Optical network architecture for hierarchical modulation
First Claim
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1. A system comprising:
- a first node configured to generate, for transmission over an optical path, a first hierarchically modulated optical signal having a base layer and an enhancement layer; and
a second node configured to generate, for transmission over the optical path, a second hierarchically modulated optical signal having a base layer and an enhancement layer, wherein;
the first node is further configured to receive data from the second node by demodulating and decoding either the base layer or the enhancement layer of the second hierarchically modulated optical signal; and
the second node is further configured to receive data from the first node by demodulating and decoding either the base layer or the enhancement layer of the first hierarchically modulated optical signal;
wherein the first node comprises;
a sorter configured to sort data frames received for transmission over the optical path in accordance with destination; and
a cross-connect switch configured to distribute the data frames sorted by the sorter to a plurality of coding modules; and
wherein the cross-connect switch is further configured to;
direct the data frames having a first destination to a first coding module of the plurality of coding modules, said first coding module being configured to encode the data frames directed thereto by the cross-connect switch for transmission over the optical path using a base layer of a designated hierarchically modulated optical signal; and
direct the data frames having a second destination to a second coding module of the plurality of coding modules, said second coding module being configured to encode the data frames directed thereto by the cross-connect switch for transmission over the optical path using an enhancement layer of the designated hierarchically modulated optical signal.
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Abstract
A disclosed optical transport system is configured to use hierarchical modulation for better utilization of the available BER margin, e.g., to increase data-transport capacity per carrier wavelength in the system. For example, hierarchical modulation may be used to reduce the number of carrier wavelengths assigned to support a given volume of bidirectional data transport between a set of nodes in an optical backbone network. An embodiment of the disclosed optical transport system can advantageously be constructed by modifying a conventional WDM system, e.g., by adding configurable hierarchical-layer mappers at some of the nodes and modifying some of the ROADMs used therein to enable a drop-and-continue mode of operation.
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Citations
25 Claims
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1. A system comprising:
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a first node configured to generate, for transmission over an optical path, a first hierarchically modulated optical signal having a base layer and an enhancement layer; and a second node configured to generate, for transmission over the optical path, a second hierarchically modulated optical signal having a base layer and an enhancement layer, wherein; the first node is further configured to receive data from the second node by demodulating and decoding either the base layer or the enhancement layer of the second hierarchically modulated optical signal; and the second node is further configured to receive data from the first node by demodulating and decoding either the base layer or the enhancement layer of the first hierarchically modulated optical signal; wherein the first node comprises; a sorter configured to sort data frames received for transmission over the optical path in accordance with destination; and a cross-connect switch configured to distribute the data frames sorted by the sorter to a plurality of coding modules; and wherein the cross-connect switch is further configured to; direct the data frames having a first destination to a first coding module of the plurality of coding modules, said first coding module being configured to encode the data frames directed thereto by the cross-connect switch for transmission over the optical path using a base layer of a designated hierarchically modulated optical signal; and direct the data frames having a second destination to a second coding module of the plurality of coding modules, said second coding module being configured to encode the data frames directed thereto by the cross-connect switch for transmission over the optical path using an enhancement layer of the designated hierarchically modulated optical signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
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19. An apparatus comprising:
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a sorter configured to sort data frames received for transmission over an optical path into a plurality of queues, each of said queues corresponding to a respective destination node coupled to the apparatus through the optical path; a cross-connect switch configured to distribute the data frames from the plurality of queues among a plurality of coding modules; a first coding module of the plurality of coding modules configured to encode the data frames directed thereto by the cross-connect switch for transmission over the optical path using a base layer of a hierarchically modulated optical signal; a second coding module of the plurality of coding modules configured to encode the data frames directed thereto by the cross-connect switch for transmission over the optical path using an enhancement layer of the hierarchically modulated optical signal; and an electronic controller configured to cause the cross-connect switch to change a queue in the plurality of queues from which either the first coding module or the second coding module receives the data frames for encoding.
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20. A system comprising:
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a first node configured to generate, for transmission over an optical path, a first hierarchically modulated optical signal having a base layer and an enhancement layer; and a second node configured to generate, for transmission over the optical path, a second hierarchically modulated optical signal having a base layer and an enhancement layer, wherein; the first node is further configured to receive data from the second node by demodulating and decoding either the base layer or the enhancement layer of the second hierarchically modulated optical signal; and the second node is further configured to receive data from the first node by demodulating and decoding either the base layer or the enhancement layer of the first hierarchically modulated optical signal; and wherein the system further comprises a third node; wherein the optical path has a greater length of fiber between the first node and the third node than between the first node and the second node; wherein the second node is configured to receive data from the first node by demodulating and decoding the enhancement layer of the first hierarchically modulated optical signal; and wherein the third node is configured to receive data from the first node by demodulating and decoding the base layer of the first hierarchically modulated optical signal. - View Dependent Claims (21, 22, 23, 24, 25)
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Specification
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Current AssigneeAlcatel-Lucent SA (Nokia Corporation)
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Original AssigneeAlcatel-Lucent SA (Nokia Corporation)
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InventorsKakande, Joseph K.
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Primary Examiner(s)Phan, Hanh
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Application NumberUS14/315,454Publication NumberTime in Patent Office964 DaysField of Search398/77, 398/78, 398/79, 398/83, 398/182, 398/183, 398/192, 398/193, 398/194, 398/188, 398/202, 398/208, 398/135, 398/136, 398/43, 398/158, 398/159, 398/140, 398/141, 398/45, 398/48, 398/50, 398/58, 398/49, 398/51, 398/54, 375/260, 375/261, 375/262, 375/267, 375/265, 375/298US Class Current1/1CPC Class CodesH04B 10/27 Arrangements for networkingH04J 14/021 Reconfigurable arrangements...H04J 14/0212 using optical switches or w...H04J 14/028 WDM bus architecturesH04L 27/3488 Multiresolution systemsH04L 65/60 Network streaming of media ...H04Q 11/0005 Switch and router aspectsH04Q 2011/0039 Electrical control
