![Page 1: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/1.jpg)
Hierarchical monitoring architecture and OAM Handler
N. Sambo1, F. Cugini2, A. Sgambelluri3, P. Castoldi1
ECOC 2015
1: Scuola Superiore Sant’Anna, Pisa, Italy2: CNIT, Pisa, Italy
![Page 2: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/2.jpg)
Introduction
• Toward agile and programmable networks:- configurable transmission parameters depending on the current physical
conditions [a,b]- reduction of margins: possibility to have not-considered degradations,
e.g. aging [c,d]
[a] A. Napoli et al., ComMag vol. 53 n. 2, 2015 [b] N. Sambo et al., ComMag vol. 53 n. 2, 2015
[c] J.-L. Auge, paper OTu2A.1, OFC 2013[d] Y. Pointurier, invited talk, OFC 2016
![Page 3: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/3.jpg)
Introduction
• Toward agile and programmable networks:- configurable transmission parameters depending on the current physical
conditions [a,b]- reduction of margins: possibility to have not-considered degradations,
e.g. aging [c,d]• In such networks, Operation, Administration, and Maintainance (OAM) are key
functionalities to verify quality of transmission- Monitoring: coherent receiver offers monitors, e.g. LSP pre-FEC BER, linear
dispersions
[a] A. Napoli et al., ComMag vol. 53 n. 2, 2015 [b] N. Sambo et al., ComMag vol. 53 n. 2, 2015
[c] J.-L. Auge, paper OTu2A.1, OFC 2013[d] Y. Pointurier, invited talk, OFC 2016
![Page 4: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/4.jpg)
Introduction
• Toward agile and programmable networks:- configurable transmission parameters depending on the current physical
conditions [a,b]- reduction of margins: possibility to have not-considered degradations,
e.g. aging [c,d]• In such networks, Operation, Administration, and Maintainance (OAM) are key
functionalities to verify quality of transmission- Monitoring: coherent receiver offers monitors, e.g. LSP pre-FEC BER, linear
dispersions• Control/management: ABNO architecture includes OAM functionalities
[a] A. Napoli et al., ComMag vol. 53 n. 2, 2015 [b] N. Sambo et al., ComMag vol. 53 n. 2, 2015
[c] J.-L. Auge, paper OTu2A.1, OFC 2013[d] Y. Pointurier, invited talk, OFC 2016
![Page 5: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/5.jpg)
Introduction
• Toward agile and programmable networks:- configurable transmission parameters depending on the current physical
conditions [a,b]- reduction of margins: possibility to have not-considered degradations,
e.g. aging [c,d]• In such networks, Operation, Administration, and Maintainance (OAM) are key
functionalities to verify quality of transmission- Monitoring: coherent receiver offers monitors, e.g. LSP pre-FEC BER, linear
dispersions• Control/management: ABNO architecture includes OAM functionalities
In this paper:• Hierarchical monitoring architecture with ABNO OAM Handler at the root• High scalability
[a] A. Napoli et al., ComMag vol. 53 n. 2, 2015 [b] N. Sambo et al., ComMag vol. 53 n. 2, 2015
[c] J.-L. Auge, paper OTu2A.1, OFC 2013[d] Y. Pointurier, invited talk, OFC 2016
![Page 6: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/6.jpg)
Introduction
• Toward agile and programmable networks:- configurable transmission parameters depending on the current physical
conditions [a,b]- reduction of margins: possibility to have not-considered degradations,
e.g. aging [c,d]• In such networks, Operation, Administration, and Maintainance (OAM) are key
functionalities to verify quality of transmission- Monitoring: coherent receiver offers monitors, e.g. LSP pre-FEC BER, linear
dispersions• Control/management: ABNO architecture includes OAM functionalities
In this paper:• Hierarchical monitoring architecture with ABNO OAM Handler at the root• High scalability
[a] A. Napoli et al., ComMag vol. 53 n. 2, 2015 [b] N. Sambo et al., ComMag vol. 53 n. 2, 2015
[c] J.-L. Auge, paper OTu2A.1, OFC 2013[d] Y. Pointurier, invited talk, OFC 2016
![Page 7: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/7.jpg)
Application-based Network Operations (ABNO)
IETF RFC 7491
![Page 8: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/8.jpg)
Application-based Network Operations (ABNO)
• OAM receiving alerts about potential problems
• correlating them • triggering other
components of the ABNO system to take action to preserve or recover the services
IETF RFC 7491
![Page 9: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/9.jpg)
Application-based Network Operations (ABNO)
• OAM receiving alerts about potential problems
• correlating them • triggering other
components of the ABNO system to take action to preserve or recover the services
monitoring hierarchy
![Page 10: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/10.jpg)
Scenario
• LP monitors are assumed integrated in the DSP of each lightpath coherent receiver (e.g., pre-forward-error-correction bit error rate monitors)
• Power monitors can be assumed for links and nodes
![Page 11: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/11.jpg)
Hierarchical monitoring architecture
![Page 12: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/12.jpg)
Hierarchical monitoring architecture
• EX: LP level 0: 1 per active lightpath
![Page 13: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/13.jpg)
Hierarchical monitoring architecture
• EX: LP level 0: 1 per active lightpath
• EX: LP group level 1: each box group all the lightpaths starting from the same ingress node
![Page 14: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/14.jpg)
Hierarchical monitoring architecture
• EX: LP level 0: 1 per active lightpath
• EX: LP group level 1: each box group all the lightpaths starting from the same ingress node
![Page 15: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/15.jpg)
Hierarchical monitoring architecture
• Each entity is responsible for specific elements: e.g. a set of lightpaths
• each layer receives information from down layers − correlation − actions − notifications to the upper
layers • Going up to higher layers, more
responsibility
• EX: LP level 0: 1 per active lightpath
• EX: LP group level 1: each box group all the lightpaths starting from the same ingress node
![Page 16: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/16.jpg)
Hierarchical monitoring architecture
• Each entity is responsible for specific elements: e.g. a set of lightpaths
• each layer receives information from down layers − correlation − actions − notifications to the upper
layers • Going up to higher layers, more
responsibility
• EX: LP level 0: 1 per active lightpath
• EX: LP group level 1: each box group all the lightpaths starting from the same ingress node
![Page 17: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/17.jpg)
Hierarchical monitoring architecture
• Each entity is responsible for specific elements: e.g. a set of lightpaths
• each layer receives information from down layers − correlation − actions − notifications to the upper
layers • Going up to higher layers, more
responsibility
• EX: LP level 0: 1 per active lightpath
• EX: LP group level 1: each box group all the lightpaths starting from the same ingress node
![Page 18: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/18.jpg)
Monitoring entity
![Page 19: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/19.jpg)
Monitoring entity
• Agent disseminates monitoring information to the upper layer
![Page 20: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/20.jpg)
Monitoring entity
• Agent disseminates monitoring information to the upper layer
• Although not shown, the Manager at level i is connected to several monitoring entities of the level i-1
![Page 21: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/21.jpg)
Monitoring entity
• Agent disseminates monitoring information to the upper layer
• Although not shown, the Manager at level i is connected to several monitoring entities of the level i-1
• Manager correlates and processes info coming from agents at the level i-1
![Page 22: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/22.jpg)
Alarms generated in a commercial system
![Page 23: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/23.jpg)
Alarms generated in a commercial system
single link degradation&
single lightpath
![Page 24: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/24.jpg)
Alarms generated in a commercial system
single link degradation&
single lightpath
à 13 alarms
![Page 25: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/25.jpg)
Alarms generated in a commercial system
single link degradation&
single lightpath
à 13 alarms
USED IN SIMULATIONS TO EVALUATE SCALABILITY
![Page 26: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/26.jpg)
Simulation scenario
![Page 27: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/27.jpg)
Simulation scenario
• Comparison of two management architectures:
• i) the proposed hierarchical monitoring architecture;
• ii) a centralized OAM receiving all monitoring information and correlating them.
![Page 28: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/28.jpg)
Simulation scenario
• Comparison of two management architectures:
• i) the proposed hierarchical monitoring architecture;
• ii) a centralized OAM receiving all monitoring information and correlating them.
• Two scenarios are considered:
• link hard-failure: all lightpaths traversing the failed link are disrupted and each one is source of alarms;
• soft-failure: performance of a network element – such as an amplifier – are degraded causing the OSNR decrease of traversing lightpaths à some lightpaths suffer, others not: e.g. OSNR degradation may imply a BER increase over the threshold (thus, generating alarms) or not (not generating alarms)
![Page 29: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/29.jpg)
Simulation scenario
• Comparison of two management architectures:
• i) the proposed hierarchical monitoring architecture;
• ii) a centralized OAM receiving all monitoring information and correlating them.
• Two scenarios are considered:
• link hard-failure: all lightpaths traversing the failed link are disrupted and each one is source of alarms;
• soft-failure: performance of a network element – such as an amplifier – are degraded causing the OSNR decrease of traversing lightpaths à some lightpaths suffer, others not: e.g. OSNR degradation may imply a BER increase over the threshold (thus, generating alarms) or not (not generating alarms)
• The hierarchical monitoring architecture consists in
![Page 30: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/30.jpg)
Simulation scenario
• Comparison of two management architectures:
• i) the proposed hierarchical monitoring architecture;
• ii) a centralized OAM receiving all monitoring information and correlating them.
• Two scenarios are considered:
• link hard-failure: all lightpaths traversing the failed link are disrupted and each one is source of alarms;
• soft-failure: performance of a network element – such as an amplifier – are degraded causing the OSNR decrease of traversing lightpaths à some lightpaths suffer, others not: e.g. OSNR degradation may imply a BER increase over the threshold (thus, generating alarms) or not (not generating alarms)
• The hierarchical monitoring architecture consists in • level 0: LP monitor
![Page 31: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/31.jpg)
Simulation scenario
• Comparison of two management architectures:
• i) the proposed hierarchical monitoring architecture;
• ii) a centralized OAM receiving all monitoring information and correlating them.
• Two scenarios are considered:
• link hard-failure: all lightpaths traversing the failed link are disrupted and each one is source of alarms;
• soft-failure: performance of a network element – such as an amplifier – are degraded causing the OSNR decrease of traversing lightpaths à some lightpaths suffer, others not: e.g. OSNR degradation may imply a BER increase over the threshold (thus, generating alarms) or not (not generating alarms)
• The hierarchical monitoring architecture consists in • level 0: LP monitor• Level 1: grouping all LPs with the same ingress node
![Page 32: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/32.jpg)
Simulation scenario
• Comparison of two management architectures:
• i) the proposed hierarchical monitoring architecture;
• ii) a centralized OAM receiving all monitoring information and correlating them.
• Two scenarios are considered:
• link hard-failure: all lightpaths traversing the failed link are disrupted and each one is source of alarms;
• soft-failure: performance of a network element – such as an amplifier – are degraded causing the OSNR decrease of traversing lightpaths à some lightpaths suffer, others not: e.g. OSNR degradation may imply a BER increase over the threshold (thus, generating alarms) or not (not generating alarms)
• The hierarchical monitoring architecture consists in • level 0: LP monitor• Level 1: grouping all LPs with the same ingress node• Level 2: responsible of all LPs
![Page 33: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/33.jpg)
Simulation scenario
• Comparison of two management architectures:
• i) the proposed hierarchical monitoring architecture;
• ii) a centralized OAM receiving all monitoring information and correlating them.
• Two scenarios are considered:
• link hard-failure: all lightpaths traversing the failed link are disrupted and each one is source of alarms;
• soft-failure: performance of a network element – such as an amplifier – are degraded causing the OSNR decrease of traversing lightpaths à some lightpaths suffer, others not: e.g. OSNR degradation may imply a BER increase over the threshold (thus, generating alarms) or not (not generating alarms)
• The hierarchical monitoring architecture consists in • level 0: LP monitor• Level 1: grouping all LPs with the same ingress node• Level 2: responsible of all LPs • OAM Handler
![Page 34: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/34.jpg)
Hard failure
![Page 35: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/35.jpg)
Soft failure
![Page 36: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/36.jpg)
Conclusions
• This paper presented the hierarchical monitoring architecture proposed within the EU ORCHESTRA
• ABNO OAM Handler functionalities are spread into several hierarchical layers, enabling to confine sets of monitored physical parameters within specific levels in the hierarchy.
• Scalable solutions. • Measurements have been performed to identify the generated alarms in a commercial
system. • Simulations: the proposed hierarchical architecture guarantees high scalability
ACK: The work has been partially supported by the ORCHESTRA project.
![Page 37: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/37.jpg)
email: [email protected]
![Page 38: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/38.jpg)
Hierarchical monitoring architecture: example of responsibility
![Page 39: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/39.jpg)
Hierarchical monitoring architecture: example of responsibility
• LP level 0: 1 per active lightpath
![Page 40: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/40.jpg)
Hierarchical monitoring architecture: example of responsibility
• LP level 0: 1 per active lightpath
• LP group level 1: each groups group all the lightpaths starting from the same ingress node
![Page 41: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/41.jpg)
Hierarchical monitoring architecture: example of responsibility
• LP level 0: 1 per active lightpath
• LP group level 1: each groups group all the lightpaths starting from the same ingress node
• Assuming an amplifier malfunction in link A-B —> alarms generated for the A-B LP and for A-C LP
![Page 42: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/42.jpg)
Hierarchical monitoring architecture: example of responsibility
• LP level 0: 1 per active lightpath
• LP group level 1: each groups group all the lightpaths starting from the same ingress node
• Assuming an amplifier malfunction in link A-B —> alarms generated for the A-B LP and for A-C LP
• Alarms sent to level 1: by correlating this information, a problem can be identified in the segment A-B.
![Page 43: N. Sambo , F. Cugini2, A. Sgambelluri , P. Castoldiorchestraproject.eu/files/publications/Sambo_talk_ECOC15.pdf · Hierarchical monitoring architecture and OAM Handler N. Sambo1,](https://reader034.vdocuments.us/reader034/viewer/2022051720/5a78966a7f8b9a7b698d3038/html5/thumbnails/43.jpg)
Hierarchical monitoring architecture: example of responsibility
• LP level 0: 1 per active lightpath
• LP group level 1: each groups group all the lightpaths starting from the same ingress node
• Assuming an amplifier malfunction in link A-B —> alarms generated for the A-B LP and for A-C LP
• Alarms sent to level 1: by correlating this information, a problem can be identified in the segment A-B.
• Then, LP level 2 can group all the lightpaths whose ingress node belongs to a specific region of the network and so on up to a generic level H.