Method and system for optical connection validation in a reconfigurable optical add-drop multiplexer (ROADM) node

US 9,680,569 B2
Filed: 10/01/2014
Issued: 06/13/2017
Est. Priority Date: 10/01/2014
Status: Active Grant

First Claim

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1. A method of validating connections in an optical add/drop multiplexer (OADM) comprising a plurality of modules configured to route optical signals through the OADM, and at least one multi-fiber cable connecting modules of the OADM, the method comprising:

controlling a light source connected to a first port of a first module of the plurality of modules to emit a test signal, wherein the light source comprises an optical amplifier disposed in the first module, and wherein controlling the light source comprises driving the amplifier to emit Amplified Spontaneous Emission (ASE) light as the test signal;

determining whether or not the test signal is received at a first photo-detector connected to a second port; and

validating a continuity of an unused connection that is out-of-service in the OADM between the first port and the second port when the test signal is received at the first photo-detector, wherein the light source and the photo-detector are disposed in the OADM, and wherein the unused connection between the first port and the second port comprises one or more loop-backs in the at least one multi-fiber cable connecting modules via loop-back connectors connected on unused ports thereon, wherein the one or more loop-backs optically connect corresponding pairs of fibers in the at least one multi-fiber cable connecting modules such that an optical signal is routed back to a particular module from which the optical signal was received.

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Abstract

A method of validating connections in an optical add/drop multiplexer (OADM) that includes a plurality of modules configured to route optical signals through the OADM, and at least one multi-fiber cable connecting modules of the OADM. A light source coupled to a first port of a first module is controlled to emit a test light. A determination is made whether or not the test light is received at a first photo-detector connected to a second port. Continuity of a connection between the first port and the second port is validated when the test light is received at the first photo-detector.

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17 Claims

1. A method of validating connections in an optical add/drop multiplexer (OADM) comprising a plurality of modules configured to route optical signals through the OADM, and at least one multi-fiber cable connecting modules of the OADM, the method comprising:
- controlling a light source connected to a first port of a first module of the plurality of modules to emit a test signal, wherein the light source comprises an optical amplifier disposed in the first module, and wherein controlling the light source comprises driving the amplifier to emit Amplified Spontaneous Emission (ASE) light as the test signal;
  
  determining whether or not the test signal is received at a first photo-detector connected to a second port; and
  
  validating a continuity of an unused connection that is out-of-service in the OADM between the first port and the second port when the test signal is received at the first photo-detector, wherein the light source and the photo-detector are disposed in the OADM, and wherein the unused connection between the first port and the second port comprises one or more loop-backs in the at least one multi-fiber cable connecting modules via loop-back connectors connected on unused ports thereon, wherein the one or more loop-backs optically connect corresponding pairs of fibers in the at least one multi-fiber cable connecting modules such that an optical signal is routed back to a particular module from which the optical signal was received.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. The method as claimed in claim 1, wherein the optical amplifier is an Erbium Doped Fiber Amplifier (EDFA).
  - 3. The method as claimed in claim 1, further comprising filtering the ASE light to generate a narrow-band test signal having a predetermined wavelength.
  - 4. The method as claimed in claim 1, wherein the light source comprises a dedicated optical emitter and wherein controlling the light source comprises controlling the dedicated optical emitter to emit the test signal.
  - 5. The method as claimed in claim 1, wherein the first module is a Multi-Cast Switch (MCS) module configured to route wavelength channels to and from respective transceivers of the OADM, and wherein controlling the light source comprises controlling a transmitter of a transceiver coupled to the MCS module to emit the test signal.
  - 6. The method as claimed in claim 1, further comprising steps of:
    - measuring an optical power of the test signal received by the photo-detector;
      
      comparing the measured optical power to an optical power of the test signal emitted by the light source; and
      
      determining losses of the connection between the first port and the second port based on the comparison result.
  - 7. The method as claimed in claim 1, wherein controlling the light source comprises modulating information onto the test signal.
  - 8. The method as claimed in claim 7, wherein the information comprises information identifying a source of the test signal within the OADM.
  - 9. The method as claimed in claim 8, further comprising steps of:
    - detecting the information modulated on the test signal received by the photo-detector;
      
      identifying the source of the test signal based on the detected information; and
      
      mapping a topology of the OADM based on the identified source of the test signal and the first photodetector.
  - 10. The method as claimed in claim 1, wherein the second port is an input port of a second module.
  - 11. The method as claimed in claim 10, wherein the connection between the first port and the second comprises a light path between the first and second modules via a Fiber Interconnection Module (FIM).

12. A non-transient machine readable storage medium including software instructions for controlling a processor to execute a method of validating connections in an optical add/drop multiplexer (OADM) comprising a plurality of modules configured to route optical signals through the OADM, and at least one multi-fiber cable connecting modules of the OADM, the software instructions comprising instructions for controlling the processor to:
- control a light source coupled to a first port of a first module to emit a signal, wherein the light source comprises an optical amplifier disposed in the first module, and wherein the software instructions for controlling the processor to control the light source comprises software instructions for controlling the processor to drive the amplifier to emit Amplified Spontaneous Emission (ASE) light as the test signal;
  
  determine whether or not the signal is received at a first photo-detector connected to a second port; and
  
  validate a continuity of an unused connection that is out-of-service between the first port and the second port when the signal is received at the first photo-detector, wherein the light source and the photo-detector are disposed in the OADM, and wherein the unused connection between the first port and the second port comprises one or more loop-backs in the at least one multi-fiber cable connecting modules via loop-back connectors connected on unused ports thereon, wherein the one or more loop-backs optically connect corresponding pairs of fibers in the at least one multi-fiber cable connecting modules such that an optical signal is routed back to a particular module from which the optical signal was received.
- View Dependent Claims (13, 14, 15, 16, 17)
- - 13. The storage medium as claimed in claim 12, wherein the light source comprises a dedicated optical emitter and wherein the software instructions for controlling the processor to control the light source comprises software instructions for controlling the processor to control the dedicated optical emitter to emit the test signal.
  - 14. The storage medium as claimed in claim 12, wherein the first module is a Multi-Cast Switch (MCS) module configured to route wavelength channels to and from respective transceivers of the OADM, and wherein the software instructions for controlling the processor to control the light source comprises software instructions for controlling the processor to control a transmitter of a transceiver coupled to the MCS module to emit the test signal.
  - 15. The storage medium as claimed in claim 12, further comprising software instructions for controlling the processor to:
    - measure an optical power of the test signal received by the photo-detector;
      
      compare the measured optical power to an optical power of the test signal emitted by the light source; and
      
      determine losses of the connection between the first port and the second port based on the comparison result.
  - 16. The storage medium as claimed in claim 12, wherein the software instructions for controlling the processor to control the light source comprises software instructions for controlling the processor to modulate information onto the test signal.
  - 17. The storage medium as claimed in claim 16, further comprising software instructions for controlling the processor to:
    - detect the information modulated on the test signal received by the photo-detector;
      
      identify a source of the test signal based on the detected information; and
      
      map a topology of the OADM based on the identified source of the test signal and the first photodetector.

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Current Assignee
Ciena Corporation
Original Assignee
Ciena Corporation
Inventors
Bao, Jun, Archambault, Jean-Luc, Kohlert, Scott, Zhu, Zhonghua
Primary Examiner(s)
Vanderpuye, Ken N
Assistant Examiner(s)
SANCHEZ, DIBSON J

Application Number

US14/503,488
Publication Number

US 20160099851A1
Time in Patent Office

986 Days
Field of Search

398 9- 37, 398 45- 57, 398 79- 97
US Class Current
CPC Class Codes

H04B 10/07955   Monitoring or measuring power

H04J 14/0212   using optical switches or w...

H04J 14/02122   Colourless, directionless o...

H04J 14/02126   Multicast switch arrangements

H04J 14/0217   Multi-degree architectures,...

H04Q 11/0005   Switch and router aspects

H04Q 11/0066   Provisions for optical burs...

H04Q 2011/0016   using wavelength multiplexi...

H04Q 2011/0047   Broadcast; Multicast

H04Q 2011/0083   Testing; Monitoring

H04Q 2011/009   Topology aspects

Method and system for optical connection validation in a reconfigurable optical add-drop multiplexer (ROADM) node

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Abstract

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17 Claims

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Method and system for optical connection validation in a reconfigurable optical add-drop multiplexer (ROADM) node

First Claim

1 Assignment

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Accused Products

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Abstract

Citations

17 Claims

Specification

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