit comprising:
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a band splitter having an input to receive a plurality of optical signals sent on a corresponding plurality of wavelengths of an optical communication band, and to separate a first plurality of the optical signals within a first wavelength range within an amplification band of the optical communication band from a second plurality of the optical signals within a second wavelength range outside the amplification band of the optical communication band; a cross-connect circuit having input ports to receive the first and second pluralities of the optical signals and to route the first and second pluralities of the optical signals over different protection paths through the cross-connect circuit to targeted output ports; and a band combiner coupled to the cross-connect circuit to receive the first and second pluralities of the optical signals, and to combine the first and second pluralities of the optical signals into an aggregate plurality of optical signals for transmission from the network node. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 16, 17, 18, 19)
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9. A network node circuit for use in wavelength division multiplexing (WDM) optical networks to allow utilization of a wide optical communication band, the node circuit comprising:
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a band splitter having an input to receive a plurality of optical signals sent on a corresponding plurality of wavelengths of an optical communication band, and to separate a first plurality of the optical signals within a first wavelength range within an amplification band of the optical communication band from a second plurality of the optical signals within a second wavelength range outside the amplification band of the optical communication band; a cross-connect circuit having input ports to receive the first and second pluralities of the optical signals and to route the first and second pluralities of the optical signals through the cross-connect circuit to targeted output ports; a band combiner coupled to the cross-connect circuit to receive the first and second pluralities of the optical signals, and to combine the first and second pluralities of the optical signals into an aggregate plurality of optical signals for transmission from the network node; and OMS-SPRING protection fibers for the optical signals within the first wavelength range. - View Dependent Claims (10)
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11. A network node circuit for use in wavelength division multiplexing (WDM) optical networks to allow utilization of a wide optical communication band, the node circuit comprising:
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a band splitter having an input to receive a plurality of optical signals sent on a corresponding plurality of wavelengths of an optical communication band, and to separate a first plurality of the optical signals within a first wavelength range within an amplification band of the optical communication band from a second plurality of the optical signals within a second wavelength range outside the amplification band of the optical communication band; a cross-connect circuit having input ports to receive the first and second pluralities of the optical signals and to route the first and second pluralities of the optical signals through the cross-connect circuit to targeted output ports; a band combiner coupled to the cross-connect circuit to receive the first and second pluralities of the optical signals, and to combine the first and second pluralities of the optical signals into an aggregate plurality of optical signals for transmission from the network node; and a linear protection circuit for the optical signals within the second wavelength range. - View Dependent Claims (12)
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13. A network node circuit for use in wavelength division multiplexing (WDM) optical networks to allow utilization of a wide optical communication band, the node circuit comprising:
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a band splitter having an input to receive a plurality of optical signals sent on a corresponding plurality of wavelengths of an optical communication band, and to separate a first plurality of the optical signals within a first wavelength range of the optical communication band from a second plurality of the optical signals within a second wavelength range of the optical communication band; a cross-connect circuit having input ports to receive the first and second pluralities of the optical signals and to route the first and second pluralities of the optical signals through the cross-connect circuit to targeted output ports; a band combiner coupled to the cross-connect circuit to receive the first and second pluralities of the optical signals, and to combine the first and second pluralities of the optical signals into an aggregate plurality of optical signals for transmission from the network node; and a linear protection circuit for the optical signals within the second wavelength range, wherein the linear protection circuit comprises a signal duplicator for each of the optical signals within the second wavelength range to respectively transmit each of a duplicated set of the optical signals within the second wavelength range onto each of two working fibers supplied to the network by the node circuit. - View Dependent Claims (14, 15)
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20. A network node circuit for use in wavelength division multiplexing (WDM) optical networks to allow utilization of a wide optical communication band, the node circuit comprising:
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band splitting means for receiving a plurality of optical signals sent on wavelengths within the wide optical communication band, and for separating in-band signals corresponding to wavelengths within an erbium-doped fiber amplification (EDFA) band from out-band signals corresponding to wavelengths outside of the EDFA band; means for routing the in-band and out-band signals node to targeted in-band and out-band output ports respectively; first protection means for rerouting the in-band signals through the optical network upon detection of a link failure associated with the targeted in-band output port; second protection means for supplying redundant transmission paths for the out-band signals through the optical network upon detection of a link failure associated with the targeted out-band output port; and band combination means for receiving the in-band and the out-band signals, and for combining the in-band and the out-band signals into an aggregation of optical signals for transmission from the network node.
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21. A method for fully utilizing an optical spectrum spanning a predefined low attenuation region of an optical transmission spectrum, for communicating information on optical fibers of an optical network, the method comprising:
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separating optical signals within the predefined low-attenuation region into in-band and out-band optical signals, wherein the in-band signals substantially correspond to a first wavelength range within the predefined low-attenuation region designated for optical amplification, and wherein the out-band signals substantially correspond to a second wavelength range within the predefined low-attenuation region and exclusive of the first wavelength range; routing the in-band and out-band optical signals over different protection paths to in-band and out-band output ports associated with destination nodes for the in-band and out-band signals respectively; and combining the in-band and out-band optical signals from the in-band and out-band output ports to provide a united collection of the optical signals for collective transmission. - View Dependent Claims (28, 29, 30, 31)
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22. A method for fully utilizing an optical spectrum spanning a predefined low attenuation region of an optical transmission spectrum, for communicating information on optical fibers of an optical network, the method comprising:
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separating optical signals within the predefined low-attenuation region into in-band and out-band optical signals, wherein the in-band signals substantially correspond to a first wavelength range within the predefined low-attenuation region designated for optical amplification, and wherein the out-band signals substantially correspond to a second wavelength range within the predefined low-attenuation region and exclusive of the first wavelength range; routing the in-band and out-band optical signals to in-band and out-band output ports associated with destination nodes for the in-band and out-band signals respectively; combining the in-band and out-band optical signals from the in-band and out-band output ports to provide a united collection of the optical signals for collective transmission; and collectively switching all of the in-band signals from the optical fibers to optical protection fibers upon recognition of a failure of one or more of the optical fibers. - View Dependent Claims (23)
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24. A method for fully utilizing an optical spectrum spanning a predefined low attenuation region of an optical transmission spectrum, for communicating information on optical fibers of an optical network, the method comprising:
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separating optical signals within the predefined low-attenuation region into in-band and out-band optical signals, wherein the in-band signals substantially correspond to a first wavelength range within the predefined low-attenuation region designated for optical amplification, and wherein the out-band signals substantially correspond to a second wavelength range within the predefined low-attenuation region and exclusive of the first wavelength range; routing the in-band and out-band optical signals to in-band and out-band output ports associated with destination nodes for the in-band and out-band signals respectively; combining the in-band and out-band optical signals from the in-band and out-band output ports to provide a united collection of the optical signals for collective transmission; and separately duplicating each of the out-band signals, and transmitting each of the duplicate out-band signals on separate optical fibers of the network to provide redundancy. - View Dependent Claims (25, 26, 27)
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32. A bi-directional optical network for communicating information in a predefined low-attenuation region of an optical transmission spectrum, comprising:
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a pair of working optical fibers configured in a ring, each of the working fibers for transmitting the optical signals of the optical transmission spectrum in opposite directions; a pair of ring protection fibers configured in a ring, each of the ring protection fibers associated with one of the working fibers for transmitting the optical signals of its corresponding working optical fiber upon a failure of its corresponding working optical fiber; a plurality of network nodes each interposed along the rings of working optical fibers and the ring protection fibers to produce a ring network topology, each of the network nodes comprising; (a) a band splitter having an input to receive a plurality of optical signals sent on a corresponding plurality of wavelengths of an optical communication band, and to separate a first plurality of the optical signals within a first wavelength range within an amplification band of the optical communication band from a second plurality of the optical signals within a second wavelength range outside the amplification band of the optical communication band; (b) a cross-connect circuit having input ports to receive the first and second pluralities of the optical signals and to route the first and second pluralities of the optical signals through the cross-connect circuit to targeted output ports; and (c) a band combiner coupled to the cross-connect circuit to receive the first and second pluralities of the optical signals, and to combine the first and second pluralities of the optical signals into an aggregate plurality of optical signals for transmission from the network node; and a ring protection circuit coupled to the band splitter to switch the first plurality of optical signals from the working optical fiber to an associated ring protection fiber upon recognition of the failure of its corresponding working optical fiber.
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33. A bi-directional optical network for communicating information in a predefined low-attenuation region of an optical transmission spectrum, comprising:
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a pair of working optical fibers configured in a ring, each of the working fibers for transmitting the optical signals of the optical transmission spectrum in opposite directions; a pair of ring protection fibers configured in a ring, each of the ring protection fibers associated with one of the working fibers for transmitting the optical signals of its corresponding working optical fiber upon a failure of its corresponding working optical fiber; a plurality of network nodes each interposed along the rings of working optical fibers and the ring protection fibers to produce a ring network topology, each of the network nodes comprising; (a) a band splitter having an input to receive a plurality of optical signals sent on a corresponding plurality of wavelengths of an optical communication band, and to separate a first plurality of the optical signals within a first wavelength range of the optical communication band from a second plurality of the optical signals within a second wavelength range of the optical communication band; (b) a cross-connect circuit having input ports to receive the first and second pluralities of the optical signals and to route the first and second pluralities of the optical signals through the cross-connect circuit to targeted output ports; and (c) a band combiner coupled to the cross-connect circuit to receive the first and second pluralities of the optical signals, and to combine the first and second pluralities of the optical signals into an aggregate plurality of optical signals for transmission from the network node; a ring protection circuit coupled to the band splitter to switch the first plurality of optical signals from the working optical fiber to an associated ring protection fiber upon recognition of the failure of its corresponding working optical fiber; and a signal duplication circuit coupled to the band splitter to duplicate each of the second plurality of optical signals and to transmit a first of the duplicate signals on a first of the pair of working fibers and a second of the duplicate signals on a second of the pair of working fibers.
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Specification
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Current AssigneeTumbleweed Holdings LLC (Equitable IP Corporation)
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Original AssigneeNokia Corporation
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InventorsPan, Jin-Yi
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Primary Examiner(s)SEDIGHIAN, REZA
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Application NumberUS09/390,910Time in Patent Office2,268 DaysField of Search398 1- 5, 398/7, 398/12, 398/14, 398/20, 398/33, 398/34, 398/45, 398/50, 398/67, 398/68, 398/145, 398/59, 398/87, 398/56, 398/79, 398/6, 398/13, 398/19, 359/337.12US Class Current398/5CPC Class CodesH04J 14/0201 Add-and-drop multiplexingH04J 14/0212 using optical switches or w...H04J 14/0213 Groups of channels or wave ...H04J 14/0227 Operation, administration, ...H04J 14/0241 Wavelength allocation for c...H04J 14/0283 WDM ring architecturesH04J 14/0284 WDM mesh architecturesH04J 14/0291 Shared protection at the op...H04J 14/0293 Optical channel protectionH04J 14/0294 Dedicated protection at the...
